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Pine tar

Pine tar is a dark brown to nearly black viscous semi-liquid with a strong turpentine-like odor, produced by the high-temperature carbonization of pine wood (from the Pinaceae family) under anoxic conditions through dry or destructive distillation.^[1]^[2] This process yields a substance rich in thousands of organic compounds, including phenols (such as guaiacol, creosol, and phenol), turpentine, rosin, toluene, xylene, and hydrocarbons, with composition varying based on the wood species, origin, and production method.^[1]^[2] Historically valued for its antiseptic, soothing, and preservative properties, pine tar has been utilized for over 2,000 years, with references in ancient texts by Hippocrates for treating skin ailments and in maritime applications since at least the 14th century in Scandinavia.^[1]^[3] Production of pine tar traditionally involves burning pine stumps or roots—often from resin-rich species like Pinus palustris or Pinus sylvestris—in kilns or pits to collect the condensed vapors, resulting in a high-resin, low-pitch product free of soot and impurities.^[1]^[3] Modern methods employ controlled vacuum distillation at temperatures between 175–280°C to refine the output, reducing levels of potentially toxic components like polycyclic aromatic hydrocarbons (PAHs) and phenols, making it safer for contemporary applications; for instance, yields can reach 40–60 gallons of tar per cord (approximately 4,000 pounds) of wood, alongside byproducts like wood turpentine and charcoal.^[3]^[1] Sweden remains a key producer, with brands like Stockholm tar setting quality standards since the 17th century, while U.S. production peaked in the 19th century in the Carolinas before declining due to synthetic alternatives.^[3] In medical contexts, pine tar is employed topically at concentrations up to 2.3% w/w in formulations such as gels, lotions, shampoos, and soaps to treat inflammatory skin conditions including psoriasis, eczema, and seborrheic dermatitis, owing to its keratoplastic, antipruritic, and antibacterial effects; modern variants are non-carcinogenic as confirmed by Ames testing and contain significantly lower PAH levels than coal tar.^[1] Industrially, it serves as a wood preservative and sealant, particularly in maritime settings to protect rigging, oakum, and hulls from weathering, as well as in roofing compositions, paints, stains, disinfectants, and veterinary hoof treatments for horses and cattle.^[2]^[3] In sports, pine tar is applied to baseball bats by hitters to enhance grip on the handle, improving control during swings, though its use by pitchers for ball grip is restricted under Major League Baseball rules to prevent excessive spin.^[2]^[4]

History

Ancient and Medieval Periods

Evidence from archaeological excavations in Scandinavia reveals that pine tar production and use were established during the Nordic Iron Age, approximately 500 BCE to 800 CE, primarily for waterproofing and preserving wooden structures and vessels.^[5] Large tar pits, often filled with pine wood and covered with turf to facilitate destructive distillation, have been uncovered in forested areas of Sweden and Norway, indicating organized production on a scale sufficient for community needs.^[6] These finds demonstrate pine tar's role in sealing longships and boats against water ingress, enhancing maritime capabilities during this period.^[7] In classical antiquity, spanning the Greek and Roman eras from the 8th century BCE to the 5th century CE, pine tar—known as "pix liquida" or pitch—was applied for ship caulking to prevent leaks in hulls and for treating wounds due to its antiseptic qualities.^[8] Hippocrates, in his medical writings from the 5th century BCE, described pine tar's incorporation into ointments for soothing skin conditions and promoting healing.^[1] Similarly, Pliny the Elder, in his Natural History (circa 77 CE), detailed the extraction of tar from pine trees for medicinal preparations and its use in coating ships' rigging and hulls to protect against rot and seawater.^[9] During the medieval period in Europe, from the 5th to 15th centuries, pine tar served as a versatile material for roofing to seal wooden shingles against weather, coating tool handles to prevent cracking and decay, and as an early adhesive in construction.^[3] In Norway, it played a crucial role in the preservation of stave churches, such as those built from the 11th to 14th centuries, where it was applied as a protective layer on pine wood frames to inhibit fungal growth and extend structural longevity.^[10] Pine tar emerged as a key trade good along Viking routes, facilitating exchanges across Scandinavia and beyond.^[7] This foundational use laid the groundwork for expanded production methods in the 17th century.^[6]

