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Flatbow

A flatbow is a type of archery bow characterized by non-recurved limbs that are flat, relatively wide, and approximately rectangular in cross-section, distinguishing it from the more rounded or D-shaped limbs of a traditional longbow.^[1] The design emphasizes efficiency and stability, with the limbs providing a uniform thickness that allows for smoother energy transfer during the draw and release.^[1] Developed in the 1930s through scientific research into optimal limb cross-sections, the American flatbow—often simply called a flatbow—emerged as a modern evolution of indigenous designs, particularly those used by Native American hunters, and quickly gained popularity for its superior performance in target shooting compared to the English longbow.^[1]^[2] Historically, flatbows have been crafted from various woods and employed for hunting and recreational archery worldwide, with their robust construction tolerating variations in draw length and extending the bow's lifespan.^[2] In contemporary archery, flatbows are versatile, often featuring slight reflex-deflex curves in the limbs for added power and incorporating modern materials like fiberglass laminates, bamboo, or carbon fiber to achieve lightweight builds without sacrificing durability.^[3]^[2] They are favored in field archery and traditional shooting disciplines for their forgiving handling and reduced hand shock when properly tapered, though they may produce lower arrow speeds with heavier projectiles compared to specialized warbows.^[2]

Overview

Definition

A flatbow is a non-recurved bow characterized by flat, relatively wide limbs that feature an approximately rectangular cross-section, setting it apart from bows with rounded or D-shaped limb profiles. This design emphasizes simplicity, with straight limbs extending uniformly from the handle to the tips without significant curvature.^[4]^[5] The primary components of a flatbow include the limbs, which store and release energy during the draw; the handle or riser, providing a grip for the archer; the bowstring, which connects the limb tips; and nocks at the limb ends to secure the string. These elements work together in a straightforward assembly, typical of traditional bow construction.^[6]^[5] Flatbows are primarily used in traditional archery for hunting, target shooting, and warfare, valuing their uncomplicated form for practical applications. The rectangular cross-section of the limbs contributes to bow dynamics by distributing stress more evenly during bending, enhancing energy storage and transfer to the arrow while minimizing twisting for improved stability.^[6]^[5]

Distinguishing Characteristics

The flatbow's limbs are notably wide relative to their thickness, a design that promotes even stress distribution by spreading compressive and tensile forces uniformly across the limb's surface rather than concentrating them along edges as in narrower profiles.^[7]^[8] This rectangular cross-section, referenced in detail under cross-section profile, enhances the bow's resistance to warping and breakage under load.^[8] Unlike recurved bows, flatbows have non-recurved limbs that remain straight or slightly deflexed when unstrung, producing a more linear draw force curve where resistance increases steadily throughout the draw without the pronounced stacking seen in recurves.^[9]^[10] This smoother progression allows for a more predictable and forgiving draw experience. Flatbows generally range from 60 to 72 inches in overall length, accommodating various archer statures and shooting styles, with common draw weights of 30 to 70 pounds suitable for target shooting or hunting.^[9]^[7] The limb width further aids stability during the draw by minimizing lateral torque, enabling consistent arrow flight even under dynamic shooting conditions.^[8]

Design and Construction

Cross-Section Profile

The flatbow's limbs exhibit a rectangular cross-section characterized by parallel sides and flat faces.^[5] This geometry contrasts sharply with the tapered or rounded profiles of other bow designs, such as the elliptical or D-shaped sections common in longbows, providing a uniform structural form along the limb length.^[11] The rectangular profile promotes an even distribution of compressive and tensile stresses across the limb's width and thickness during draw and release, which reduces localized weak points compared to more curved sections.^[11] This balanced stress allocation improves structural integrity, as the forces are spread more uniformly without concentrating at edges or curves.^[12]

