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Drill bit

A drill bit is a rotary cutting tool designed to create or enlarge cylindrical holes in solid materials by rotating at high speeds and removing chips or debris through flutes or channels.^[1] It is the primary component of drilling operations, attached to a drill press, handheld power drill, or specialized machine, and typically features a pointed tip for initial penetration and helical or straight flutes for material evacuation.^[2] Drill bits vary widely in size, from fractions of a millimeter to several inches in diameter, and are engineered for precision, with standard sizes governed by systems like ANSI/ASME B94.11M for fractional, letter, and number gauges.^[3] Drill bits are categorized by design and application to suit specific materials and tasks, ensuring efficient cutting while minimizing wear and heat buildup.^[4] Common types include twist drills, versatile for metals, wood, and plastics with their helical flutes for chip removal; spade bits (also called paddle bits), ideal for large, rough holes in wood; masonry bits with tungsten carbide tips for drilling into concrete, brick, or tile; and auger bits for deep, clean holes in wood.^[4] Specialty variants encompass step drills for progressive hole enlargement in sheet metal, countersink bits for creating conical recesses to seat screw heads flush, and core drills for extracting cylindrical samples or making precise large-diameter holes.^[4] In advanced machining, indexable insert drills and exchangeable head types allow for modular replacement of cutting edges, enhancing versatility in industrial settings.^[5] The performance of drill bits depends on their construction materials and coatings, selected based on the workpiece hardness, cutting speed, and environmental conditions.^[2] Most are made from high-speed steel (HSS) for general-purpose durability, cobalt steel for heat resistance in tough alloys, or solid carbide (tungsten carbide with cobalt binder) for superior hardness in high-precision or abrasive applications.^[4]^[2] Coatings such as titanium nitride (TiN) reduce friction and increase tool life, while black oxide provides basic rust protection for ferrous materials.^[4] Optimal use involves matching the bit's point angle (typically 118° for standard materials, adjustable to 90°–140° for specifics like plastics or hard steels) and helix angle (around 30° for balanced chip evacuation) to the material, often with cutting fluids to cool and lubricate during operation.^[2]^[1]

History

Early Development

The earliest known drill bits emerged in ancient civilizations as part of rudimentary hand-powered drilling tools. Around 3000 BCE, the ancient Egyptians employed bow drills—consisting of a flexible bow with a cord wrapped around a straight shaft—for creating holes in materials like wood, stone, and bone during construction and crafting activities. These drills used bits fashioned from flint, bone, or soft metals such as copper, often combined with abrasives like sand to enhance cutting action. The Romans and ancient Greeks later adopted and refined pump drills, which incorporated a weighted flywheel for sustained rotation via up-and-down motion, applying them to precise tasks including jewelry making and woodworking.^[6] From the 15th to 18th centuries in Europe, woodworking advanced with the introduction of the brace and bit system, a crank-operated tool that provided superior leverage and control over earlier strap or bow mechanisms. These devices first appeared in Europe in the early 15th century, featured interchangeable bits held in a rotating brace, enabling deeper and more accurate holes in timber for furniture, shipbuilding, and architecture. Bits during this era were typically forged from iron or early steel by blacksmiths, marking a shift toward more durable metal components suited to repetitive use.^[7] Pre-industrial drill bits relied primarily on wrought iron or carbon steel for their construction, materials that offered reasonable hardness but were constrained by the limitations of hand-powered operation, resulting in slower penetration rates and frequent manual clearing of debris. A transformative invention arrived in 1861 when Stephen A. Morse, an American mechanic, devised the twist drill bit to address inefficiencies in metalworking; patented in 1863 as U.S. Patent No. 38,119, it incorporated helical flutes along a cylindrical shank to shear and evacuate chips effectively, dramatically improving speed and precision for drilling hard metals. This innovation laid the foundation for the twist drill as an early universal bit type, bridging manual and emerging powered drilling techniques.^[8]^[9]

Modern Innovations

The introduction of high-speed steel (HSS) in the early 1900s marked a pivotal advancement in drill bit technology, allowing for significantly faster cutting speeds compared to earlier carbon steel tools while maintaining hardness at elevated temperatures. Developed around 1904 with compositions like T1 (18-4-1) steel, HSS enabled drill bits to operate at approximately twice the cutting speeds of predecessors, revolutionizing industrial machining and woodworking applications.^[10] This material's superior heat resistance and durability addressed limitations in manual and early powered drilling, paving the way for broader mechanization. (For detailed properties of HSS, see the Materials section.) Post-World War II developments further propelled innovation, with carbide-tipped drill bits gaining prominence in the 1940s and 1950s through the widespread adoption of cemented tungsten carbide inserts. Invented in the 1920s but scaled industrially after the war due to improved manufacturing processes, these bits offered exceptional hardness—up to 90 HRA—enabling penetration of tough materials like hardened steel and masonry at rates far exceeding HSS alone.^[11] Concurrently, the emergence of computer numerical control (CNC) manufacturing in the 1970s introduced precision grinding and automated production, achieving tolerances as fine as 0.01 mm and reducing variability in bit geometry for consistent performance in high-volume operations.^[12] In the 21st century, nanotechnology-based coatings such as diamond-like carbon (DLC) have enhanced drill bit longevity, with applications surging in the 2010s to provide low-friction surfaces that can increase tool life by up to 15 times in applications like drilling aluminum alloys.^[13] Additive manufacturing, including 3D printing, has enabled custom drill bits tailored to specific tasks, such as complex geometries for oil and gas extraction, shortening production times from weeks to days.^[14] Sustainability efforts have also advanced, with eco-friendly materials like recycled tungsten carbide alloys integrated into bit production through closed-loop recycling programs, recovering over 95% of carbide from used tools to minimize environmental impact and resource depletion.^[15] In 2025, advancements continued with next-generation polycrystalline diamond (PCD) drill bits offering extended tool life and improved drilling accuracy.^[16] The rise of electric power tools from the 1910s onward profoundly influenced drill bit evolution, as portable drills like the 1917 Black & Decker pistol-grip model demanded bits capable of withstanding higher rotational speeds and torques, driving the shift toward heat-resistant materials and robust shanks to prevent premature failure under prolonged use.^[17] This adaptation increased durability requirements by factors of 2-3 times over manual tools, fostering ongoing innovations in material science and coatings to match the efficiency gains of corded and later cordless systems.

Characteristics

Materials

Drill bits are primarily constructed from materials selected for their ability to withstand mechanical stress, heat, and wear during cutting operations. The choice of material depends on the target workpiece, with softer materials like wood requiring economical options and harder ones like metals or composites demanding high-performance alloys.^[18] Steels form the backbone of many drill bits due to their balance of cost, hardness, and toughness. Carbon steel, often high-carbon variants, is used for low-cost bits suited to soft materials such as wood, where it provides adequate sharpness and durability without the need for alloying elements that increase expense.^[18] High-speed steel (HSS), a tungsten-molybdenum alloy typically containing about 18% tungsten, 4% chromium, and 1% vanadium in its classic AISI M1 grade, is the standard for general-purpose drilling in metals and plastics; it retains hardness up to approximately 600°C, enabling high cutting speeds without softening.^[19] Cobalt-alloyed HSS, incorporating 5-8% cobalt (as in M35 or M42 grades), enhances heat resistance and wear performance for demanding metalworking applications like stainless steel, where temperatures can exceed those tolerated by standard HSS.^[20] Tungsten carbide, a cemented carbide composite of tungsten and carbon particles sintered with a cobalt binder (often ISO K10-K40 grades), is employed for drilling hard, abrasive materials such as cast iron or high-strength alloys; its exceptional hardness, ranging from 1500 to 1800 HV on the Vickers scale, allows it to maintain a sharp edge far longer than steel alternatives.^[21] Advanced materials address specialized needs in extreme environments. Polycrystalline diamond (PCD), consisting of diamond particles bonded under high pressure, is ideal for machining abrasive non-ferrous materials like composites or aluminum, offering superior wear resistance due to diamond's unmatched hardness.^[22] Key material properties include hardness, typically measured on the Rockwell C scale (HRC) for steels (55-65 HRC for HSS) or Vickers for carbides, toughness to resist fracture under impact, and corrosion resistance to prevent degradation in humid or chemical environments.^[23] Trade-offs are inherent: while carbides provide extreme hardness and longevity, their brittleness limits them in applications with vibration or interrupted cuts, whereas steels offer greater toughness but wear faster in hard materials.^[24] These base materials are often enhanced with thin coatings like titanium nitride to further improve lubricity and heat dissipation.^[18]

Geometry

The geometry of a drill bit's cutting end is critical for efficient material removal, stability, and heat management during drilling. Key elements include the point geometry, which encompasses the lip angle and web thickness. The lip angle, also known as the point angle, is the included angle at the drill's tip formed by the two cutting lips. For general-purpose drilling in metals, a standard lip angle of 118° is commonly used, providing a balance between sharpness and durability for materials like aluminum and mild steel.^[25] The standard 118° lip angle is used for general-purpose drilling, including softer materials like wood and aluminum, balancing sharpness and strength. The web thickness, referring to the central core between the cutting lips, directly influences the bit's torsional strength; a thicker web enhances rigidity and resistance to breakage, typically comprising 15-20% of the drill diameter in conventional twist bits to optimize strength without compromising chip evacuation.^[26] Flutes are the helical or straight grooves along the drill body that facilitate chip removal and coolant flow. In standard twist drill bits, flutes feature a helical twist with a helix angle of approximately 30° for general applications, which aids in curling and ejecting chips away from the cutting zone to prevent clogging and overheating.^[27] This angle promotes efficient chip clearance in a wide range of materials, from metals to plastics. For specialized uses like deep-hole drilling in gun barrels, straight flutes with a 0° helix angle are employed in gun drills, prioritizing rigidity and precise coolant delivery over aggressive chip evacuation.^[28] Overall, flutes play a vital role in maintaining cutting performance by ensuring debris is transported out of the hole, reducing friction and extending tool life.^[29] The overall shape of the cutting end varies by bit type to suit specific tasks. Twist drill bits have a cylindrical body with tapered point geometry, allowing for straight, uniform holes in various materials. In contrast, step drill bits adopt a conical shape with incremental diameter steps, enabling the drilling of multiple hole sizes in sheet metal without changing tools.^[30] To minimize friction along the non-cutting margins, relief angles—typically ranging from 7° to 15°—are ground behind the cutting edges, with common values of 10-12° for general metalworking to ensure smooth operation and prevent binding.^[31] Sizing parameters further define drill bit geometry for precision and stability. Diameter tolerances adhere to the h8 standard in metric systems, ensuring the bit's shank and body maintain close fits (e.g., +0/-0.014 mm for diameters 0.95-3 mm) for accurate hole production in manufacturing.^[32] Additionally, the length-to-diameter (L/D) ratio affects drilling stability; standard jobber-length bits typically feature ratios of 4:1 to 10:1, balancing reach with rigidity to minimize deflection in general applications, while higher ratios require specialized support for deep holes.^[33]