Early Modern Developments

During the 17th century, pine tar production in Finland expanded significantly under Swedish rule, becoming a vital export commodity regulated by the state to support naval needs. Peasants in northern regions like Ostrobothnia organized communal forest management to sustain large-scale tar burning, with production limited to approximately 24 barrels per household annually to prevent resource depletion. By the 1680s, exports peaked at up to 130,000 barrels per year, primarily shipped through Stockholm to markets in Sweden and England, where it was branded as high-quality "Stockholm tar" under the monopoly granted to the Norrländska Tjärkompaniet in 1648.^[11]^[3]^[12]^[13] In the North American colonies, pine tar production emerged in the 1600s, particularly in New England and the Carolinas, as European powers sought alternatives to Scandinavian supplies disrupted by conflicts like the Great Northern War. Colonists distilled tar from abundant longleaf pine (Pinus palustris) in the southern colonies, using heartwood and stumps to yield a resinous product essential for shipbuilding, including caulking hulls and preserving ropes. This output supported colonial trade networks, with exports rising after Britain's 1705 Naval Stores Act offered bounties to incentivize production and reduce reliance on foreign imports.^[14]^[15]^[16]^[17] Technological advancements in the early modern period improved efficiency over earlier open-pit methods, with the adoption of kiln-based distillation—such as funnel-shaped dalar or controlled earth-covered pits—allowing for better yield and quality control. These kilns, lined with clay and fueled by pine roots high in turpentine, enabled slower, oxygen-limited burning that extracted up to 20-30 liters of tar per cubic meter of wood, compared to the wasteful smoke and lower recovery of rudimentary open burning. This shift facilitated scaled production for export without excessive deforestation.^[3]^[18]^[12] Pine tar played a central role in the "naval stores" industry, encompassing tar, pitch, turpentine, and rosin, which underpinned mercantilist policies in Europe and America by bolstering naval power and trade balances. In Sweden and its Finnish territories, state monopolies ensured steady supplies for shipbuilding, while in British colonies, bounties and export premiums aligned production with imperial goals, making naval stores a cornerstone of colonial economies and contributing to the transatlantic trade in the 17th and 18th centuries.^[17]^[14]^[19]

Industrial and Modern Era

During the 18th and 19th centuries, pine tar production in Sweden expanded significantly through large-scale operations in extensive pine forests, transforming it into a major export commodity that supplied global markets, particularly for naval applications. Small landowners and state-supported initiatives in regions like Småland and northern Sweden produced tar as a cash crop, with output peaking amid heightened demand during the Napoleonic Wars (1803–1815), when European powers, including Britain, relied on Swedish tar to waterproof ships, treat rigging, and seal hulls for their fleets. This period marked a shift from localized, manual extraction to organized forest exploitation, where pines were systematically scarred and distilled, supporting Sweden's economy and international trade networks.^[20]^[21] In the late 19th and early 20th centuries, industrial advancements revolutionized pine tar production with the adoption of retort distillation and chemical processing techniques, enhancing efficiency and product purity for broader commercial uses. Traditional open-pit and kiln methods gave way to closed retort systems, such as Reichenbach ovens (introduced 1819) and later Hessel retorts (1851), which allowed controlled carbonization at temperatures around 400°C, minimizing impurities and enabling byproduct recovery like turpentine and acetic acid. By the early 1900s, steel retorts and continuous column stills in Sweden and the United States further improved yields and separation, producing higher-grade pine tar suitable for paints, varnishes, and industrial lubricants, while early colonial production in North America laid the groundwork for the U.S. industry's growth.^[22]^[14] The 20th and 21st centuries saw a decline in pine tar production following World War II, driven by the rise of synthetic alternatives like petroleum-based preservatives and coatings, which offered cheaper and more consistent options for maritime and industrial applications. Demand for traditional naval stores, including pine tar for rope treatment and sealants, had surged during both World Wars to support military shipping and equipment maintenance, but postwar petrochemical innovations led to a sharp contraction in the wood chemicals sector. However, a resurgence has occurred since the late 20th century, fueled by sustainable forestry practices and demand for eco-friendly products in wood preservation and therapeutics; as of 2025, the global pine tar market is projected to grow from USD 1.96 billion in 2024 to USD 2.86 billion by 2035 at a CAGR of 3.49%, driven by applications in skincare, construction, and heritage conservation.^[23] In the United States, the USDA enforces standards for naval stores under the Naval Stores Act, ensuring quality and grading for pine tar as a regulated product. In Europe, modern certifications for organic pine tar, aligned with EU biocidal regulations, promote its use in heritage preservation and green building, emphasizing low-toxicity and renewable sourcing from managed pine stands.^[24]^[25]^[26]

