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John Wesley Hyatt

John Wesley Hyatt (November 28, 1837 – May 10, 1920) was an American inventor and manufacturer best known for developing , the world's first synthetic plastic, in 1869. Born in Starkey, , Hyatt's innovation addressed the growing shortage of for balls by creating a durable, moldable material from and , earning him a $10,000 prize offered by a New York firm. His work laid the groundwork for the modern , with finding applications in , combs, , and more. Hyatt began his career as a printer at age 16, working in Illinois and Albany, New York, before turning to invention in the 1860s. Motivated by the billiards industry's demand, he experimented with various substances and, with his brother Isaiah, patented the celluloid process in 1870 (U.S. Patent No. 105,338), refining it through trial and error to produce a stable compound heated under pressure. This breakthrough led to the founding of the Albany Billiard Ball Company and, in 1870, the Albany Dental Plate Company, which evolved into the Celluloid Manufacturing Company in 1872 and relocated to Newark, New Jersey, in 1873. Beyond plastics, Hyatt held over 200 patents for diverse innovations, including the Hyatt filter for purifying water in motion, roller bearings that improved machinery efficiency, an developed with his brother in 1872, and a . He established the Hyatt Roller Bearing Company in , in 1892, further advancing industrial applications. In recognition of his contributions, Hyatt received the Perkin Gold Medal in 1914 and was posthumously inducted into the Plastics Hall of Fame in 1974 and the in 2006. His inventions not only protected natural resources like elephant ivory but also democratized access to durable materials, profoundly influencing 19th- and 20th-century .

Early Life

Birth and Family Background

John Wesley Hyatt was born on November 28, 1837, in the rural town of Starkey, . He was the son of John Wesley Hyatt, a local , and Anne Gleason Hyatt. The family's association with the Methodist community is evident from the senior Hyatt's burial in the Starkey Methodist Cemetery. Hyatt grew up as one of eleven children in a large family, which included his brother Isaiah Smith Hyatt, with whom he would later collaborate on key inventions such as . The household dynamics reflected the close-knit structure common to 19th-century rural families, where siblings often shared responsibilities and resources amid modest circumstances. The socioeconomic context of Starkey, a small farming community in , shaped Hyatt's early years, exposing him to manual labor through his father's trade and the surrounding agricultural work. Formal educational opportunities were limited; Hyatt received limited formal education in local schools and became largely self-taught, particularly in . This environment of practical toil and sparse resources fostered resourcefulness that carried into his later pursuits. At age sixteen, he transitioned to an as a printer in , marking his entry into skilled trades.

Early Career and Influences

At the age of sixteen, John Wesley Hyatt began his professional career as a printer in before relocating to , where he worked for local newspapers and honed his mechanical skills through hands-on operation of printing presses and related machinery. This exposed him to the intricacies of mechanical systems, fostering an early aptitude for invention and problem-solving in industrial settings. Hyatt was largely self-taught in , acquiring knowledge through persistent tinkering with machinery in his and studying scientific texts on materials and . Additionally, Hyatt began collaborating with his brother in a modest , where they shared ideas and resources, laying the groundwork for joint inventive efforts.

Development of Celluloid

Origins and Invention Process

In 1863, a New York firm, Phelan and Collender, offered a $10,000 prize for a synthetic substitute for in balls, driven by the growing popularity of the game and shortages of elephant . John Wesley Hyatt, then a printer in , was motivated by this challenge to develop an alternative material, leveraging his mechanical aptitude from years in the printing trade. He began experimenting with various substances, including mixed with wood pulp and fibrous materials, but these early attempts proved unsatisfactory. Turning to (also known as pyroxylin), Hyatt tested mixtures with , yet initial combinations resulted in unstable or brittle products that failed to meet the durability requirements for balls. By 1868, Hyatt collaborated with his brother, Isaiah Smith Hyatt, in a makeshift home in , where they refined their approach through iterative chemical trials. The breakthrough came in 1868–1869 when they discovered that dissolving in a mixture of and created a homogeneous, moldable mass that could be heated and pressed into solid forms without degrading. This process involved pulverizing the and separately before combining them under moderate heat and pressure, yielding a lightweight, strong far more versatile than earlier attempts. Unlike Parkes's Parkesine, which relied on complex oils and often resulted in brittle outcomes, Hyatt's simplified formula avoided such instability by emphasizing 's solvent properties on , producing a material that retained flexibility and resisted cracking. Hyatt rigorously tested the new substance for billiard ball applications, confirming its resilience against impacts and its ability to mimic ivory's smoothness and weight. As proof-of-concept, they produced early items such as dental plates, which replaced fragile rubber alternatives, and combs that imitated , demonstrating the material's potential for everyday molding and finishing before broader adoption. These initial prototypes highlighted celluloid's transformative qualities as the first viable synthetic plastic, setting the stage for its wider utility.