Limb Geometry and Assembly

The limb geometry of a flatbow features limbs that are parallel in width for much of their length, with only slight tapering toward the tips to reduce mass and vibration, extending from a central handle section typically 4 to 6 inches long. The overall design emphasizes a flat profile, with limb widths around 1.5 inches near the handle narrowing gradually to about 0.5 inches at the ends, and thicknesses similarly reducing from approximately 5/8 inch to 1/4 inch for balanced energy storage.^[13] The tips are precisely cut to form static nocks, where the wood holds the string in a fixed position, or dynamic self-nocks, allowing slight limb flex for string retention without added overlays.^[14] Assembly begins with the integration of the handle, which is often crafted as a one-piece element continuous with the limbs for simplicity and strength, though a separate riser may be spliced and glued into a widened fade-out section using adhesives like hide glue to enhance grip ergonomics.^[13] In modern flatbows, limbs are frequently laminated using adhesives to incorporate multiple wood layers or synthetic materials for enhanced performance.^[15] Siyahs—rigid, recurved tips common in Asiatic composite bows—are rare in traditional flatbows, as the design relies on the inherent flexibility of the flat limbs rather than pronounced curvature at the ends. String grooves are then filed into the nock areas, typically with a rat-tail file angled slightly toward the handle to guide the bowstring and prevent slippage during draw, ensuring the string sits perpendicular to the limb back.^[14] The tillering process refines this geometry by gradually shaping the limbs to bend evenly under load, starting with rough outlining using a drawknife to remove bulk material and followed by rasps or files for finer adjustments, aiming for a smooth, uniform arc that resembles a segment of a circle.^[16] This iterative work occurs in stages: floor tillering involves manually pressing the unstrung bow against a surface or in a mirror to spot stiff hinges or weak points, removing wood only from resistant areas to avoid over-thinning; longstring tillering then strings the bow loosely on a tiller tree—a braced frame with adjustable weights—and draws it incrementally to verify balanced deflection across both limbs.^[17] Throughout, the rectangular cross-section of the limbs is preserved to maintain the flatbow's characteristic stability, with final checks ensuring no twists or set after repeated cycles of bending and resting.^[13]

Materials

Suitable Woods

The primary woods suitable for flatbow construction are those North American hardwoods that offer a balance of high compressive and tensile strength, elasticity, and resilience to withstand the stresses of a rectangular limb profile without excessive compression buckling or tension failure. Osage orange (Maclura pomifera) stands out for its exceptional strength-to-weight ratio and density, making it ideal for dense, high-performance limbs in selfbows; its maximum crushing strength parallel to the grain measures approximately 9,380 psi at 12% moisture content, contributing to its durability under repeated flexing.^[18] Hickory (Carya spp., particularly shagbark) provides flexibility and shock resistance, with a maximum crushing strength parallel to the grain of about 9,210 psi at 12% moisture content, allowing it to absorb energy efficiently during draw and release while resisting fractures in the flat cross-section.^[19] White ash (Fraxinus americana) is valued for its lightweight nature combined with strong compression properties, registering a maximum crushing strength parallel to the grain of around 7,410 psi at 12% moisture content, which supports even stress distribution across the rectangular profile.^[19] For flatbows, woods must exhibit maximum crushing strengths parallel to the grain generally in the range of 7,000 to 9,500 psi and sufficient elasticity (modulus of elasticity around 1.5-2.0 million psi) to enable smooth bending without permanent set, as the uniform rectangular shape lacks the D-profile of longbows to concentrate stresses.^[19] Stave preparation often involves selecting straight-grained billets with narrow annual rings to minimize compression failure; for selfbows, the backing (tension side) typically uses the outer sapwood layers for tensile strength, while the belly (compression side) employs denser heartwood to handle compressive loads, sometimes reinforced with thin overlays if needed for added stability.^[20] Regionally available alternatives include hard maple (Acer saccharum) and elm (Ulmus spp.), which offer comparable properties—hard maple with 7,830 psi maximum crushing strength parallel to the grain at 12% moisture content and rock elm at approximately 7,050 psi—suitable for flatbow limbs in areas where primary woods are scarce.^[19] All selected woods require proper drying and seasoning to achieve 8-12% moisture content, typically air-drying in a shaded, ventilated space for a minimum of 1-2 years to prevent warping or cracking during construction.^[21]

Alternative Materials

In modern flatbow construction, fiberglass and composite materials are frequently layered with wood cores to create hybrid designs that enhance overall performance. These laminations typically involve applying fiberglass sheets to the back and belly of a wooden core, such as maple or bamboo, using epoxy adhesives to form a strong bond. This approach results in flatbows that exhibit consistent draw weight and arrow speed across varying environmental conditions, unlike traditional all-wood bows that may fluctuate with humidity.^[22] Fiberglass hybrids provide superior weather resistance, as the material is impervious to moisture absorption, preventing delamination or warping in rain or high humidity. This durability extends to resistance against physical stress, making them suitable for rugged use without the risk of limb twist in rectangular cross-sections, a common issue in purely wooden flatbows. Such designs are particularly advantageous for take-down flatbows, where modular limbs can be easily assembled and disassembled while maintaining structural integrity.^[22] Bamboo and synthetic laminates, including carbon fiber, serve as lightweight alternatives for limb construction, often integrated as cores or outer layers in flatbow builds. Bamboo, with its natural high tensile strength and low density, is bonded using epoxy resins to wood or composite overlays, creating resilient limbs that outperform solid wood in shear strength. For instance, in bamboo-cored carbon-fiber flatbows, epoxy facilitates strong adhesion between layers, enabling draw weights up to 50 pounds while achieving arrow launch distances of 100 yards. These materials contribute to enhanced durability, reducing vulnerability to twisting and environmental degradation in rectangular limb profiles.^[23]