Coatings

Coatings on drill bits are thin surface treatments applied to enhance performance by improving wear resistance, reducing friction, and increasing heat tolerance during drilling operations. These additives are typically deposited on high-speed steel or carbide substrates to address limitations in base materials under high-stress conditions. Common coatings include titanium nitride (TiN), which provides a gold-colored finish and reduces friction while extending tool life by 2-4 times compared to uncoated bits.^[34]^[35] Titanium aluminum nitride (TiAlN) is designed for high-temperature applications, maintaining hardness and oxidation resistance up to 800°C, making it suitable for drilling heat-resistant alloys and stainless steels. Diamond-like carbon (DLC) coatings offer exceptionally low friction coefficients and high hardness, ideal for non-ferrous materials like aluminum where chip evacuation and surface finish are critical. Black oxide, a simpler conversion coating, primarily provides corrosion resistance, particularly in humid or storage-prone environments, without significantly altering cutting properties.^[36]^[37]^[38] These coatings are applied via physical vapor deposition (PVD), which produces thin layers of 1-5 microns for precise edge retention, or chemical vapor deposition (CVD), which can yield thicker coatings of 5-20 microns in some applications. PVD is preferred for its low-temperature process that preserves tool geometry, while CVD excels in uniform coverage on complex shapes.^[39]^[40] Overall benefits include extended tool life by 2-5 times, lower cutting torque, and reduced heat buildup, leading to smoother operations and fewer workpiece defects. However, coatings may not adhere uniformly on extremely sharp edges, potentially leading to localized wear.^[41]

Shank

The shank is the non-cutting end of a drill bit, designed to be securely gripped by a chuck, collet, or spindle to transmit rotational force and maintain alignment during operation. It varies in shape and size to ensure compatibility with different drilling tools, from handheld drills to industrial machines, while preventing slippage under load. Common shank designs prioritize ease of insertion, torque transfer, and removal, with features tailored to specific applications. Straight shanks, the most common type, feature a cylindrical shape matching the bit's diameter for sizes up to approximately 1/2 inch, allowing use in standard three-jaw chucks for general-purpose drilling in portable and benchtop tools. Hexagonal shanks, with their six-sided profile, are optimized for quick-change systems in cordless drills and impact drivers, providing superior torque transmission without slipping and enabling rapid bit swaps via hex collets or adapters. Morse taper shanks, a conical design standardized in sizes MT1 through MT5, offer self-holding precision for heavy-duty machinery like lathes and mills, where the taper locks directly into the spindle for vibration-free operation and high accuracy. Reduced shanks, such as those in Silver & Deming bits, have a smaller diameter (typically 1/2 inch) than the cutting end (up to 1-1/2 inches), enabling larger bits to fit into standard chucks without requiring oversized holders. Key features enhance functionality and safety across shank types. A tang, a flat extension at the end of taper shanks, facilitates easy removal from sockets or sleeves using a drift pin, preventing damage during extraction. Knurling—cross-hatched ridges on the shank surface—improves grip in hand-held applications or when manual tightening is needed, reducing slippage in chucks. Length standards like jobber shanks typically span 4 to 10 times the bit diameter, balancing reach for general drilling with rigidity to minimize deflection. Compatibility is critical for effective use. Straight and reduced shanks pair well with Jacobs keyless chucks for bits under 1/2 inch, offering quick adjustments and reliable hold in portable drills. Morse taper shanks integrate with R8 collets or arbors in milling machines for precise, high-speed work, while hexagonal shanks suit quick-change hex drivers for assembly tasks.

Universal Bits

Twist Drill Bit

The twist drill bit is the most common type of general-purpose drill bit, characterized by its helical flutes that wrap around the cylindrical body to efficiently remove chips and debris from the drilled hole, preventing clogging and overheating during operation. This design, typically made from high-speed steel, allows for effective cutting in a wide range of materials by channeling cuttings upward along the spiral grooves toward the surface. At the tip, many twist drills incorporate a split point with a 135° point angle, which splits the chisel edge to promote self-centering, reduce wandering, and enable faster penetration without requiring a center punch or pilot hole.^[42]^[43] Twist drill bits are standardized in multiple sizing systems to accommodate various applications. Fractional sizes range from 1/16 inch to 1/2 inch in increments of 1/64 inch, providing precise hole diameters for imperial measurements. Metric equivalents span from 1 mm to 13 mm, while wire gauge sizes (#80 to #1) offer finer gradations for smaller holes, with gauge numbers decreasing as diameter increases. These size ranges ensure compatibility with standard drill chucks and cover needs from fine detail work to larger bores.^[44]^[45] In applications, twist drill bits excel in drilling soft to medium-hard materials such as metals (including aluminum and mild steel), plastics, and wood, where their balanced design supports clean, straight holes without excessive heat buildup. Cutting speeds are determined using the surface feet per minute (SFM) formula, SFM = (RPM × diameter × π) / 12, where RPM is the spindle speed in revolutions per minute and diameter is the bit size in inches; this equation derives from the circumference of the bit's rotation to calculate linear cutting speed at the periphery. For instance, mild steel typically requires an SFM of 100 for high-speed steel bits: a 0.25-inch diameter bit would thus need RPM = (SFM × 12) / (diameter × π) ≈ 1530 revolutions per minute to maintain optimal performance and tool life.^[46]^[47]^[48] Variations in length adapt the twist drill bit for different accessibility needs while retaining the core helical flute and split point features. The jobber length, the standard configuration, offers a flute length of approximately 4 to 5 times the diameter and an overall length of 9 to 10 times the diameter, balancing rigidity and reach for general-purpose drilling. Aircraft extension lengths, by contrast, extend the overall length up to 12 inches or more while keeping the jobber flute proportion, enabling drilling in confined or deep-access spaces like aircraft assembly without compromising chip evacuation. These bits often feature straight round shanks for secure mounting in collets or chucks.^[4]^[49]

Step Drill Bit

A step drill bit, also known as a step cone or unibit in some contexts, is a conical cutting tool designed primarily for producing holes of varying diameters in thin sheet materials such as metal, plastic, and fiberglass. Its distinctive design features a series of concentric steps that increase in diameter incrementally along the conical body, allowing users to select the desired hole size by controlling the drilling depth. Common configurations include steps ranging from 1/8 inch to 1-3/8 inches in 1/32-inch increments, enabling precise hole sizing without requiring multiple tools. The tip typically incorporates a 90-degree point angle, which facilitates self-centering and initial penetration without a separate pilot hole.^[30]^[50] These bits are constructed from high-speed steel (HSS) for general-purpose applications or solid carbide for enhanced durability in tougher materials, making them suitable for drilling sheet metal up to 1/4 inch thick. HSS variants provide cost-effective performance in softer metals like aluminum and brass, while carbide options offer superior heat resistance and longevity for repeated use in stainless steel or abrasive composites. Optional coatings, such as titanium nitride (TiN), can be applied to improve lubricity and reduce friction during sheet metal operations.^[30]^[51] In usage, the step drill bit requires no preliminary pilot hole due to its tapered entry point, which gradually enlarges the opening as it advances. It is particularly effective for electrical and plumbing tasks involving conduit holes in junction boxes or panels. Recommended operating speeds vary by material; for aluminum, a maximum of 300 RPM is advised to prevent overheating and ensure clean cuts, often using a cordless drill with variable speed control. The tool excels in applications demanding quick transitions between hole sizes, such as fabricating enclosures or installing fixtures.^[30]^[52] The primary advantages of step drill bits include minimizing downtime by eliminating the need to swap bits mid-project, thus enhancing workflow efficiency in professional settings like electrical work. They also produce burr-free, round holes with minimal wandering, thanks to the self-centering geometry. However, their effectiveness diminishes in materials thicker than 1/4 inch, where the steps may bind or overheat, potentially leading to tool breakage or imprecise results; for such cases, traditional twist bits or hole saws are preferred.^[51]^[53]

Unibit

The Unibit is a branded step drill bit designed for creating precise, round holes of varying diameters in thin sheet metal and similar materials, particularly suited for electrical and panel work. Invented by Harry C. Oakes in Wyoming, New York, and patented in 1973, it features a conical body with stepped cylindrical cutting sections that allow progression through multiple hole sizes without changing bits.^[54]^[55] Originally produced and sold exclusively by the Unibit Corporation starting in the 1980s as a labor-saving tool for tradespeople, the design gained popularity after the patent expired, leading to widespread adoption and variations by other manufacturers, with Irwin Industrial Tools now holding the Unibit trademark.^[56]^[57] The core design of the Irwin Unibit incorporates a single-flute cutting edge for efficient material removal and reduced torque, enabling clean, burr-free holes in materials up to 1/8 inch thick.^[57] Laser-etched size markings on the flute provide clear visual guides for stopping at precise diameters, such as from 1/4 inch up to 1-3/8 inches across 10 or more steps in common models like the #5 Unibit.^[58] A SpeedPoint tip at the base facilitates self-starting without pilot holes or center punching, while the three-flatted shank prevents slippage in standard drill chucks.^[57] Constructed primarily from high-speed steel (HSS) for durability in mild steel, aluminum, brass, copper, plastic, and laminates, optional versions feature cobalt alloy for enhanced performance in harder materials like stainless steel.^[57] In applications, the Unibit excels at enlarging knockouts in electrical panels, junction boxes, and sheet metal enclosures, with steps calibrated to standard sizes like 1/2 inch for conduit fittings and 3/4 inch for cable glands to ensure compliance with installation norms.^[59] Recommended drilling speeds range from 200 to 500 RPM depending on material thickness and type, using light pressure and lubricant to maintain control and extend bit life.^[60] This versatility made it a staple for electricians and fabricators seeking efficiency over traditional hole saws or multiple twist bits.