Production

Traditional Methods

Traditional methods of pine tar production relied on destructive distillation, a process involving the slow pyrolysis of resin-rich pine wood in low-oxygen environments to extract tar as a byproduct. Producers collected heartwood or stumps from pine trees, such as Pinus sylvestris in Scandinavia or Pinus palustris (longleaf pine) in North America, and piled them into earthen pits or rudimentary kilns. These structures were then sealed with clay, turf, or bark to limit air exposure, ignited at the base, and allowed to smolder, causing the tar to drip from the wood and collect in channels or containers below.^[3]^[1]^[24] In Scandinavian regions, particularly Sweden and Norway, tar production centered on funnel-shaped kilns known as "dales" or pits lined with clay and peat, where chopped pine roots and stumps were stacked in a conical formation and burned controllably for several days to weeks. This method, dating back to the Viking Age and scaling up in the early modern period, yielded high-quality tar prized for its resin content and was often produced seasonally by peasant laborers during warmer months when resin flow was optimal.^[3]^[10]^[6] Colonial and early American techniques, influenced by European practices but adapted to abundant longleaf pine forests, involved harvesting stumps from felled trees—a labor-intensive task performed manually or with basic tools like axes and later dynamite in some cases—and burning them in large earthen kilns up to 30 feet in diameter, covered with straw and clay. Colonial expansion intensified production through enslaved labor, with operations timed for spring and summer to leverage higher resin concentrations in the wood.^[24]^[27]^[28] Yields from these processes typically ranged from 40 to 60 gallons of tar per cord (about 4,000 pounds) of wood, depending on the resin-richness of the source material, with larger kilns producing up to 5,700 gallons in a single burn lasting around two weeks. Quality varied by wood species—P. sylvestris yielding lighter, more aromatic tar suitable for preservation, while P. palustris produced darker varieties—and burning duration, as prolonged low-oxygen smoldering minimized impurities like soot but required careful monitoring to avoid over-charring. These manual techniques laid the groundwork for later industrial adaptations, though they persisted in remote areas into the 19th century.^[3]^[24]^[1]

Modern Techniques

Modern techniques for pine tar production have shifted toward efficient, mechanized processes that leverage closed-vessel pyrolysis in industrial retort systems. These systems heat pine wood feedstock to temperatures between 250 and 400°C in an oxygen-limited environment, facilitating the destructive distillation that yields pine tar as the primary liquid product, alongside turpentine vapors and solid char residue.^[29] The closed design minimizes energy loss and emissions compared to historical open methods, enabling scalable operations in facilities across the Asia-Pacific region (leading with 43% of global supply, particularly in China and India), the U.S. Southeast—particularly in states like North Carolina and Georgia, where longleaf pine resources are abundant—and in Scandinavia, including Sweden and Finland, where production integrates with regional forestry expertise.^[30]^[3] This approach allows for precise separation of components through condensation and collection, with retorts often operating in batches or continuous modes to optimize yield, typically achieving approximately 10-15% tar recovery from dry wood mass.^[31] Integration with broader pine-derived chemicals production enhances economic viability, as pine tar is co-produced with pine oil (from distilled volatiles) and rosin (from resinous fractions) in modern biorefineries. These facilities, often linked to pulp and paper mills, process pine stumps, scraps, or whole logs to extract multiple value-added products simultaneously, reducing waste and leveraging byproducts like crude tall oil for rosin fractionation.^[32] The pine chemicals industry totals around 4.7 million tons yearly and supports applications in adhesives, coatings, and pharmaceuticals. As of 2024, the pine tar market is valued at approximately USD 720 million, projected to reach USD 1,120 million by 2034.^[33]^[30] Sustainability has become central to these techniques since the 1990s, with producers adopting selective harvesting from managed pine forests to preserve biodiversity and soil health. Carbon-neutral certifications, such as those from the Forest Stewardship Council (FSC), ensure traceable sourcing from responsibly managed woodlands, while process optimizations like heat recovery and effluent recycling minimize environmental impact.^[30]^[34] In Scandinavia, for instance, facilities emphasize low-emission retorts compliant with EU standards, contributing to reduced deforestation rates in boreal regions.^[30] Post-production quality control relies on fractional distillation to purify and grade the tar, separating lighter hydrocarbons and impurities under vacuum or steam conditions for consistency. This yields specialized variants, such as USP-grade pine tar for medical uses—meeting pharmacopeial standards for purity and low contaminants—and technical-grade for industrial applications like wood preservation. The foundational pyrolysis can be conceptually represented as:

\text{wood (C)} \to \text{tar} + \text{volatiles} + \text{char}

Unlike traditional kiln methods, which served as historical precursors with lower yields and higher emissions, modern retorts provide enhanced control over temperature and residence time for superior product quality.^[35]^[36]^[31]

Chemical and Physical Properties

Chemical Composition

Pine tar is a complex, heterogeneous substance derived from the destructive distillation of pine wood, comprising thousands of chemical components without a fixed molecular formula due to its natural variability. Its primary classes of compounds include aromatic hydrocarbons, phenolic compounds such as guaiacol, creosol, and phenol, and resin acids like dehydroabietic acid. These proportions can vary based on factors such as the pine species, wood age, soil conditions, and production method.^[1] Key specific compounds identified through detailed analysis include, for example, in a study of tar from Pinus nigra: methyl dehydroabietate (22.44%), dehydroabietic acid (14.59%), retene (10.08%), isopimaral (6.18%), and pimaral. Resin acids dominate the terpenoid fraction, with major components like abietic acid and its derivatives exhibiting an approximate formula of C_{20}H_{30}O_{2}, while other terpenoids may approximate C_{15}H_{28}O. Variations occur across species.^[37]^[38] The chemical profile of pine tar is commonly analyzed using gas chromatography-mass spectrometry (GC-MS), which allows for the identification and quantification of volatile and semi-volatile components after derivatization (e.g., methylation of acids with diazomethane). This method reveals the relative abundances of resin acids, fatty acids, and hydrocarbons, correlating with production temperatures in traditional kiln processes.^[39]^[40] Pine tar exists in different grades, with crude forms containing higher levels of volatile impurities and water, while refined versions are processed to achieve low water content (typically less than 5%) and reduced pitch and soot for higher purity.^[1]

Physical Characteristics

Pine tar appears as a viscous, dark brown to black semi-liquid at room temperature (20–25°C), remaining in a fluid state suitable for application but thickening considerably upon cooling.^[2]^[41]^[1] This physical form arises from its complex mixture of resins and oils, which contribute to its characteristic tackiness and flow properties without fully solidifying under typical ambient conditions.^[3] Key physical metrics include a density of 1.03–1.07 g/cm³, making it slightly denser than water, and a high boiling point ranging from 240 to 400°C, which reflects its thermal stability during processing and use.^[2]^[41] Regarding solubility, pine tar is slightly soluble in water but readily dissolves in alcohols, ethers, acetone, fixed and volatile oils, and alkaline solutions, facilitating its incorporation into various formulations.^[2]^[42] Sensory properties of pine tar include a strong, smoky, empyreumatic odor primarily from its volatile phenolic compounds, along with a sharp taste.^[41]^[3] Its pH is slightly acidic, typically around 5, which influences its compatibility in therapeutic and industrial applications.^[43]

Uses

Wood Treatment and Preservation

Pine tar functions as an effective wood preservative by penetrating the porous fibers of timber, creating a hydrophobic barrier that repels water and reduces moisture ingress, thereby limiting conditions conducive to decay.^[44] The presence of phenolic compounds in pine tar contributes antimicrobial properties, inhibiting the growth of fungi and bacteria that cause rot and degradation.^[45] In practical applications, pine tar is commonly used to treat structural elements such as timber frames in buildings, exterior surfaces of cabins and barns, and roofing shingles to shield them from environmental exposure.^[46] The traditional application method involves heating the pine tar to approximately 60–80°C, which lowers its viscosity and promotes deeper absorption into the wood substrate for enhanced protection.^[47] The durability provided by pine tar significantly prolongs the service life of treated wood, as demonstrated in the preservation of medieval Norwegian stave churches, where periodic applications since the Middle Ages have enabled these all-wooden structures to withstand centuries of harsh Nordic weather.^[48] In these heritage sites, the tar's barrier and antimicrobial effects have been crucial to maintaining structural integrity without modern synthetic interventions.^[49] Modern adaptations incorporate pine tar mixed with linseed oil to form "tar oil" finishes, which are favored in sustainable architecture for their natural composition and ability to provide long-lasting, low-impact protection on eco-friendly wooden constructions.^[50]