Performance

Advantages

The flatbow's rectangular cross-section limbs provide significant robustness to variations in draw length, enabling the bow to better tolerate uneven or sudden draws compared to narrower-limbed designs like the English longbow, thereby reducing the risk of breakage and extending overall lifespan.^[2] This forgiving nature makes flatbows particularly suitable for archers who may not maintain perfectly consistent form during shooting.^[2] In terms of shooting dynamics, flatbows offer enhanced stability and forgiveness, with lower hand shock than conventional D-shaped longbows, owing to their wider limb geometry and often incorporated reflex-deflex configurations.^[24] Well-constructed flatbows can achieve arrow speeds typically ranging from 150 to 180 feet per second (fps) at a 28-inch draw with standard arrow weights (around 10 grains per pound), providing reliable performance for target and hunting applications; higher speeds up to 200 fps are possible with modern materials.^[25]

Disadvantages

Flatbows, particularly traditional straight-limb designs, generally demonstrate energy efficiencies around 70-77% for energy transfer to the arrow, comparable to many recurve bows which can reach similar or slightly higher values up to 85% in well-designed models, depending on limb geometry and materials.^[26]^[27] A notable performance drawback in flatbows is their potential for stacking in the draw force curve, where the resistance increases sharply in the final inches of the draw, leading to a fatiguing experience for archers drawing high-poundage bows.^[28] This phenomenon, common in straight-limb designs without reflex or deflex elements, contrasts with recurves that maintain a more progressive curve, reducing the physical strain at full draw and allowing for better control during aiming.^[29] Additionally, the wooden limbs of traditional flatbows are particularly sensitive to environmental moisture, which can cause uneven expansion or contraction, resulting in warping that alters the bow's geometry and performance if not mitigated by proper sealing or storage. Such vulnerability restricts their reliability in humid or wet conditions, where unprotected wood may absorb water differentially across the limb, compromising accuracy and structural integrity over time.^[30] While flatbows provide advantages in simplicity and durability for certain uses, these limitations highlight their trade-offs in power and maintenance relative to more advanced designs.

History

Early Development

The origins of the flatbow trace back to prehistoric times, with the earliest physical evidence of simple self-bows featuring flat profiles emerging around 10,000 BCE in Europe and indirect indications in Asia. In Europe, arrow fragments from sites like Stellmoor in Germany, dated to approximately 10,000 BCE, are associated with hunting tools and imply the use of basic self-bows, while the more complete Holmegaard bows from Denmark (circa 7,000–9,000 BCE) exhibit characteristic flat D-shaped cross-sections, wide tapering limbs, and construction from a single piece of local elm wood for straightforward power generation.^[31] These designs prioritized simplicity and availability, using the natural straightness of woods to form rectangular or flattened limb profiles that distributed tension evenly during draw. In Asia, although complete bows from this era remain elusive due to organic preservation challenges, bone-tipped arrowheads from Fa-Hien Lena cave in Sri Lanka (circa 48,000 years ago) provide evidence of early bow-and-arrow technology adapted for foraging and hunting needs.^[32] By the Bronze Age, flatbows appeared in more refined forms among early civilizations, particularly in Egypt and Mesopotamia around 2000 BCE, where wide-limb designs foreshadowed composite constructions. Egyptian self-bows from the Middle Kingdom (circa 2055–1650 BCE), such as those recovered from Beni Hasan tombs, typically featured segment profiles—uniformly curved with widths broadest at the grip (up to 23 mm)—tapering gradually to the tips for balanced flex, made primarily from durable acacia wood to withstand repeated use in warfare and hunting.^[33] These wide limbs enhanced stability and arrow velocity, serving as structural precursors to layered composites by accommodating greater draw weights without fracturing. In Mesopotamia, contemporary double-convex self-bows, as depicted on the Naram-Sin victory stele (circa 2250 BCE) and seals from Chogha Mish (circa 3300 BCE but influential into the second millennium), incorporated flat-convex cross-sections and recurved tips on broad limbs, often from olive or similar woods, to optimize power for chariot-based archery while bridging toward angular and reinforced variants.^[34] Materials in these early examples, including acacia and olive woods, provided the necessary compression resistance essential for flatbow efficacy (detailed in Suitable Woods). A key technological evolution in ancient times marked the shift from unadorned self-bows to backed designs, where core wood was overlaid with sinew or horn for reinforcement, promoting rectangular limb profiles that improved tensile strength and overall durability. This transition, evident in Near Eastern and steppe innovations like those of the Scythians, allowed flatbows to achieve higher draw forces through enhanced elasticity without elongating the overall length, influencing subsequent rectangular cross-sections for better load distribution and reduced twisting under stress.^[35] Such advancements built on prehistoric simplicity, enabling flatbows to adapt to mounted warfare and diverse environmental demands across Eurasia.