Hole Saw

A hole saw is a specialized cup-shaped drill bit used to create large-diameter circular holes in materials such as wood, metal, plastic, and composites, guided by a central pilot drill to maintain alignment. It features a cylindrical blade with sharp, toothed edges that perform an annular cut, distinguishing it from solid-boring bits. The design typically incorporates a bi-metal construction, where high-speed steel teeth are welded to a flexible alloy backing, providing durability, heat resistance, and resistance to shattering under stress.^[61]^[62] The hole saw attaches to an arbor, which includes the pilot bit extending 10-30 mm beyond the cutting edge for initial penetration and stability, often with slots or an ejector spring to facilitate core removal. Available in diameters from 3/4 inch (19 mm) to 6 inches (152 mm), these tools suit applications like installing plumbing, electrical conduits, or recessed lighting. Standard cutting depth reaches up to 1-1/2 inches (38-41 mm), enabling single-pass holes through materials like 2x4 lumber.^[62]^[63]^[64] In operation, the pilot bit first creates a small guide hole, after which the toothed rim engages the material to excise only the outer perimeter, leaving an intact cylindrical core that must be cleared to complete the hole. Users should start at low speed to establish the cut, then apply steady pressure while periodically retracting to remove debris, preventing overheating or clogging. Recommended rotational speeds depend on material and size; for wood with mid-range diameters (1-2 inches), approximately 300 RPM is suitable, while for mild steel, 150 RPM helps maintain clean cuts and tool life.^[65]^[66] Common types include standard hole saws with fixed arbors for general use and quick-release models that allow rapid blade swaps via a locking mechanism, often paired with universal shanks compatible with most drills. Bi-metal variants offer versatility across materials, while carbide-tipped options extend to harder substances but remain focused on perimeter cutting.^[62]^[61] Safety is paramount due to the risk of binding, where the blade can seize in the kerf and cause the tool to jerk violently, potentially leading to injury. Always secure the workpiece firmly, wear protective eyewear and gloves, ensure the pilot bit protrudes at least 1/8 inch beyond the teeth, and use cutting lubricants or oils for metal to reduce friction and heat buildup—except on wood or cast iron, where they are unnecessary. Start cuts perpendicular to the surface for even tooth engagement, and follow manufacturer speeds to avoid excessive wear or kickback.^[67]^[68]

Metalworking Bits

Center and Spotting Drill Bit

A center and spotting drill bit is a specialized cutting tool designed for creating precise starter holes in metalworking applications, particularly in lathe operations and CNC machining. These bits feature a short, rigid construction to minimize deflection and ensure accuracy, with the center drill typically incorporating a 60° countersink angle combined with a small pilot drill at the tip, while spotting variants often use a 90° angle for broader initial contact. The flutes are notably short, usually 1 to 2 times the bit's diameter in length, providing stiffness that standard twist drills lack. Constructed primarily from high-speed steel (HSS) for durability in general use, these bits may also be made from cobalt alloys or carbide for enhanced heat resistance and longevity in demanding conditions.^[69]^[70] These tools serve essential preparatory functions: center drills create conical indentations at the ends of workpieces to support them securely on lathe centers, preventing slippage or "walk" during turning operations. Spotting drills, by contrast, establish a centered dimple to guide subsequent twist drills, reducing the risk of misalignment in hole boring. Both types are indispensable in precision metal lathe work and CNC setups, where accurate hole location is critical for components like shafts or fittings. While they can produce a shallow countersink suitable for finishing, their primary role remains initial positioning rather than full-depth enlargement.^[71]^[69] Available in diameters ranging from 1/8 inch to 1/2 inch (commonly numbered from #0 to #4, where #1 offers a 1/8-inch drill diameter and 1/4-inch body), these HSS bits operate at recommended spindle speeds of 500 to 1000 RPM in mild steels, adjustable based on material hardness and machine rigidity. The thicker web and compact design contribute to key advantages, including superior accuracy in hole placement—often within 0.001 inches—and a significant reduction in tool breakage compared to longer drills, as the short length resists bending under load. This rigidity not only extends the life of follow-on tools but also enhances overall machining efficiency by minimizing setup errors.^[70]^[69]

Core Drill Bit

A core drill bit, also known as an annular cutter, is a hollow-ended tool designed for metalworking to produce accurate holes by removing material only from the outer edge, thereby extracting a cylindrical core or slug while minimizing waste. Its structure includes multiple cutting teeth along the circumference for efficient material removal, a tapered inner wall to accommodate thermal expansion and aid in slug release, and a central pilot pin that guides the bit, provides centering, and channels lubricant to the cutting zone. Diameters typically range from 1/4 to 4 inches, enabling precise hole creation in various metal thicknesses up to several inches deep.^[72] These bits come in high-speed steel (HSS) variants, ideal for softer metals like mild steel and aluminum due to their affordability, resharpenability, and effective chip evacuation, and carbide-tipped or tungsten carbide tipped (TCT) types, which excel in harder alloys such as stainless steel and cast iron by offering superior wear resistance, faster cutting rates, and lower heat buildup. Coolant, such as a water-mixed synthetic fluid, is required during operation to lubricate the teeth, dissipate heat, and extend bit life by up to five times compared to dry cutting.^[73]^[74] Core drill bits are primarily applied in metalworking for enlarging pilot holes—often initiated with a center drill for stability—and for core extraction in metallurgical testing, where cylindrical samples are retrieved from metal components or stock for composition analysis, microstructure examination, and quality assessment. The drilling process cuts a continuous ring at the hole's perimeter, leaving the intact core supported by the pilot until completion, at which point the slug ejects cleanly for potential reuse or inspection. Spindle speed is calculated using the formula

\text{RPM} = \frac{\text{SFM} \times 3.82}{\text{diameter (inches)}}

where SFM represents the material-specific surface feet per minute; for instance, an HSS bit in steel at 50 SFM on a 1-inch diameter hole yields approximately 191 RPM to optimize performance and tool longevity.^[75]^[76]^[77]

Countersink Bit

A countersink bit is a specialized cutting tool used in metalworking to create a conical recess at the top of a pre-drilled hole, allowing the head of a flat-head screw or bolt to sit flush with or below the workpiece surface. This design enhances structural integrity by distributing loads evenly and provides a clean aesthetic finish, commonly applied in aerospace, automotive, and machinery assembly. The bit's tapered geometry ensures precise seating without enlarging the hole diameter significantly.^[78]^[79]^[80] The design of a countersink bit features a conical cutting edge with common included angles of 82° for standard inch-series fasteners or 100° for certain aerospace and high-strength applications, ensuring compatibility with screw head profiles. These bits may incorporate multiple flutes for efficient chip evacuation in softer metals or a single-blade configuration for harder materials to minimize vibration. Sizes typically range from those matching #4 screws (approximately 1/8 inch diameter) up to 1/2 inch, scaled to the fastener size for optimal recess depth.^[78]^[79]^[81] Countersink bits come in several types tailored to specific operations: straight flute designs are ideal for handheld or low-precision work due to their simple, robust structure, while countersink sets often include interchangeable pilots—small central drill points that align the bit in the existing hole and prevent wandering. Piloted versions enhance accuracy in production settings by maintaining concentricity with the pilot hole. For alignment in precision tasks, countersink bits may follow spotting drills to establish the initial location.^[78]^[79] In usage, the countersink bit is employed after drilling the primary clearance hole to a depth that accommodates the fastener shank, with the operation performed at spindle speeds of 300-600 RPM depending on material hardness and bit diameter to avoid overheating or tool breakage. Lubrication with cutting oil is essential for metals like steel or aluminum to reduce friction; the process can be done freehand with a drill for simple tasks or guided via drill press or CNC machine for repeatability and precision. Proper feed rates—slow and steady—prevent chatter and ensure a smooth conical finish.^[78]^[79]^[80] Most countersink bits are constructed from high-speed steel (HSS) for its balance of toughness and edge retention in metal applications, often enhanced with a titanium nitride (TiN) coating to improve wear resistance, reduce friction, and extend tool life by up to 3-5 times in abrasive environments. This material combination suits a wide range of metals, from mild steel to stainless alloys.^[78]^[79]

Ejector Drill Bit

The ejector drill bit is a specialized deep-hole drilling tool designed for efficient chip removal in precision manufacturing, featuring symmetric flutes and internal ejector holes that channel high-pressure coolant to flush chips rearward through the tool. Constructed primarily from carbide for enhanced durability and heat resistance, these bits incorporate a dual-tube system with an inner conduit for coolant delivery and an outer path for chip-laden coolant return, often leveraging a Venturi effect to accelerate evacuation. Capable of lengths up to 20 times the diameter, they support depth-to-diameter ratios exceeding 100:1, making them suitable for demanding bores.^[82]^[83]^[84] In applications, ejector drill bits excel in aerospace manufacturing for producing deep, precise holes in components like turbine blades, fuel systems, landing gear, and engine parts, as well as gun barrels requiring straightness and minimal deflection. They perform effectively on irregular workpiece surfaces and diameters from 25 mm to 250 mm, where high-pressure coolant—typically delivered at flows up to 125 L/min—ensures consistent lubrication and cooling during operations. Unlike single-sided gun drills, ejector bits are optimized for symmetric deep holes in production environments.^[82]^[84]^[83] Key advantages of ejector drill bits include minimized clogging through internal chip evacuation, which enables faster feed rates and higher material removal than traditional methods, along with tight tolerances of ±0.04 mm and surface finishes of Ra 0.8-2.5 μm for superior hole quality. Their modular design allows adaptation to various machines, reducing setup times in high-volume settings. However, limitations include the need for specialized equipment with robust high-pressure coolant systems and large reservoir capacities (1,250-2,250 L), restricting use to facilities equipped for such demands and excluding smaller diameters below 25 mm.^[82]^[83]^[84]

Gun Drill Bit

A gun drill bit is a specialized single-flute cutting tool designed for producing straight, deep holes in hard metals, characterized by its ability to achieve high depth-to-diameter ratios while maintaining precision and surface quality.^[85] The tool features a V-shaped cutting edge at the tip, which minimizes cutting forces and promotes accurate hole formation, along with integrated oil ports that deliver coolant directly to the cutting zone.^[86] Diameters typically range from 1 to 50 mm, with usable lengths extending 10 to 100 times the diameter, enabling holes up to several meters deep in applications requiring extreme straightness.^[85] The gun drilling process relies on high-pressure oil coolant, typically delivered at 500 to 2000 psi, which enters through the internal ports at the tip to cool the cutting edge, lubricate the interface, and evacuate chips upward through the external V-shaped flute.^[87] This unidirectional flow from the bottom of the hole ensures efficient chip removal without recirculation, preventing tool breakage and maintaining hole integrity even at depths exceeding 50 times the diameter.^[85] Cutting speeds for hard metals, such as tool steels or stainless alloys, generally range from 20 to 50 m/min, adjusted based on material hardness and machine rigidity to optimize tool life and hole quality.^[88] Gun drill bits find primary applications in manufacturing firearms barrels, where precision bores are essential for ballistic performance and safety, and in injection molds for creating deep cooling channels that enhance production efficiency.^[85] They are also used in aerospace and automotive components requiring straight, burr-free holes for hydraulic or fuel systems.^[86] The technology originated in the late 19th and early 20th centuries in Europe, developed specifically for ordnance production to drill long, straight bores in gun barrels that traditional methods could not achieve with sufficient accuracy.^[89] This innovation addressed the need for durable, rifled barrels in military applications, evolving from earlier forging techniques to modern carbide-tipped designs.^[90]