Maritime and Rope Applications

Pine tar has played a significant role in maritime applications since at least the 17th century, particularly in the production of naval stores where it was used to caulk ships' seams and tar rigging to protect against saltwater degradation.^[3] This treatment involved applying pine tar, often mixed with other substances like pitch, to wooden hulls and ropes, creating a waterproof barrier that prevented rot and corrosion in harsh marine environments.^[15] During the 18th and 19th centuries, European and American navies relied on pine tar derived from longleaf pine as a key component in maintaining vessel integrity, with production centered in regions like the American Southeast and Scandinavia.^[51] In rope treatment, pine tar is applied to natural fibers such as hemp and sisal by dipping the ropes in hot tar, which impregnates the material to reduce friction, minimize swelling in wet conditions, and enhance durability.^[52] This process preserves the rope's tensile strength while providing resistance to abrasion and microbial decay, making it essential for rigging and mooring lines in historical sailing vessels.^[53] The adhesive properties of pine tar ensure deep penetration into the fibers, forming a protective coating without compromising the rope's natural flexibility.^[54] Today, pine tar continues to be used in sailing ropes and fishing nets, where it offers UV protection and waterproofing for natural fiber components, extending service life in exposed marine settings.^[55] Its natural composition makes it an eco-friendly option for sealants, aligning with environmental guidelines for sustainable maritime materials.^[56] Unlike rigid varnishes, pine tar maintains flexibility in wet conditions, allowing ropes and nets to bend without cracking or stiffening, which is critical for dynamic applications like sailing and commercial fishing.^[57] This enduring quality underscores its preference in traditional and modern vessel maintenance.^[52]

Medical and Therapeutic Uses

Pine tar has been employed in dermatology for its soothing and antiseptic properties, particularly in treating various inflammatory skin conditions. It is commonly used topically for eczema, psoriasis, and seborrheic dermatitis, where it helps alleviate itching, dryness, and flaking by exerting antipruritic and anti-inflammatory effects.^[1] These applications stem from its ability to reduce DNA synthesis and mitotic activity in keratinocytes, thereby promoting normal keratinization and decreasing hyperproliferation in affected skin.^[1] In therapeutic formulations, pine tar is incorporated into soaps, ointments, shampoos, and bath additives, at concentrations of 0.1% to 2.3% w/w in commercial products (with clinical studies using up to 10%), often calibrated to equivalents of coal tar for efficacy while maintaining milder action.^[1] The U.S. Food and Drug Administration recognizes pine tar as safe and effective for over-the-counter topical use in mild cases of psoriasis and related conditions, with its status affirmed since the early 20th century based on historical safety data.^[58] Clinical evidence supports its role in managing chronic dermatitis, with studies indicating reduced inflammation without significant adverse effects in most users.^[1] Beyond human medicine, pine tar serves as a traditional antiseptic in veterinary applications, particularly for hoof care in horses and cattle to prevent cracks, infections, and thrush by maintaining moisture and providing antimicrobial protection.^[1] It has also been used historically in wound salves for animals to soothe abrasions and promote healing.^[1] Regarding safety, pine tar exhibits low toxicity when applied topically, with modern purified forms minimizing potential risks from polycyclic aromatic hydrocarbons; however, ingestion should be avoided due to possible gastrointestinal irritation.^[1] A 2017 review confirmed its efficacy for chronic skin conditions like dermatitis while noting rare instances of hypersensitivity or irritation, underscoring its favorable profile for long-term use.^[1]