Indigenous and Traditional Use

Flatbows held a central role in the hunting and warfare practices of various Native American tribes, particularly among Plains and Woodland groups from approximately 1500 to 1900 CE. These self-bows, characterized by their wide, flat limbs with a roughly rectangular cross-section, were crafted from resilient hardwoods such as Osage orange, ash, hickory, and mulberry, often reinforced on the back with layers of animal sinew derived from buffalo or elk tendons to enhance power and prevent breakage under high tension.^[36]^[37] This construction allowed for draw weights typically ranging from 50 to 70 pounds, making them effective for propelling arrows capable of penetrating large game at close range.^[37] Among the Osage tribe of the Woodland and Plains regions, Osage orange wood—known for its exceptional strength and elasticity—was the preferred material for flatbows, which were frequently sinew-backed to achieve greater velocity and durability during hunts.^[38] Similarly, Sioux (Lakota) archers in the Great Plains utilized comparable designs, often shortening the bow to 42-48 inches with a reflexed "gull-wing" profile after the adoption of horses in the 18th century, optimizing it for mounted buffalo hunting where speed and precision were paramount.^[36]^[37] These flatbows were integral to communal hunts, enabling warriors to fire multiple arrows rapidly from horseback, a tactic that proved superior to early European firearms in agility until the late 19th century.^[39] In other traditional societies, such as the nomadic San people of southern Africa, simple self-bows with tapering limbs served similar portable roles in hunter-gatherer lifestyles, constructed from local woods like Grewia species and strung with sinew for ease of carry during long migrations.^[40] These designs emphasized compactness and quick assembly, aligning with the demands of foraging in arid environments, though they lacked the sinew backing common in North American variants.^[41] Culturally, flatbows were more than tools; they embodied sacred knowledge passed down through generations, often originating from mythological figures like the Lakota trickster Iŋkdomi, and were integrated into daily life alongside feathered arrows and hide quivers decorated with quillwork, paint, or beads to signify tribal identity and spiritual protection.^[37]^[42] Their use declined sharply in the late 1800s among Native American tribes following the widespread introduction of repeating rifles like the Winchester carbine, which offered greater range and firepower, though bows persisted as backup weapons and symbols of heritage into the reservation era.^[39]^[43]

Variants and Modern Use

American Flatbow

The American flatbow, also known as the American longbow, originated in the early 20th century through the efforts of U.S. bowyers and scientists seeking to refine traditional designs for modern target archery. Drawing inspiration from indigenous Native American flatbows, which featured wide, rectangular limbs for efficiency in hunting, the variant blended these elements with the longer proportions of the English longbow. In the 1930s, through the scientific research of Paul E. Klopsteg, C. N. Hickman, and Forrest Nagler on limb cross-sections, determining that a flat, rectangular profile distributed stress more evenly than rounded alternatives, as detailed in the 1947 publication Archery: The Technical Side.^[44] Renowned archer Howard Hill played a pivotal role in its popularization during the 1920s and 1930s, producing bows that incorporated these innovations and quickly displaced the English longbow in American tournaments. Hill's designs, often crafted from readily available hardwoods like hickory or Osage orange, emphasized practicality and performance, establishing the American flatbow as a preferred tool for competitive shooting by the mid-20th century.^[45] Key features of the American flatbow include its one-piece construction with a pronounced, ergonomic handle that enhances grip stability during extended use. Limbs are wide and flat, typically measuring 66 to 70 inches in overall length, with draw weights ranging from 40 to 60 pounds at a 28-inch draw, allowing for consistent arrow flight in target scenarios.^[46] Notable examples, such as Hill-style flatbows, feature slight deflex in the limbs for added forgiveness and reduced hand shock, prioritizing speed and simplicity in manufacturing while maintaining the core rectangular cross-section for optimal energy transfer.^[12]