Indexable Drill Bit

An indexable drill bit is a modular cutting tool designed for efficient, high-volume metal drilling, featuring a robust steel body with precisely machined pockets to hold replaceable carbide inserts. These bits typically incorporate 2 to 5 inserts arranged around the periphery and center, enabling balanced cutting forces and stability during operation; the number of inserts increases with larger diameters to maintain performance. Diameters commonly range from 0.5 to 4 inches (12.7 to 101.6 mm), making them suitable for producing holes in a variety of sizes without requiring multiple specialized tools.^[91]^[92]^[93] The inserts themselves are typically square or triangular (trigon-shaped) carbide components, engineered with multiple cutting edges that allow indexing—rotating the insert to expose a fresh edge after wear—for prolonged tool life and reduced downtime. This design contrasts with solid tools by permitting quick replacement of only the worn inserts, minimizing material waste and sharpening needs. Carbide construction provides superior hardness and heat resistance, essential for machining tough metals like steel and alloys. Inserts may include advanced coatings, such as TiAlN, to further improve wear resistance and cutting efficiency.^[91]^[92]^[94] Key advantages of indexable drill bits include their cost-effectiveness for drilling large-diameter holes, where the expense of solid carbide alternatives would be prohibitive, and their ability to achieve high feed rates up to 0.02 inch per revolution (0.5 mm/rev) while maintaining precision. This productivity gain stems from the inserts' positive rake geometry, often around 12°, which reduces cutting forces and enables faster penetration compared to traditional high-speed steel tools. In production environments, these bits lower the overall cost per hole by up to 50% through extended body life and minimal insert changes.^[91]^[92]^[95] Indexable drill bits are primarily employed in CNC machining centers and lathes for heavy-duty applications, such as automotive and aerospace component production, where consistent hole quality is critical. Effective usage requires through-coolant delivery at pressures of 100-150 psi to facilitate chip evacuation, prevent recutting, and cool the inserts, ensuring optimal performance and surface finishes. Without adequate coolant, typically a water-based or synthetic fluid, tool life can diminish significantly due to thermal buildup.^[91]^[92]^[96]

Left-Hand Bit

A left-hand drill bit, also known as a reverse-helix or left-hand spiral bit, features a flute geometry that spirals in the opposite direction to standard right-hand twist drills, enabling effective cutting during counterclockwise rotation.^[97] This design maintains similar overall dimensions and point angles—typically 118 degrees for general-purpose use—but reverses the helix to facilitate chip evacuation in left-rotating spindles.^[98] The bits are precision-ground with two flutes and a round shank for secure holding.^[97] These bits are primarily applied in screw machines and lathes with counterclockwise spindle rotation, where they perform drilling operations without requiring custom tooling adaptations.^[98] A key use is in fastener extraction, where the reverse helix allows the bit to back out broken bolts or screws as it drills, often loosening the fastener before full penetration.^[99] They are also employed in dual-spindle machining setups to prevent rotation interference between opposing tools.^[100] Constructed from high-speed steel (HSS) for general durability or cobalt-enhanced alloys like M35 for heat resistance in harder metals, left-hand bits match the material compatibility of standard twist drills.^[98] Common finishes include black oxide to reduce friction and extend tool life.^[97] Available in jobber lengths and sizes ranging from 1/16 inch to 1/2 inch in fractional increments—aligning with conventional twist bit sizing—these bits fit standard drill chucks and collets via their round shanks, though adapters may be needed for left-hand-specific holders.^[98] Sets typically include 13 to 29 pieces for versatile workshop use.^[99]

Metal Spade Bit

The metal spade bit is a flat-bladed tool optimized for quickly drilling rough, oversized holes in thin sheet metals, particularly in applications like HVAC ductwork installation and framing. Its design consists of a broad, paddle-like wing with a protruding center point for precise starting and two sharpened cutting edges that scrape away material aggressively.^[101] Some models include peripheral spurs on the wings to score the workpiece perimeter, aiding initial alignment and reducing wander.^[101] Constructed primarily from high-speed steel (HSS) or cobalt-enhanced HSS for enhanced heat resistance and edge retention during metal contact, these bits typically feature a hex or round shank compatible with standard drill chucks. Available sizes span 1/4 inch to 1-1/2 inch diameters, with a practical maximum depth of 1-1/2 inches to allow chip clearance without binding.^[101]^[102] For effective use, metal spade bits operate at low rotational speeds of 200-300 RPM to minimize heat buildup and bit deflection, paired with firm, steady hand pressure in a handheld power drill. They excel in mild steel sheets up to 1/8 inch thick, where cutting fluids or lubricants are applied to prevent galling and prolong tool life.^[103]^[102] Key advantages lie in their affordability—often under $5 per bit—and rapid cutting action, enabling quick roughing out of access holes without specialized equipment. The design's simplicity also allows easy resharpening on a bench grinder, extending usability in field conditions.^[101] Limitations include poor precision, with holes often oversized or off-center due to the bit's tendency to wander on harder surfaces, and the generation of burrs or ragged edges that necessitate post-drilling cleanup. They perform poorly on thicker or harder metals, risking bit breakage or excessive wear without adequate power and cooling.^[104]^[102]

Straight Fluted Bit

The straight fluted drill bit, also known as a straight flute bit, is characterized by its parallel flutes running longitudinally along the shank without any helical twist, resulting in a 0° helix angle. This design incorporates deep, straight grooves that provide ample space for chip evacuation, particularly in materials that generate short, brittle chips rather than long, stringy ones. Typically constructed from high-speed steel (HSS) for general use or solid carbide with polycrystalline diamond (PCD) tips for enhanced durability, these bits feature a conical point with backed-off cutting edges for efficient penetration and reduced friction.^[105]^[106]^[107] These bits are primarily applied in machining soft, non-ferrous metals such as aluminum, brass, and copper, where they excel in creating precise, clean holes without the risk of chips winding around the tool. They are well-suited for hand-held drills or low-speed power tools in applications like automotive component fabrication, including pre-tapping holes in cylinder blocks or steering knuckles, and general metalworking tasks involving ductile materials. Unlike twist drills with helical flutes that aid in evacuating long chips from harder substances, straight fluted bits ensure straightforward chip flow in softer metals to prevent binding.^[107]^[105]^[106] Available in diameters ranging from 1/16 inch to 1/2 inch (approximately 1.6 mm to 12.7 mm), these bits often come in jobber-length configurations for standard drilling depths up to 5 times the diameter, though specialized versions support up to 8 times for deeper holes. The HSS variants are cost-effective for intermittent use in hand or slow-speed operations, while carbide options with internal coolant channels offer higher productivity in industrial settings. Key benefits include a straighter drilling path for improved hole accuracy and surface finish, lower torque requirements due to reduced material adhesion, and enhanced stability that minimizes deflection during operation.^[106]^[107]^[105]

Trepanning Tool

A trepanning tool, also known as an annular cutter, is a specialized cutting implement designed for producing large-diameter holes in thick metal plates by removing a cylindrical core rather than fully machining the material.^[108] The tool features a ring-shaped body with multiple segmented cutting teeth arranged around its periphery, mounted on a pilot pin that guides the cut and centers the operation. These teeth, often made from high-speed steel or carbide, engage the workpiece to form an annular groove, leaving a solid slug in the center that can be ejected post-cut. Typical sizes range from 1/2 inch to 12 inches in diameter, with cutting depths commonly up to 4 inches, though custom options extend further for heavy-duty needs.^[109] This design draws from core drill principles, where material removal focuses on the hole's circumference for efficiency.^[110] In usage, trepanning tools are primarily employed with magnetic base drills on ferrous materials like structural steel, ensuring stable positioning on large surfaces without through-drilling. Operations require flood coolant to lubricate the teeth, reduce heat buildup, and flush chips, while low spindle speeds—around 50 RPM for larger diameters—prevent tool breakage and optimize chip evacuation. The pilot pin not only initiates the cut but also supports the core during machining, allowing for precise, vibration-free performance in horizontal or vertical orientations.^[109]^[110] Applications of trepanning tools are prominent in industries demanding robust hole-making in heavy metals, such as structural steel fabrication for beams and plates, and shipbuilding for drilling through thick hull sections. These tools excel in scenarios where conventional twist drills would overload machinery, offering up to twice the cutting speed for holes over 1 inch in diameter due to their reduced material removal volume—typically 50-70% less than a full twist drill operation. This efficiency translates to lower power consumption and faster cycle times, making them indispensable for on-site fabrication tasks.^[108]^[110]

Woodworking Bits

Brad Point Bit

The brad point bit is a specialized woodworking drill bit designed for creating precise, clean holes in wood with minimal splintering or tear-out. It features a sharp central brad, or spur, that acts as a pilot point to accurately locate and anchor the bit in the workpiece, preventing wandering during initial entry. Surrounding the brad are outer scoring spurs that cut a clean outline into the wood surface before the main cutting edges engage, ensuring flat-bottomed holes without fuzzy edges. This design allows for accurate drilling even in harder woods or when working on end grain.^[111]^[112]^[113] Typical sizes for brad point bits range from 1/8 inch to 1-1/2 inches in diameter, accommodating a variety of woodworking tasks from small pilot holes to larger joinery. Overall lengths generally fall between 3 and 6 inches, with jobber-length variants providing sufficient reach for most applications while maintaining rigidity. These dimensions make the bit suitable for use in handheld drills, drill presses, or CNC machines, where precision is paramount.^[113]^[114] In applications such as doweling, furniture assembly, and cabinetry, brad point bits excel at producing exact-diameter holes for joints, hinges, or hardware installation, often yielding cleaner results than standard twist bits adapted for wood. Recommended drilling speeds range from 1000 to 2000 RPM, depending on wood hardness and bit size, to optimize chip evacuation and avoid overheating—slower for hardwoods like oak and faster for softwoods like pine.^[115]^[116] Brad point bits are commonly made from high-speed steel (HSS), which provides durability and heat resistance without the need for coatings, as the bit's design and wood-specific use minimize friction and wear. This material choice ensures sharp edges remain effective over multiple uses in dry woodworking environments.^[117]^[118]

Spade Bit

A spade bit, also known as a paddle bit, features a flat, broad blade designed for rapid drilling of large holes in wood, particularly in framing and rough construction applications. The blade typically includes side cutting wings that facilitate quick material removal, without a centering pilot point to guide the bit, allowing for straightforward penetration but requiring user control to maintain alignment. These bits are commonly available in sizes ranging from 1/4 inch to 1-1/2 inches in diameter, making them suitable for creating openings for plumbing, electrical wiring, or structural fasteners in softwoods like pine.^[119]^[120] In usage, spade bits excel at high-speed operation, with recommended RPM around 1500 for diameters of 1-1/8 to 1-1/2 inches in softwood, enabling efficient boring up to 3 inches deep without excessive heat buildup. They perform best in softer woods where the flat blade can shear fibers quickly, but users must apply steady downward pressure to prevent wandering, as the lack of a pilot can lead to off-center holes. For optimal results, these bits are often used in corded drills to sustain the high speeds needed for clean entry, though they may cause splintering on the exit side of the material if not backed properly.^[116]^[121] Common types include those with a hexagonal shank for quick-change compatibility in power tools, reducing downtime during repetitive tasks. The Irwin pattern, a widely recognized design, incorporates cutting spurs along the blade edges to score the hole perimeter ahead of the main cut, minimizing tear-out and improving accuracy in softwoods compared to basic flat blades. While primarily for wood, a metal spade bit variant exists with modified geometry for drilling thin sheet metal, though it shares the same paddle shape.^[119]^[122] Despite their speed and affordability, spade bits have limitations, including a tendency to produce rough, splintered edges unsuitable for visible surfaces and potential inaccuracy in harder woods or angled drilling, where the blade may bind or deflect. Overheating can occur if speeds exceed recommendations or if drilling into nail-embedded material, dulling the edges rapidly.^[123]^[121]