Sports and Recreation

In baseball, pine tar is commonly applied to the handle of bats by hitters to enhance grip, leveraging its tacky residue derived from terpenoid compounds in pine resin.^[59] This sticky substance helps prevent slippage, particularly in humid conditions or with sweaty hands. Major League Baseball (MLB) has permitted its use since the 1955 introduction of Rule 1.10(c), which limits application to no more than 18 inches from the bat's handle to avoid excessive residue transferring to the ball and affecting play.^[60] A notable controversy arose during the 1983 "Pine Tar Game" between the Kansas City Royals and New York Yankees on July 24, when Royals third baseman George Brett hit a go-ahead home run in the ninth inning, only for it to be nullified after umpire Tim McClelland ruled the bat violated the 18-inch limit due to excessive pine tar.^[61] The Royals protested, and American League president Lee MacPhail overturned the call, citing that the rule aimed to protect the baseball rather than penalize hitters for grip aid, allowing the home run to stand when the game resumed on August 18.^[61] This incident underscored the rule's intent to balance player utility with game integrity. Beyond baseball, pine tar provides traction in other recreational activities, such as golf club grips where it is rubbed or sprayed for added tackiness during swings.^[62] It has also been used traditionally on fishing rod handles to improve hold in wet environments, though modern synthetic grip materials have largely supplanted it.^[55] MLB enforces the 18-inch restriction strictly to prevent ball scuffing, while some amateur organizations, including Little League Baseball, ban pine tar entirely on bats to ensure fairness and simplify enforcement.^[63]

Other Industrial Applications

Pine tar serves as a natural ingredient in the cosmetics industry, particularly in the formulation of soaps and personal care products, where it acts as a scent provider and emollient.^[30] In natural bar soaps, it is incorporated at concentrations typically ranging from 3% to 5%, contributing to the product's texture and mild fragrance while leveraging its phenolic compounds for their preservative qualities.^[64] These applications capitalize on pine tar's compatibility with bio-based formulations, aligning with consumer demand for sustainable alternatives in skincare manufacturing.^[65] In chemical manufacturing, pine tar functions as a tackifier in adhesives, enhancing stickiness and bonding strength in formulations based on natural rubber or synthetic polymers.^[66] It also serves as a plasticizer in rubber compounding, improving flexibility and processability without compromising durability.^[67] Additionally, pine tar is utilized as a binder in road tars and protective paints, providing waterproofing and corrosion resistance in infrastructure applications.^[68] The global pine chemicals sector, which includes pine tar, consumes several million tons annually across these industries, underscoring its scale in industrial processing (as of 2025).^[33] Pine tar derivatives appear in disinfectants and inks, where refined tar oils contribute to antimicrobial formulations for surface cleaning.^[3] In water treatment, it is incorporated into floating oils that form protective layers on tank surfaces, preventing rust in marine and industrial settings.^[69] For inks, pine tar provides pigmentation and adhesion in black wood-staining compounds, enabling durable, UV-resistant finishes on timber products.^[70] Since the 2010s, research has explored pine tar's potential in emerging applications, such as additives in biofuels to improve combustion efficiency and stability.^[71] Refined pine tar has also been investigated for sustainable polymers, serving as a bio-based precursor in the synthesis of eco-friendly plastics and resins, promoting circular economy principles in materials science.^[72] As of 2025, pine tar's applications have expanded into natural skincare formulations and organic farming due to its sustainable profile, contributing to market growth projected at a CAGR of around 4.5% through 2034.^[65]

Cultural References

Pine tar has left a notable mark on American culture, particularly in the southeastern United States. The nickname "Tar Heel" for residents of North Carolina originated in the 19th century, referring to the state's extensive production of tar, pitch, and turpentine from pine trees, which was a major industry supporting shipbuilding and other trades. Initially used as a derogatory term implying rural backwardness, it evolved into a point of pride, with the term first documented in Civil War-era accounts praising North Carolina soldiers for their tenacity, as if their heels were stuck with tar.^[73] During the American colonial period and Revolution, pine tar was infamously used in the practice of tarring and feathering, a form of public humiliation and punishment against Loyalists and tax collectors. Mobs applied hot pine tar—readily available from maritime ropewalks—to victims' bodies before covering them with feathers, symbolizing ostracism and serving as a deterrent. This act became a cultural trope in literature and media, representing mob justice and rebellion.^[74] In modern popular culture, pine tar gained widespread attention through the 1983 "Pine Tar Incident" in Major League Baseball, where New York Yankees manager Billy Martin protested Kansas City Royals player George Brett's home run due to excessive pine tar on his bat. The controversial ruling and resumption of the game became a defining moment in sports lore, inspiring songs like C.W. McCall's "Pine Tar Wars" and references in films and television.^[75]