Contemporary Adaptations

Contemporary adaptations of the flatbow have incorporated modular take-down designs since the 1950s, enabling archers to swap limbs for varying draw lengths and weights, which enhances customization and portability particularly for field archery and travel. These designs typically feature a central riser with detachable limbs made from laminated wood and fiberglass, allowing users to adjust the bow's configuration without specialized tools. This innovation, pioneered in traditional archery circles, has made flatbows more practical for modern recreational and competitive use while maintaining their non-recurved, rectangular limb profile.^[47] In competitions, flatbows have gained popularity within traditional archery events, such as the barebow class sanctioned by USA Archery, where they compete alongside other non-sighted bows under rules emphasizing instinctive shooting. Adaptations incorporating fiberglass lamination have allowed flatbows to achieve draw weights of 50-70 pounds, suitable for target shooting at distances up to 90 meters and providing sufficient power for hunting simulations in 3D archery tournaments. For instance, in World Archery's longbow division, flatbows conforming to traditional shapes are explicitly permitted, fostering their use in international events like the Indoor Archery World Series.^[48] Post-2000, flatbows have experienced a revival in survivalist and bushcraft communities, driven by interest in primitive skills and self-reliance training, often using sustainably sourced woods like hazel or yew to align with eco-friendly practices. This trend emphasizes hand-crafted, green-wood flatbows for wilderness scenarios, promoting low-impact harvesting from renewable forests. Concurrently, the U.S. traditional archery market, which includes flatbows, has seen steady growth at approximately 7-8% annually, fueled by rising participation in outdoor recreation and heritage sports. The American flatbow serves as a foundational style for many of these modern iterations.^[49]^[50]