Spoon Bit

The spoon bit is a traditional woodworking tool characterized by its gouge-like, curved scoop design, featuring a single-flute cutting edge with a rounded nose and a 30° relief angle that tapers to 0° along the sides, allowing it to enter wood similarly to a carving tool.^[124] Crafted from hardened tool steel, it typically includes a straight shank that fits into a brace, with diameters ranging from 3/8 inch to 1 inch.^[124]^[7] Unlike spiral augers, the spoon bit's semicircular lip cuts primarily at the end while the sides guide the hole straight, making it suitable for both straight and angled bores without a lead screw or spurs.^[7] Historically, spoon bits trace their origins to ancient woodworking practices, with Roman examples dating to the third century AD found across the Western Empire, and they remained prevalent through the Anglo-Saxon period into medieval times, as evidenced by artifacts from sites like Flixborough and depictions in the Bayeux Tapestry for shipbuilding tasks.^[124]^[125] By the 18th and 19th centuries, they were widely used by chairmakers and woodworkers for tasks such as drilling deep holes in turned legs to maximize tenon length or creating precise openings for drawbore pegs, before declining after World War I due to mechanization and the rise of twist bits.^[7] Today, they persist in niche traditional crafts, particularly greenwood chairmaking and period furniture replication.^[124] In use, the spoon bit is driven by a hand brace—such as a wooden, Scotch, or ratcheting type—through rotational cranking combined with downward pressure, starting the hole offset from the center (about one-third of the target diameter in hardwoods or half in softwoods) to establish the cut before centering.^[124] This method excels in chair legs, timber framing, and sculpting concave features, producing chips efficiently and wider-bottomed holes for stronger joints, often in greenwood to minimize tear-out on the exit side.^[124]^[125] Compared to gimlet bits, spoon bits create larger bores without a screw-like tip, prioritizing scooping action over self-feeding.^[7] As a manual tool, the spoon bit is limited to hand-powered braces, which can lead to user fatigue during extended deep boring sessions, and it demands skill to correct wandering cuts mid-hole due to wood grain variations, with sharpening restricted to the interior using a slipstone.^[124]^[7]

Forstner Bit

The Forstner bit is a specialized woodworking drill bit designed to produce flat-bottomed holes with clean, precise edges. Its construction includes a central auger point that provides initial guidance and removes material from the center, surrounded by circumferential rim cutters that score the hole's perimeter and create a 180-degree flat base without the need for a pilot hole.^[126] This design allows the bit to self-center and maintain stability, enabling drilling of straight, angled, or overlapping holes in wood.^[127] Forstner bits are available in diameters ranging from 1/4 inch to 4 inches, accommodating a variety of woodworking tasks from small recesses to larger pockets.^[128] They are particularly suited for applications in cabinetry and furniture making, such as creating mortises for hinges or hardware installation, where flat-bottomed holes of controlled depth are essential.^[126] These bits operate effectively at low speeds, typically around 500 RPM in hardwoods to prevent overheating and ensure clean cuts, and they can be used in handheld drills or drill presses with side pressure for guidance.^[129] Drilling depths can reach up to 4 inches with standard bit lengths or extensions, making them versatile for deeper recesses.^[130] Key advantages of Forstner bits include their ability to produce tear-out-free edges and resist wandering, resulting in professional-quality holes even in end grain or angled positions.^[131] Carbide-tipped versions enhance durability and sharpness retention, performing exceptionally well on hardwoods like oak or maple by maintaining clean cuts over extended use.^[132] For optimal results, starting with a brad point bit can aid initial alignment in dense materials.^[127]

Center Bit

The center bit, an archaic pod-auger style tool for woodworking, features a central tapered screw lead for guidance and self-feeding, combined with an adjustable radial cutter bar that slides along a slot to vary the hole diameter from approximately 1/4 to 3 inches. This design allows a single bit to produce a range of hole sizes without requiring multiple fixed tools, with the cutter bar equipped with a scoring spur to initiate the cut and a lip for removing material. Common in 19th-century carpentry, the center bit was powered by a hand brace, providing torque for boring precise holes in timber framing and joinery tasks where access was limited or power tools were unavailable. The tool's pod-like head, resembling an expanded spoon bit, enabled efficient penetration into end grain or dense woods, with the lead screw pulling the bit forward under rotation while the radial bar shears the circumferential fibers. This mechanism minimized side thrust but required periodic withdrawal to clear chips, as the short flute limited waste evacuation.^[133] Despite its versatility, the center bit fell into obsolescence by the early 20th century due to the rise of powered drills and specialized augers, which offered faster and less laborious performance. A key drawback was its proneness to binding, particularly at larger diameters, where the adjustable cutter could flex or jam under torque, demanding careful technique to avoid breakage or uneven holes. The center bit evolved from simpler spoon bits by adding the sliding radial cutter for adjustability, enhancing its utility in variable applications.^[134]

Auger Bit

An auger bit is a specialized woodworking drill bit designed for boring long, straight, and deep holes in wood, particularly in posts, beams, or timbers used in construction. Featuring a helical flute that spirals around a central shaft, it efficiently pulls the bit into the material while evacuating wood chips to prevent clogging and binding. These bits are essential for tasks requiring precision and depth, such as installing lag screws or creating mortises in structural lumber.^[135] The design of an auger bit typically includes single or double helical flutes extending from a sharp screw tip, which self-feeds into the wood to initiate drilling. This screw tip, often a fine lead screw for hardwoods, draws the bit forward without excessive pressure, while the flutes—available in single for faster chip removal in softwoods or double for cleaner cuts—transport debris upward along the spiral groove. Common lengths range from 7 to 18 inches to accommodate deep boring, with diameters spanning 1/2 to 1-1/2 inches to suit various hole sizes in construction applications. The shank is usually a tapered square for secure fit in hand braces or hex for power tools, ensuring torque transmission without slippage.^[136]^[137]^[138] In usage, auger bits are employed with a hand brace for manual control or a power feed mechanism, such as a drill press or cordless drill, to bore accurate holes in wood for framing, decking, or furniture assembly. The spiral flutes clear chips continuously during rotation, reducing heat buildup and maintaining hole straightness even at depths exceeding the bit's length. This makes them ideal for construction where straight penetration through dense timbers is critical, outperforming flat spade bits that are better suited for shallow, rough holes.^[139]^[140]^[141] Among types, the solid-center auger bit provides enhanced strength by featuring a continuous metal core along the flute's axis, resisting breakage under torque in tough woods. The Jennings pattern, a widely adopted design originating in the 19th century, exemplifies this with its double-twist flutes, dual spurs for clean fiber scoring, and flat cutting lips for efficient material removal, making it a staple for professional woodworkers.^[142]^[143]^[144] For safety during deep drilling, auger bits should be paired with extensions to access greater depths without forcing the tool or risking bit deflection, which could lead to binding or kickback; always secure the workpiece and use steady, low-speed feeds to avoid overheating or splintering.^[145]^[146]

Gimlet Bit

The gimlet bit is a compact, manual woodworking tool designed primarily for boring small pilot holes in wood to accommodate screws without causing splitting. Its distinctive design features a tapered shank, which may be square or round for secure attachment to a handle or brace, and a threaded tip that mimics a self-tapping screw, enabling the bit to draw itself into the material during use. This self-feeding mechanism reduces the force needed for penetration, making it ideal for precise, shallow drilling. Common sizes range from #4 to #16 gauge, allowing for holes that match small fasteners in fine joinery and assembly tasks.^[147] In operation, the gimlet bit is twisted by hand, often with a T-handle or inserted into a brace, to create tapered or straight pilot holes in softwoods like pine or cedar, where the coarse grain benefits from the bit's pulling action to prevent wandering or cracking. The threaded tip initiates the hole by gripping the fibers, while the cutting edges clear debris, ensuring clean entry for subsequent screws. This hand-powered method suits confined spaces or situations where power tools are impractical, emphasizing control and minimal material damage.^[148] The gimlet bit emerged as a refined tool in the 18th century, building on earlier manual boring techniques to meet the demands of expanding woodworking trades during the [Industrial Revolution](/page/Industrial Revolution). Its development addressed the limitations of blunt screws prevalent at the time, providing a reliable means for accurate hole starting in an era of hand craftsmanship. Today, it persists in artisanal crafts, model making, and historical restoration, valued for its simplicity and effectiveness in non-powered applications.^[149] Early development of the gimlet bit can be traced to 17th-century descriptions by Joseph Moxon in his Mechanick Exercises on the Whole Art of Carpentry (1677), which outlined its use for small-scale boring where larger braces were unsuitable.^[150]

Hinge Sink Bit

The hinge sink bit is a specialized straight-shank drill bit designed for creating shallow mortises to recess butt hinges into wood doors and frames. It features straight flutes along its body for efficient material removal and a flat end that produces clean, level-bottomed cuts without wandering. These bits typically have cutting depths ranging from 1/8 to 1/4 inch and widths around 1 to 1-3/16 inch, matching the dimensions of standard butt hinge leaves for precise fitting. Constructed from high-speed steel (HSS), the bit maintains sharpness during use in various wood types, including hardwoods and softwoods.^[151] In usage, the hinge sink bit is mounted in a drill press to ensure perpendicular entry and controlled depth, essential for accurate hinge placement. The bit's scribing edge first scores the outline of the mortise perimeter to guide the cut and minimize edge tear-out, while the central cutting edges remove waste in a single plunge. This process is ideal for butt hinges, where the shallow recess allows the hinge leaves to sit flush, enabling the door or cabinet to align properly without gaps.^[151] Key advantages include quick setup on the drill press with minimal adjustments, reducing preparation time compared to hand chiseling, and the HSS material's resistance to dulling for prolonged performance. The design promotes splinter-free edges by scoring ahead of the main cut, resulting in professional-quality mortises that require little to no cleanup.^[151] Applications focus on cabinetry and door installations, where the bit creates reliable recesses for butt hinges in materials like oak or pine, ensuring durable joints without visible damage or blowout. Its flat end provides a similar base to Forstner bits but is tailored for the elongated slots needed in hinge mortising.^[151]