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Today's biorefineries are highly efficient operations, minimizing energy use and producing very high purity products. Many CTO bio refineries also engage in.
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Pine Chemicals Market Report | Industry Analysis, Size & Forecast ...
Nov 15, 2024 · The Pine Chemicals Market size is estimated at 4.69 million tons in 2025, and is expected to reach 5.71 million tons by 2030, at a CAGR of greater than 4% ...Missing: annual | Show results with:annual
[33]
Certification - FSC US - Forest Stewardship Council
FSC certification ensures that products come from responsibly managed forests that provide environmental, social and economic benefits.Become Certified · FSC Project Certification · Certification system · Controlled WoodMissing: pine tar production
[34]
Pine Tar BP EP USP Pharma Grade - Jeifer Pharmaceutical
Instead of a crude extract, pharma-grade batches undergo scrupulous distillation to remove impurities and boost therapeutic consistency. This grade typically ...
[35]
US2379662A - Process for treating crude pine tar - Google Patents
The water is determined by distilling up to 200 0. Above 200 the cracking of certain constituents of the tar. Thistolerance of 2 percent is to cover dissolved ...Missing: USP | Show results with:USP
[36]
Development and Evaluation of Topical Cream Loaded with Pine ...
Jun 26, 2024 · According to literature data, the chemical composition of pine tar is complex, constituting mainly aromatic hydrocarbons, tar acids, and bases.Missing: credible | Show results with:credible
[37]
Characterisation of traditionally kiln produced pine tar by gas ...
Aug 5, 2025 · Tar obtained from different stages in the kiln production varies significantly according to chemical composition as well as coating ability.Missing: credible | Show results with:credible<|control11|><|separator|>
[38]
Characterisation of traditionally kiln produced pine tar by gas ...
In a traditional kiln production involving a so-called dry or destructive distillation of pine wood, the tar is drained continuously, or in portions of 10–20 l ...Missing: yield palustris
[39]
(PDF) Characterisation of traditionally kiln produced pine tar by gas ...
AI. GC-MS effectively characterizes pine tar's chemical profile from kiln production across six barrels. Temperature development in kilns influences the ...
[40]
Pine Tar
Pine Tar. Literature References: A product obtained by destructive distillation of wood of Pinus palustris Mill., or other species of pine, Pinaceae.
[41]
Pine Tar Oil (Cas 8011-48-1) - Parchem
Pine Tar Oil ; Density, 1.03-1.07 ; Slightly Soluble, in water ; Odor, strong odor ; Solubility, alcohol, acetone, fixed and volatile oils, sodium hydroxide soln.Missing: properties | Show results with:properties
[42]
[PDF] PINE TAR - Lab Alley
Jan 21, 2022 · 9: Physical and chemical properties. Appearance. Liquid. Dark brown. Strong. Not available. ~5. Not available. Physical state: Color: Odor: Odor ...
[43]
Advances in wood preservation technology: A review of ...
Early methods of wood preservation have used natural substances such as tar, pitch, and oil to apply to the surface of the wood to create a protective barrier ...Current Wood Preservative... · Recent Preservatives And... · Flame Resistant And Moisture...
[44]
https://bioresources.cnr.ncsu.edu/resources/advances-in-wood-preservation-technology-a-review-of-conventional-and-nanotechnology-preservation-approaches/
[45]
Wood and tar - KulturPunkt
The most common building material for Norwegian stave churches was pine. For the main construction of the stave churches, a type of pine called "malmfuru" ...
[46]
https://kulturpunkt.org/article/15788
[47]
To Save Norway's Stave Churches, Conservators Had to Relearn a ...
Mar 24, 2021 · “Tarring with pine tar is among the oldest surface treatments known in Norway ... tar production and application, the craft remains in jeopardy.
[48]
Characterisation of naturally and artificially weathered pine tar ...
The majority of the 28 preserved Norwegian medieval stave churches are regularly coated with kiln produced pine tar, due to instructions from the Norwegian ...
[49]
Traditional tar (oil) is still very much alive! - Brouns & Co
Pine and birch tar are the mother of all wood treatments and their use goes back to palaeolithic times. Birch tar is found more in Eastern Europe and Russia, ...Missing: handles | Show results with:handles
[50]
[PDF] Tar and Turpentine - Westfield State University