References

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Bow types | CLEADON ARCHERS
The American longbow, also known as the American flatbow, was developed in the 1930s. It resulted from scientific investigation into the best cross-sectional ...
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Traditional Bows - SUSU
Modern Flatbows are built with a slight reflex-deflex design (curved limbs) and glass veneer on top of the limbs. Most of them also have a shelf which holds the ...
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Archery Bow Types & Types of Archery
If a bow corresponds to the traditional form of a longbow but is made from any other material it is called an American flatbow. The flatbow can even be made of ...
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[PDF] INTERPRETATIONS - World Archery Extranet
Apr 9, 2015 · ... cross section. Flatbows can be just as long; the difference is that, in cross-section, a flatbow has limbs that are approximately rectangular.
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### Summary of Flatbow Content
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The English longbow possessed a D-shape cross-section, the belly side ... For an rectangular cross-section αD = 0.33 and for an D-shaped cross-section ...
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### Summary of Flatbow/Board Bow Design Specifications
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### Flatbows Summary
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A flatbow is a bow with non-recurved, flat, relatively ... To find out more about the different bows click on this link, which will take you to Wikipedia.
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Bow Basics | Science Behind the Sport - West Virginia University
BOW DRAW CURVE The draw curve of a long bow and recurve bow are generally linear. This means that it is progressively more difficult the further it is drawn. ...Missing: flatbow non-
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Constructing The Bow With Rectangular Limb Section
In the December 1931 issue of Ye Sylvan Archer the writer discussed from a non-technical point of view the question of the "proper" cross-section of a bow.
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The Surprising Birth of The 'American Flatbow' \ Paul Comstock ...
Which means the curve of the limb could gradually increase as the limbs gradually grew thinner, and the strain on the limbs would be uniformly distributed.
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This eventually resulted in the so-called flat bow, with limbs of rectangular cross-section and widths greater than thicknesses. It was also the pre ...
[14]
arrow speed? - Trad Talk Forums
Apr 24, 2016 · A good rule of thumb for a well made bow of good wood was weight plus 100 fps with 10 gpp. So a 60 # selfbow at 28" well made would produce 160 fps.
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It will be 5'6" long, 1½" wide and 5/8" thick in the limbs. The handle riser or thickening piece will be glued in place and be sawn to the approximate shape of ...
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Rating 1.0 (1) A relatively detailed how to guide, teaching you how to make an american style flat bow from a single piece of wood. This one is of lemonwood.
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If you have a draw knife, use that, if not use a hatchet to get to a rough shape and then a rasp and sandpaper to smooth it out. Step 5: Rough Shaping. Rough ...
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Jan 26, 2023 · Now set your stave in a cool, dry spot under cover. Let it season for at least a year.<|separator|>
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May 18, 2020 · Durability: Fiberglass bows can be dragged through wet brush, used in the rain ... That being said, however cheaply constructed, fiberglass ...
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May 5, 2014 · While the RC stores more energy the LB is at 85.9% efficiency, the RC is 81.1%. The best I found in Blacky's tests was a Morrison longbow at 87% ...Bow efficency | Trad Talk ForumsFelt draw weight: recurve vs longbow - Trad Talk ForumsMore results from www.tradtalk.com
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Stacking - what it is and why it's bad - ImproveYourArchery.com
You want to avoid stacking because it makes your bow harder to shoot due to the sudden increase of draw weight. The paragraph above is a summary, but there is ...
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How old is the bow and arrow? - World Archery
Apr 8, 2019 · Fragments of arrows made of pine dated a few 1000 years older than the Holmegaard bow have been found at Stellmoor, near Hamburg, in Germany.<|control11|><|separator|>
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While the Asiatic-style composite bows have been comprehensively published, the wooden self bows and arrows have been almost entirely overlooked.Missing: BCE | Show results with:BCE
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Aug 6, 2020 · The self bow, made from a single piece of wood, dominated in Central and South America. However, reinforced and composite bows were also used by ...
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The western Plains natives, on the other hand, used woods of ash, mulberry, osage orange, or cedar which was reinforced with animal sinew. Another type of bow, ...
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Jul 21, 2017 · The sinews of buffalo or elk are dried, pounded into fine threads, and glued to the back of the bow in layers using glue made from hide ...Missing: flatbows | Show results with:flatbows
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Long before settlers arrived in the Midwest, Osage Indians once fashioned powerful bows from a native tree found in portions of Arkansas, Oklahoma and ...
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Oct 10, 2025 · A powerful weapon, the bow and metal-pointed arrow could kill a man or buffalo as easily as an early gun. On the northern plains, however, the ...Missing: Osage sinew
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Bushmen bows for hunting come in a relatively uniform design all over whole Southern Africa, just influenced by regional differences.
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Sep 25, 2015 · Up until the mid-19th century and the introduction of repeating firearms, the Indian's bow was superior to the clumsy, often unreliable and slow ...<|control11|><|separator|>
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None
Below is a merged summary of the American Flatbow based on the provided segments, consolidating all information into a single, detailed response. To maximize clarity and density, I’ve organized the key details into a table in CSV format, followed by a narrative summary that integrates additional context and notes from the sources. This approach ensures all information is retained while making it easy to reference.
[48]
Alabama native Howard Hill, "world's greatest archer," inspiration for ...
May 24, 2013 · And Hill's influence is still being felt on traditional archery due to the longbows he designed and built, which remain a model. He was inducted ...
[49]
Let's Make The American Flat Bow~ By Pierre St. Arnaud
Feb 17, 2011 · This bow is made more easily than the long- bow. Those of you who have made the longbow will find the same methods applicable to making the flat bow.
[50]
Origins | Archery Talk Forum
Jul 29, 2015 · Takedown bows came about when guys needed bows for multiple uses/ travel. Different materials were tried aside from wood from probably the 1950s on.What was happening in archery and bows prior to the late 50's?Takedown versus trad bow? | Archery Talk ForumMore results from www.archerytalk.com
[51]
Rulebook | World Archery
The bow shall correspond to the traditional form (shape) of a longbow (or American Flat Bow), conforming to a limb design that, when strung, the bowstring shall ...
[52]
Hazel Primitive Flatbow. Meare Heath Inspired Primitive Bow. My ...
Aug 18, 2017 · Woodland Bow Camp. Meare Heath Inspired Bow. I go to my woodland camp and start work on a Meare Heath inspired hazel bow.
[53]
Archery Equipment Market Forecast, Trend Analysis 2032 - Fact.MR
The sales of archery equipment have expanded by a compound annual growth rate of 5.6% from 2017 to 2021, driven by the aforementioned historical trends.