Adjustable Wood Bit

The adjustable wood bit, also known as an expansive bit, is a specialized drilling tool designed for creating variable-diameter holes in wood, typically ranging from 3/4 inch to 3 inches in diameter.^[152] This bit features a central pilot point similar to a center bit, combined with an adjustable cutting wing that extends radially to accommodate different hole sizes, allowing woodworkers to bore custom-sized openings without needing multiple fixed-diameter tools.^[152] It is particularly suited for soft to medium-hard timbers, where precision in larger holes is required for joinery or fittings.^[153] In design, the adjustable wood bit adopts a ship auger style, characterized by a long, robust shank with a single adjustable wing or cutter that slides along a dovetailed slot in the bit's body.^[154] The wing, often made of tool steel, includes a cutting edge and spur for clean entry and material removal, while a lead screw at the tip draws the bit into the wood.^[152] Adjustment is achieved by loosening a lock screw, sliding the wing to the desired position marked in increments (typically 1/16 or 1/8 inch), and then tightening the screw to secure it, ensuring the bit maintains its set diameter during operation.^[155] This configuration provides versatility for holes up to 3 inches, though the overall length of the bit—often 8 to 10 inches—supports deep boring in thick timber.^[154] These bits are used both by hand with a brace and bit for controlled, low-speed drilling or in power drills for faster penetration in timber applications such as furniture making, cabinetry, or structural woodworking.^[156] The adjustable mechanism allows for on-the-fly sizing adjustments, making it ideal for irregular or oversized holes in beams and planks, with the lock screw preventing movement under torque.^[153] Unlike fixed augers, it excels in scenarios requiring a range of diameters from a single tool, though it demands careful setup to avoid binding in dense woods.^[154] Similar to center bit adjustability, the pilot ensures straight entry, but the expansive wing handles larger scales.^[157] The adjustable wood bit originated in the 19th century, with its foundational design patented by William A. Clark of Bethany, Connecticut, on May 11, 1858 (U.S. Patent No. 20,192), which introduced the method of seating the movable cutter via dovetails and a clamping screw.^[155] Clark's innovation, refined in subsequent patents like No. 141,324 in 1873, established the standard for expansive bits and was widely adopted for demanding woodworking tasks, including 19th-century shipbuilding where large, variable holes were needed in heavy oak and pine timbers for fastenings and frames.^[153] By the late 1800s, manufacturers like the Connecticut Valley Manufacturing Company produced these bits in volume, contributing to their prevalence in carpentry until power tools partially supplanted hand methods.^[154] Despite their versatility, adjustable wood bits have limitations compared to fixed-diameter alternatives, primarily in precision and reliability under heavy use.^[152] The sliding wing can shift if the lock screw is not sufficiently tightened, leading to inconsistent hole sizes or binding, which reduces accuracy in fine woodworking.^[154] Additionally, the adjustable components are prone to wear over time, dulling the cutter unevenly and requiring frequent maintenance, making them less suitable for high-precision or production-scale drilling where fixed bits offer greater consistency.^[153]

Bits for Other Materials

Diamond Core Bit

A diamond core bit is an abrasive drilling tool designed for penetrating extremely hard materials such as stone, rock, and reinforced concrete, utilizing industrial diamonds embedded in its cutting matrix to achieve precise core extraction. These bits operate on the principle of grinding rather than cutting, where the rotating bit wears away the surrounding material while leaving an intact cylindrical core inside the hollow barrel for sampling or removal.^[158] The design typically features a hollow steel barrel with diamond segments either impregnated or electroplated onto the crown. Impregnated bits incorporate synthetic diamond grits mixed with powdered metals and carbide reinforcements, forming a self-sharpening matrix that exposes fresh diamonds as it wears; this is ideal for sustained performance in tough formations. Electroplated variants use a nickel bond to hold single-layer diamonds, offering precision for shallower or micro-drilling tasks. Available in diameters ranging from 1/4 inch to 24 inches, these bits attach to core barrels via standard threads like 1-1/4"-7 for compatibility with drilling rigs.^[159]^[158]^[160] In applications, diamond core bits are essential for geological sampling, where they extract high-quality rock cores for mineral exploration and geotechnical analysis, and in construction for creating holes in concrete for anchors, plumbing, or HVAC installations. Wet drilling is standard, employing water as a coolant and lubricant to flush debris, reduce heat, and extend bit life in hard materials; this method is critical for maintaining diamond integrity during prolonged operations.^[158]^[161] Types include dry bits for light-duty, shallow penetrations in softer hard materials where portability is prioritized, and wet bits for deeper holes in ultra-hard substrates with appropriate rigs and cooling. Impregnated types excel in variable ground conditions, while electroplated suit cleaner, controlled environments.^[158]^[162]^[163] Recommended rotational speeds vary widely by bit diameter (typically 100–8000 RPM), with smaller bits requiring higher speeds (e.g., 1/2" around 6000 RPM) and larger bits lower (e.g., 10" around 300 RPM) to prevent glazing or slow penetration. Adjust further based on material hardness on the Mohs scale and formation abrasiveness; soft bonds for hard, abrasive rocks and hard bonds for softer ones—to maximize efficiency and bit longevity.^[164]^[165]^[159]^[161]

Masonry Drill Bit

Masonry drill bits are specialized twist drill bits adapted for penetrating hard, porous materials like concrete, brick, and concrete block, featuring a robust construction to withstand the impact and abrasion of such substrates.^[166] These bits derive their basic helical form from standard twist bits but incorporate modifications for enhanced dust evacuation and cutting efficiency in aggregate-heavy environments.^[167] The design typically includes a tungsten carbide tip for superior wear resistance against abrasive particles, paired with wide, U-shaped flutes that facilitate rapid removal of dust and debris to prevent clogging and overheating during operation.^[166] Many models employ a 4-cutter or 6-cutter carbide head geometry, which provides multiple cutting edges for faster penetration and reduced binding in reinforced materials like rebar-embedded concrete.^[166] Available in diameters ranging from 1/8 inch to 1 inch, these bits often feature SDS Plus or SDS Max shanks, which lock securely into compatible rotary hammers for reliable power transfer under percussive loads.^[168] In usage, masonry drill bits are employed with rotary hammer drills set to hammer mode, where rotational speed combines with axial impacts to fracture and clear material; recommended speeds generally fall between 500 and 1000 RPM to balance cutting efficiency and bit longevity.^[169] This setup is ideal for tasks such as installing anchors, conduits, or fasteners in masonry structures.^[170] Regarding durability, these bits perform effectively in medium-hard aggregates, offering extended life in standard concrete and brick applications through their hardened carbide components, though lifespan varies with material density and reinforcement levels.^[166] For instance, premium 4-cutter designs can achieve up to 5 times longer service in rebar-laden concrete compared to basic alternatives.^[166]

Glass and Ceramic Drill Bit

Glass and ceramic drill bits are specialized tools designed for creating clean holes in brittle, non-porous materials without causing cracks or chips. For glass, these bits typically feature a lance-shaped or spear-point tip made from carbide or diamond-lapped material, which lacks helical flutes to minimize stress on the fragile surface. This design allows the bit to score and penetrate smoothly, starting with a precise entry point. Common sizes range from 1/8 inch to 1/2 inch, suitable for most household and craft applications.^[171]^[172]^[173] For ceramics, such as tiles or porcelain, diamond-coated or grit-impregnated bits are preferred, where the abrasive diamond particles grind away material effectively on hard, brittle surfaces. These bits often have a similar spear-point profile but rely on the diamond coating for cutting action rather than a sharp edge. The absence of flutes helps prevent binding and excessive heat buildup during operation. Sizes align with glass bits, from 1/8 inch to 1/2 inch, ensuring versatility for both materials.^[174]^[175]^[176] Proper technique is essential to avoid damage when using these bits. Operate at low speeds, around 200 RPM, to reduce friction and heat generation, which can lead to thermal cracking. Apply coolant continuously—water is ideal for glass to act as both lubricant and dust suppressant, while oil may be used for ceramics to enhance cutting efficiency. Mask the drilling area with painter's tape to prevent bit slippage and provide a guide for a perpendicular start, ensuring even pressure distribution. Always begin drilling perpendicular to the surface with light, steady pressure, allowing the bit to do the work without forcing it.^[177]^[178]^[179] These bits find primary applications in drilling holes for tiles, mirrors, and glass sheets in home improvement, crafting, and glazing projects, such as mounting hardware or creating decorative perforations. Their design excels in non-porous, brittle materials similar in hardness to some masonry but tailored specifically for crack-free results in glass and ceramics.^[171]^[180]^[174] Key risks include chipping at the entry or exit points due to uneven pressure or overheating, which can compromise the material's integrity. To mitigate this, use a soft backing like a rubber mat or wooden block beneath the workpiece to absorb vibrations and support the exit side, preventing underside cracks. Always wear safety gear and work in a well-ventilated area to handle glass dust safely.^[173]^[181]^[182]

PCB Through-Hole Drill Bit

PCB through-hole drill bits are precision tools designed for creating vias and component mounting holes in printed circuit boards (PCBs) during fabrication. These bits are constructed from solid carbide, providing exceptional hardness, wear resistance, and the ability to maintain sharp edges under high-speed conditions. They typically feature a two-flute helical design, which enhances chip evacuation and stability during drilling, with point angles commonly ranging from 118° to 130° for optimal penetration into composite materials like FR-4 without excessive deflection. Available in diameters from 0.1 mm to 6.3 mm, they support a wide array of hole sizes required for modern PCB layouts, from microvias to larger through-holes.^[183]^[184]^[185] In usage, these bits are employed in computer numerical control (CNC) drilling machines, where high spindle speeds of 40,000 to 60,000 RPM enable rapid, accurate hole formation while minimizing thermal damage to the board. The process involves peck drilling to break chips, combined with vacuum-assisted chip removal systems that extract debris immediately, preventing re-cutting, burrs, and defects in deeper holes. This setup is critical for maintaining hole quality in multi-layer boards, where aspect ratios—defined as board thickness to hole diameter—can reach up to 10:1 without compromising plating uniformity or structural integrity.^[186]^[187]^[188] Adherence to IPC standards governs tolerances for hole size and placement, typically ±0.05 mm for diameters under 1 mm, ensuring compatibility with subsequent plating and assembly processes. The bits are generally uncoated to eliminate the risk of particulate contamination from worn coatings entering the PCB layers. Twist geometry in these bits is adapted with a moderate helix angle of 30° to 40° to balance rigidity and efficient material removal in the abrasive fiberglass-reinforced epoxy of PCBs.^[189]^[190]^[191]

Installer Bit

An installer bit, also known as a bell hanger bit or electrical installer bit, is a specialized auger-style drill bit designed primarily for creating access holes in wood framing during electrical, plumbing, and low-voltage installations.^[192] These bits facilitate the passage of wires, cables, conduits, or pipes through walls, ceilings, floors, and studs by drilling straight, extended-reach holes that minimize the need for additional tools like fish tapes in many scenarios.^[193] Typically constructed from high-carbon steel with heat treatment for durability, installer bits feature an ultra-sharp, self-feeding screw point that bites into wood quickly and pulls the bit forward, reducing user effort and preventing walk-off.^[194]^[195] The defining feature of an installer bit is its integrated wire-pulling eye or hole, usually located in the flute near the tip or at both ends, which allows installers to thread a pull string, wire, or cable directly through the drilled hole after penetration.^[192] This design enables one-step operation: the bit drills the hole and serves as a guide for routing materials, enhancing efficiency in confined spaces like stud bays or behind drywall.^[193] Lengths commonly range from 12 to 72 inches, with diameters starting at 1/4 inch up to 1-1/8 inches, accommodating various cable sizes while maintaining flexibility in rigid or semi-rigid shank options.^[196] Black oxide or similar coatings on the flutes resist corrosion and reduce friction from wood chips, ensuring smoother operation through clean lumber or stacked materials.^[195] Installer bits are optimized for softwoods like pine or fir used in residential framing, where they excel at producing clean, straight holes without splintering, adhering to building codes such as those requiring holes to be at least 1-1/4 inches from the edge of a stud.^[192] Their three-flat shank design provides a secure grip in standard drill chucks, preventing slippage during high-torque applications.^[192] For tougher applications, such as formwork or light masonry, reinforced versions with carbide tips or hollow shanks are available to handle vibration and debris buildup.^[197] Flexible variants, often called flex bits, bend up to 180 degrees to navigate obstacles like insulation or cross-bracing, making them indispensable for retrofit jobs in existing structures.^[198] Overall, these bits prioritize speed and versatility, significantly reducing installation time for professionals in the electrical and telecommunications trades.^[194]