Between 1643 and 1715, the extraction of “naval stores”— particularly tar, rosin, and turpentine—from these pine woodlands played a substantial yet largely ...Missing: 1600s longleaf<|control11|><|separator|>
[51]
A Dive into Traditional Tarring Techniques - Historic Richmond Town
Mar 5, 2024 · CW: This is used to protect rope from microbial growth and weathering. By applying a mixture of equal parts pine tar, boiled linseed oil, and ...
[52]
[PDF] The Preservation of Fibre Ropes for Use in Sea-Water.
Though better than hardwood tar the pleasant odour of the pinewood tar and its customary use are its chief recommenda- tions, together with the fact that both ...Missing: dipping | Show results with:dipping
[53]
Buy 100% Natural Hemp Rope, Twine and Braided Cord
The advice is to heat the tar container in warm water, and then apply to your rope, either by dipping the rope in the tar, or applying ...<|control11|><|separator|>
[54]
100% PINE TAR - Englund Marine
In stock Free delivery over $99100% Pine Tar is ideal for waterproofing the inside and outside of a boat. It is also a coating for wood, natural fiber rope and metal.
[55]
Pine Tar for Boats: A Summer Tradition That Still Works
Jun 23, 2025 · Premium Swedish pine tar – distilled for high purity and deep penetration. Eco-friendly formulas – safe for marine environments and hands alike.Missing: IMO standards
[56]
Remodeling 101: Everything You Need to Know About Pine Tar
Mar 15, 2024 · How do you apply pine tar? · Mix pine tar with a thinner like purified linseed oil before application (recommended ratio is 1:1). · Apply pine tar ...Missing: applications | Show results with:applications
[57]
Pine tar: Uses, Interactions, Mechanism of Action | DrugBank Online
Pine tar is a medication indicated in itchy, inflamed, and flaky skin conditions.Missing: keratinocytes | Show results with:keratinocytes<|separator|>
[58]
Does Coconut Oil Remove Pine Sap?
The stickiness comes from its complex composition, which includes resins, terpenes like delta 3 carene, and other organic compounds. This is where coconut ...
[59]
The pine tar games - The Hardball Times - FanGraphs
Jul 18, 2012 · The Playing Rules Committee had added the rule in 1955, with the purpose of preventing bat contact from discoloring baseballs. As MacPhail ...
[60]
Remembering the George Brett Pine Tar Game - MLB.com
Jul 23, 2025 · Rewind to July 24, 1983, a tilt in the Bronx between the Yankees and Royals that now goes by only one name: The Pine Tar Game. There was ...
[61]
Do Golfers Use Pine Tar? (Everything To Know) - Golf Cart Go
Sep 24, 2023 · ... pine tar can be sprayed or rubbed into golf grips for extra tackiness. There are many grip applications on the market, so golfers should ...
[62]
Bat Rules - Little League Baseball
Apr 13, 2022 · NOTE 2: The use of pine tar or any other similar adhesive substance is prohibited at all levels of Little League Baseball. Use of these ...Minor/major Divisions · Intermediate (50-70)... · Senior LeagueMissing: amateur | Show results with:amateur
[63]
https://www.littleleague.org/playing-rules/bat-rules/
[64]
https://www.coolkatsoap.com/blogs/news/discover-why-our-pine-tar-soap-reigns-supreme-for-your-skin
[65]
(PDF) The Effect of Adding Pine Tar Oil and Petrosin as Tackifier ...
Oct 11, 2023 · This research explored two specific variations of tackifiers: pine tar oil and petrosin. The characterization of the adhesives encompasses an ...
[66]
Pine tar Archives - Natrochem
Tarene 40 finds its widest application as a plasticizer, tackifier, and processing aid in rubber compounding. Other potential uses include adhesives, tar ...Missing: road tars
[67]
The Role of Pine Chemicals in Sustainable Construction
Pine chemicals are a renewable, high-performance alternative to fossil-based materials in construction. Whether in asphalt, roofing, flooring, or adhesives,
[68]
Pine Tar - Auson
The Pine Tar provides an impregnation to the wood structure that prevents moisture from penetrating into the wood, thus making it difficult for algae and ...
[69]
Pine Tar - Grupo AlEn
Also known as Rosin, Rosin resin or Pine resin. Manufacturing of paper, paint, rubber, soap, printing ink, varnishes, adhesives, and welding compounds.
[70]
Multiple industrial uses of non-wood pine products - ScienceDirect
Non-wood pine tree biomass has multiple and ever increasing applications in different industrial sectors such as chemicals, pharmaceuticals, food additives, ...
[71]
Pine oleoresin: tapping green chemicals, biofuels, food protection ...
Feb 5, 2013 · This review examines biological and economic aspects of pine trees concerning the chemical industry, especially the contributions of this natural source.