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Mild Steel: 700-1000 RPM · Stainless Steel: 300-500 RPM · Cast iron: 500-700 RPM · Aluminum: 1000-2500 RPM · Tool Steel: 100-300 RPM.
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None
### Design Details
[89]
[PDF] Gun Drilling - Master Fluid Solutions
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None
### Summary of Feed Rates, Diameter Ranges, and Number of Inserts for Indexable Drills
[99]
C Hss Left Hand Jobber Length Drill Bit - Dwdlhc
Features a left hand helix for screw machine applications where spindles rotate counter-clockwise; Left hand drills can also be used to drill out broken bolts ...
[100]
Left Hand Jobber Drills - Champion Cutting Tool
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[101]
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Free delivery over $9.99Left hand drill bits are ideally used for removing broken bolt and studs. KnKut left hand drill bits may loosen the broken stud while also preventing further ...Missing: design materials compatibility
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https://bitbuddy.com.au/blogs/blog/spade-drill-bits
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[104]
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[PDF] INDUSTRIAL-DRILL-SPEED-GUIDE.pdf - Sioux Tools
Recommended Cutting Speed Range (rpm). Steel Alloy,. 300-400 Brinnel. 20-30. 1250-1800. 600-900. 400-600. 300-450. 250-350. 200-300. 175-250. 150-225. Stainless ...<|separator|>
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PCD Drills for Aluminum Machining - Kennametal
The straight flute design ensures stability during the drilling process, enhancing chip evacuation and minimizing tool deflection. Internal coolant channels ...
[108]
Drills - M.A. Ford
Twister® Hi-Roc® Straight Flute Drill. M.A. Ford Twister® Hi-Roc® Straight ... Solid Carbide Twister® GP Drill designed for drilling soft metals and other ...
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CoroDrill® 400 - Sandvik Coromant
The straight-flute CoroDrill® 400 is optimized to provide highly productive hole-making in aluminum and cast iron components for the automotive industry.Flexible And Precise Tool... · Application Area · HighlightsMissing: bit | Show results with:bit
[110]
Trepanning - Sandvik Coromant
Trepanning is a technique used for drilling larger hole diameters where machine power is limited as it is not as power-consuming as conventional drilling.
[111]
https://toolstoday.com/learn/the-brad-point-boring-bit
[112]
Annular Cutters: Complete Guide [ +Rotabroach ] - CNC Cookbook
Apr 15, 2024 · Explore the complete guide to annular cutters and Rotabroach. Learn their uses, feeds, speeds, and how these tools optimize hole making ...
[113]
https://www.baucor.com/collections/spur-point-brad-point-drill-bits
[114]
Brad Point Drill Bits [ Precision Holes Every Time ] - CNC Cookbook
May 15, 2024 · Brad point drill bits have a sharp centering tip, outlining spurs, and efficient cutting edges, designed for precision woodworking and clean, ...
[115]
Spur Point & Brad Point Drill Bits | Clean Holes in Wood - BAUCOR
Brad point drill bits have a central spur for centering, chisel-like shoulders for cutting, and limited flutes for chip removal, creating clean holes.
[116]
Brad Point Drill Bits - Century Drill & Tool
Brad Point Wood Bit 7/16″ Overall Length 10″ Cutting Length 7-1/2″ Rs 3/8″. (37028) ; Brad Point Wood Bit 1/8″ Overall Length 2-3/4″ Cutting Length 1-5 ...
[117]
Brad Point Drill Bits | IRWIN
Bit is precision ground for use in furniture making, doweling, cabinetry, and other woodworking applications where an exact hole size is required; Spur ...
[118]
Hardwood and Softwoods - Recommended Drill Bit Speeds
Hardwood and Softwoods - Recommended Drill Bit Speeds. Diameter (in), Speed (rpm). Softwood (Pine), Hardwood (Hard Marple), Acrylic, Brass, Aluminum, Steel ...Missing: types | Show results with:types
[119]
DEWALT High Speed Steel Brad-Point Drill Bit Set (6-Piece) DW1720
Each steel bit uses brad-point tips and engineered flutes to help prevent drill walking and remove chips. Set includes 1/8 in., 3/16 in., 1/4 in., 5/16 in., 3/8 ...Missing: design lip angle
[120]
Metric HSS Brad Point Drill Bits | Rockler Woodworking and Hardware
In stock Rating 4.4 (32) These brad point drill bits are made from select steel alloys that are carefully heat-treated to create a durable high-speed steel tip.
[121]
Spade Bits | IRWIN
IRWIN Speedbor Spade Bits with patented Blue-Groove point and cutting edge for faster chip removal and drilling speed, reduced breakout, and cleaner holes.Missing: design | Show results with:design
[122]
https://www.amazon.com/IRWIN-SPEEDBOR-Blue-Groove-Spade/dp/B004GZBQQM
[123]
How To Choose and Use Drill Bits - This Old House
Feb 13, 2019 · Spade bits work fast, but they're not recommended for finished carpentry projects where clean cuts are important. Brad point bits are ...
[124]
IRWIN INDUSTRIAL TOOL TV316182 15/16" Spade Drill Bit
This IRWIN SPEEDBOR Standard-Length Spade Drill Bit features a Blue-Groove point and cutting edge for fast chip removal · The double-cutting spurs scribe the ...
[125]
https://saxonship.org/the-project/phase-2-build/ancient-tools-and-techniques/spoon-augers/
[126]
[PDF] Spoon BIT - Tools for Working Wood
A spoon bit is a tool for woodworking, used in greenwood and chairmaking, entering wood like a carving tool, and can be used to drill angled holes.Missing: limitations | Show results with:limitations
[127]
Spoon Augers - The Sutton Hoo Ship's Company
A spoon auger is a tool, a drill with a spoon-shaped bit, used to make holes in wood, especially greenwood, without pulling. It is used for treenails and ...
[128]
The Value of Forstner Bits - Rockler
Feb 12, 2019 · The 16-Piece Forstner Bit Set gives you the advantage of having a few of the more costly larger sized bits up to 2-1/8'. Rockler has a 22-Piece ...Missing: features | Show results with:features<|control11|><|separator|>
[129]
Drill Bits Are Boring - This Old House
Oct 7, 2024 · Multi-spur bits, also known as Forstner bits or sawtooth bits, are designed for creating large-diameter holes with flat bottoms and clean sides.Brad Point (for Wood... · Spade (for Wood) · Special-Purpose Bits
[130]
Forstner Self Feeding Wood Drill Bits Individual Sizes from 1 to 4-5/8 ...
Forstner Self Feeding Wood Drill Bits Individual Sizes from 1 to 4-5/8 Inch Diameter Size Range ID 15171- Your Price: $126.99USD Availabilty In Stock
[131]
[PDF] drill press speed chart - Fine Woodworking
Recommended operating speeds (RPM). From the ... Twist drill bits*. 1/16"-3/16". 3000. 3000. 2500 3000. 3000 3000. Lubricate drill with oil when cutting steel.
[132]
https://infinitytools.com/blogs/learn/cleaner-cuts-longer-life-carbide-forstner-bits-make-it-better
[133]
Forstner Bits - Diablo Tools
Forstner bits have an ultra-sharp spur for accurate drilling, drill straight, angled, and overlapping holes without splintering, and are made of forged, ...Missing: advantages | Show results with:advantages
[134]
https://files.eric.ed.gov/fulltext/ED203138.pdf
[135]
The Evolution of Certain Common Hand Tools Used in Woodwork
### Summary of Pod Auger Bits and Adjustable/Expansive Bits
[136]
[PDF] ED 203 138 INSTITUTION PUB DATE AVAILABLE FROM ... - ERIC
different sizes of large auger bits; however, the cutting action of the expansive bit is not as efficient as that of the auger. Lock-Set Bit. The lock-set ...
[137]
https://www.baucor.com/collections/auger-drill-bits
[138]
https://www.highlandwoodworking.com/fisch-jennings-pattern-auger-bit.aspx
[139]
Auger Drill Bits | Fast Wood Boring & Carpentry - BAUCOR
Common Household Sizes: Popular diameters like 5/8", 3/4", and 1" for fence post holes, plumbing, and general construction. Large Diameters: Up to 2" or wider ...
[140]
Fisch Jennings Pattern Auger Bit - Highland Woodworking
Free delivery over $99Our Jennings pattern auger bits have a traditional square taper shank for use in hand braces. Note: Set of 3 Auger Bits includes the 3/8", 1/2" and 3/4" bits.
[141]
Jennings-pattern Auger Bits for Braces - Popular Woodworking
Jun 4, 2020 · The bits are offered in nine sizes from 1⁄4” to 1″ and come sharp; you don't need to do any tuning or filing before you start boring. My only ...
[142]
Auger Bits - DT Online
Feb 27, 2021 · Auger Bits were developed originally for use with a Carpenter's Brace and have a Tapered Square Shank. They are drawn into the wood by their screw tips.
[143]
https://toolsforworkingwood.com/store/item/MS-JB.XX
[144]
Fisch Jennings Pattern Auger Bit Tool Review | Jeffrey Fleisher
They are made in Austria and come in the following sizes: 1/4", 5/16", 3/8", 1/2", 9/16", 5/8", 3/4", 7/8", and 1". So, why use an auger bit? If you are a hand ...
[145]
Jennings Pattern Auger Bit for Braces - Tools for Working Wood
180-day returnsNote: By design Jennings bits drill holes with a "running fit" that is a few thousands of an inch over the nominal size. These new bits continue that practice.
[146]
0033 Jennings Pattern Auger Bit - FISCH-Tools
For cutting through soft- and hardwood. Fast clearing action preferred by furniture makers and crafts workers. The two cutting spurs cut the fibers of the wood.
[147]
Drill Bit Extensions - Grainger Industrial Supply
Drill bit extensions attach to drill bits to extend the bits' reach and allow them to drill deep holes. The extensions connect to compatible drills.
[148]
https://www.popularwoodworking.com/tools/gimlets-and-other-one-hand-manual-drilling-tools/
[149]
Exploring Gimlets: Humble Tools with a Rich History
Discover the history and evolution of the humble gimlet, a T-shaped woodworking tool with a sharp point for boring holes. Learn about its varied uses.
[150]
Gimlets and Other One-Hand Manual Drilling Tools
May 9, 2022 · It was hand-shaped and grinded by expert craftsmen and women. The modern factory-made gimlet is still a very nice manual drilling tool for ...Missing: history | Show results with:history
[151]
On the evolution of drill-bit shapes - ScienceDirect.com
The present study is devoted to an examination of the evolution of the basic shapes of drill bits and offers a hypothesis which unifies them.Missing: steel Europe
[152]
Bit, Gimlet : 0011.11.11 - Amberg Museum
Gimlet bit with wood handle and a screw thread and cutting blade at the tip for drilling a small hole to start screws. Date: ca 1900. Size: H-5.2 W-3.25 Dia ...Missing: design tapered square
[153]
An Ultimate Guide to Understand Hinge Boring Bit
### Summary of Hinge Boring Bit (Straight-Shank Focus)
[154]
Auger | Types, Uses & Benefits - Britannica
Expansive auger bits have adjustable blades with cutting edges and spurs that can be extended radially to cut large holes. Metal-cutting twist drills can drill ...Missing: ship design usage
[155]
W.A. Clark Expansive Bits by Eric Brown - TimeTestedTools
Mar 4, 2023 · The original design has a spur on the head and the fixed cutter on the head is on the opposite side from the movable cutter (135+ degrees). In ...
[156]
The Connecticut Valley and Centerbrook Manufacturing Companies
The expansive bits were the most successful of W. A. Clark's tool designs. The United States Patent Office awarded him over a dozen patents covering such items ...
[157]
https://oldtoolheaven.com/auger-bits/openerimg/AugerMakerReference.pdf
[158]
Brace and bit | woodworking, drilling, carpentry - Britannica
Oct 23, 2025 · Hand-operated tool for boring holes in wood, consisting of a crank-shaped turning device, the brace, that grips and rotates the hole-cutting tool, the bit.
[159]
[PDF] A B C D E F G H I J K L M N O P ...
Jan 18, 2025 · The simplest wood box is just a wood block with various sized holes in it to hold the auger bits vertically. This works well but if rotated ...
[160]
Diamond Drills Guide
Summary of each segment:
[161]
[PDF] Diamond Bits - CME Product Catalog
The impregnated diamond bit is for cutting medium to ultra-hard formations. They utilize various powdered metals mixed with synthetic diamond grits and are ...Missing: Mohs | Show results with:Mohs
[162]
24-inch Diamond Core Bits - CESSCO Inc.
30-day returns24 Inch WET Core Bits Hub 1-1/4"-7 / Standard core length: 23" Additional length bits may be special ordered on select bits at $15.25 per inch.
[163]
CoreMatrix® Diamond Impregnated Bits - Di-Corp
Rating 5.0 (100) CoreMatrix diamond-impregnated bits from Di-Corp have been re-engineered for enhanced bit life and faster penetration rates across every ground condition.
[164]
Compact Core Drill Rigs - RockTech USA
Hagby DE110 is also well-suited for rock or concrete sampling with a maximum hole size of 116 millimetres (4 1/2 inches) to depths of 30 meters (100 feet). ...
[165]
Welcome to Multi-Crete.com :: Services :: Core Drilling
Diamond Core Drilling provides the most efficient, precise and versatile ... Depth = up to 100 feet; Angle = 45 to 135 degrees. APPLICATIONS. Bridges; Bank ...
[166]
RPM's for Diamond Core Bits - CESSCO Inc.
30-day returns(RPM) - If the drilling speed is too high, the bit will polish. If the drilling speed is too low, the job will take too long. You will know if the core bit ...Missing: impregnated design rock hardness Mohs
[167]
Diamond Core Bit Speed Guidelines
Core Bit RPM. Diameter, Min. Ideal, Max. 2", 1,200, 1,600, 2,000. 3", 800, 1,050, 1,300. 4", 600, 800, 1,000. 5", 475, 640, 800. 6", 400, 560, 665.
[168]
1-1/4" X 16" X 18" MX4™ 4-Cutter SDS Plus Rotary Hammer Drill Bits
Rating 4.9 (440) Our MX4™ 4-Cutter SDS PLUS Rotary Hammer Drill Bits with solid head carbide deliver up to 5x longer life in concrete with rebar.
[169]
Flat Shank Masonry Drill Bit Sets - Bosch Professional
Rating 5.0 (1) The centric conical tip guides the bit through concrete, while enhanced flute design aggressively pulls dust away from the work, for fast drilling and longer ...
[170]
TE-CX (SDS Plus) Imperial hammer drill bit - Concrete and masonry ...
$$31 delivery 28-day returnsThe TE-CX is an SDS Plus drill bit for reinforced concrete, with a solid carbide head, designed for anchor drilling, and has a quadruple helix for fast ...
[171]
What are the recommended drilling speeds and feeds for masonry ...
Concrete: When drilling into concrete, use lower speeds. A speed of around 500 to 1,000 RPM is often suitable for smaller bits, while larger bits may require ...
[172]
SDS-plus® Bulldog Xtreme8™ Rotary Hammer Bits
Eight-cutter carbide head design - delivers up to 4X life in concrete with rebar (vs. Harbor Freight Warrior Masonry Bits); Eight-cutter head - provides ...
[173]
CRL 3/16" Spearpoint Glass Drill
30-day returnsThe diamond-lapped, spade-shaped tip will drill many smooth holes in glass, vitrolite, china, ceramic, tile, etc. You can use this drill with hand held, low ...
[174]
Mirart Design: Glass Drill Bits, Spear Point Glass drill bits
1/2" Spear Point Glass Drill Bit · $10.00 ; 1/4" Spear Point Glass Drill Bit · $8.50 ; 1/8" Spear Point Glass Drill Bit · $5.00 ; 3/16" Carbide Tip Spear Point Glass ...<|control11|><|separator|>
[175]
Glass & Tile Drill Bits | Diamond-Tipped for Clean Holes - BAUCOR
Clean Holes: Their design prevents chipping and cracking of brittle materials. Precision: The spear-point tip allows for accurate hole starts without the bit ...
[176]
Diamond Drill Bits - For Glass, Ceramic, Porcelain, Tile
They are used to drill glass, ceramics, ceramic tile, porcelain, porcelain tile, slate, limestone, marble, granite, other light stone, and fiberglass.
[177]
Diamond Drill Bit for Glass & Tile
A Diamond Tip Drill Bit is much more versatile since they are used to drill glass, ceramics, porcelain, ceramic tile, porcelain tile, limestone, slate, marble, ...
[178]
Diamond-Coated Core Drill Bits - Triatic
Use our diamond-coated core drills for drilling hard abrasive materials like glass, ceramic, porcelain, ceramic tile, porcelain tile, limestone, slate, marble, ...
[179]
https://www.homedepot.com/c/ah/how-to-drill-a-hole-in-glass/9ba683603be9fa5395fab90e0d5d18b
[180]
How to Drill Glass, Tile & Stone How To Use Diamond Drill Bits
Some fixed-speed drills have a minimum speed of 600 or 800 rpm, that may be too fast for many diamond drill applications (see speed charts). Impact type "hammer ...Missing: Mohs | Show results with:Mohs
[181]
How to Drill a Hole in Glass - The Home Depot
Apr 22, 2024 · It's best to use water when drilling glass. It works as a lubricant and coolant but it's also needed to keep glass dust out of the air.Missing: backing | Show results with:backing
[182]
Carbide Spearpoint Drill Bit 1/4 - Glaze Hardware
A low-priced, reliable glass drill. The diamond-lapped, spade-shaped tip is the perfect choice for drilling smooth holes in glass, china, ceramic, tile and ...
[183]
https://www.elepcb.com/blog/ins-and-out-of-pcb-drilling-revealed/
[184]
Drilling Glass: A Complete Guide
Feb 16, 2025 · Always use a glass drill bit or a diamond-tipped bit. 2. Skipping Lubrication: Drilling without a lubricant generates heat, leading to cracks.Missing: spear point
[185]
The Ins & Outs of PCB Drilling Revealed - ELEPCB
Apr 10, 2024 · – Point Angle: PCB drill bits commonly have point angles of 90 degrees or 118 degrees. The point angle affects the cutting action and chip ...
[186]
Printed Circuit Board Drill Bits: Types, Uses, and Buying Guide
Oct 27, 2025 · PCB drill bits come in a wide range of sizes, typically from 0.15mm to 3mm, to accommodate different hole diameters. Smaller, miniaturized ...<|control11|><|separator|>
[187]
PCB Hole Size - diyAudio
Nov 26, 2006 · Member. Drill bit size for PCB manufacturing is starting from 0.1mm to 6.3mm, increment step by 0.1mm. Normal single side PCB will be starting ...Missing: through- diameter
[188]
The Ultimate Guide to Choosing the Right PCB Drill Bit - ALLPCB
May 27, 2025 · Speed and Feed: Operate at high spindle speeds (40,000-60,000 RPM) with moderate feed rates to minimize burrs and ensure clean holes.Missing: usage | Show results with:usage
[189]
Deep Hole Drilling in PCB Manufacturing
Feb 28, 2025 · Chip evacuation is a major concern in deep hole drilling. ... vacuum extraction prevents chip recutting, which can create secondary burrs.
[190]
PCB Drilling: The Dos and the Dont's | Sierra Circuits
The drill occurs based on the XY coordinates fed into the CNC system. The spindles rotate at a high RPM to ensure an accurate drill hole is found on the board.Missing: vacuum chip
[191]
Causes of PCB Process Defects and Elimination Methods---Drilling
Aug 19, 2021 · This article focuses on some of the problems and solutions of the drilling process! Drilling is an important process in the PCB process, and it seems very ...
[192]
Drills - PCB - KYOCERA Precision Tools
Two into One Hybrid Flute Undercut Drill. New generation two into one flute advanced undercut drills designed for hole location priority. Image: Series 430 ...
[193]
Mastering the Art of PCB Drilling: 9 Exquisite Techniques - SprintPCB
Aug 1, 2023 · Hard alloy drill bits are typically used for PCB drilling. The point angle of the PCB drill bit is 130°, and the helix angle is between 30° to ...
[194]
Installation Drill Bits - Bosch Professional
Very Robust for Formwork. Installation Drill Bit is very robust for formwork; Installer bits – feature hole-in-flute design to fish wire through holes ...
[195]
3/8 x 18" Installer Drill Bit - Crescent Tools
Features. Extended length provides increased accessibility; Small hole in flute for easily pulling wires and cables through walls, ceilings, and floors ...
[196]
Installer Bits - Diablo Tools
Experience premium performance and exceptional durability with our ultra-sharp tips that drill fast, straight holes through clean wood and stacked lumber.
[197]
DIABLO 3/8 in. x 18 in. Installer Drill Bit DIB1070 - The Home Depot
Rating 4.1 (359) An ultra-sharp tip maximizes durability for fast, straight holes in clean wood or stacked lumber. Black oxide coated flutes prevent debris build-up for fast ...
[198]
Eagle Tool US EA50072 Auger style flex bit 1/2-in x 72-in ... - Lowe's
$$48.50 In stock Rating 4.3 (6) Made in the USA from quality US steel these bit are as tough as it gets. Our ultra sharp threads give this bit the best pulling power available.<|control11|><|separator|>
[199]
https://rtjtool.com/snakebit-drill-bits-installer-drill-bits/
[200]
Flex Drill Bits | Installer Bits | Rack-A-Tiers Since 1995
Free delivery over $100 30-day returnsThis flexible bit, or drill bit extension, makes for easy work in tight spaces making it a key installer bit for areas that won't allow a long reach. The ...