Patent Disputes and Commercialization

Hyatt and his brother secured U.S. No. 105,338 on July 12, 1870, for an "Improvement in Treating and Molding Pyroxylin," which detailed a process for producing a stable, moldable material from nitrate and , enabling the commercial viability of . This patent built on earlier work, including U.S. No. 50,359 granted on October 10, 1865, for balls. While Hyatt's primary filings were in the United States, the invention sparked international interest, leading to disputes over priority rights in . A major legal challenge arose from English inventor Daniel Spill, who claimed prior invention through his 1860s work on Parkesine, a nitrocellulose-based material. Spill filed suit against Hyatt and the Celluloid Manufacturing Company in 1875, alleging infringement of his British patents and seeking to invalidate Hyatt's U.S. claims. The case dragged through U.S. courts until 1884, with an initial 1880 ruling favoring Spill reversed on appeal; ultimately, the courts affirmed Hyatt's originality and upheld his patents, allowing continued production without royalties to Spill. Commercialization began shortly after the 1870 patent, this followed the founding of the Albany Billiard Ball Company and Albany Dental Plate Company in 1870, which merged in 1872 to form the Celluloid Manufacturing Company, with Hyatt forming the Celluloid Manufacturing Company in 1872, which relocated to Newark, New Jersey, in 1873, to produce and sell celluloid in sheet form. Initial sales targeted consumer goods, including detachable collars and cuffs introduced in the mid-1870s, which offered a durable, waterproof alternative to paper or fabric versions and quickly gained popularity for their ease of cleaning. By the 1880s, celluloid sheets were adapted for broader applications, such as the flexible base for photographic film stock pioneered by George Eastman, revolutionizing imaging technology. Despite these successes, commercialization faced significant hurdles, particularly the inherent fire hazards of , which made highly flammable and prone to factory incidents. Early operations required careful handling to mitigate explosion risks during and mixing, though widespread safety regulations for emerged later in the century as fires became more documented. Scaling also proved challenging, necessitating innovations in molding presses and solvent control to achieve consistent quality and volume for industrial use.

Other Inventions and Business Ventures

Mechanical Innovations

John Wesley Hyatt's mechanical innovations extended beyond into practical solutions for industrial efficiency and safety. In 1872, he and his brother patented the first (U.S. No. 133,229), a plunger-based apparatus that injected heated into molds under pressure, enabling the efficient of small parts like billiard balls and combs. This device addressed the challenges of handling volatile celluloid by containing the process in a controlled, steam-heated environment to minimize flammability risks. Hyatt's inventive scope included , particularly a crushing mill developed in the , which improved juice extraction efficiency for Southern U.S. plantations through enhanced roller mechanisms that reduced waste and increased output compared to prior designs. In 1884, he patented the Hyatt filter (U.S. Patent No. 293,743), a porous filter made from unglazed for purifying water in motion, which was widely used for treatment and applications. In the , he contributed to with roller bearing designs that minimized friction in rotating machinery, laying groundwork for his later establishment of the Hyatt Roller Bearing Company in 1892. These bearings found applications in various settings, promoting smoother operation and durability. Additionally, in the late 1870s, Hyatt patented improvements to machines, including a lockstitch mechanism adapted for industrial use that allowed for multiple stitches in belting and heavy fabrics, enhancing productivity in . Over his lifetime, Hyatt amassed over 200 patents spanning and materials, reflecting his focus on solving real-world problems through innovative machinery.

Industrial Companies and Collaborations

In 1870, John Wesley Hyatt founded the Albany Dental Plate Company in , as his first commercial venture to produce and other items using the newly developed material. The company focused on leveraging celluloid's durability and moldability for dental applications, marking an early step in commercializing the plastic substitute for and natural materials. By 1872, Hyatt partnered with his brother Isaiah Smith Hyatt to rename the firm the Celluloid Manufacturing Company, expanding production beyond to include items like billiard balls, piano keys, and combs. To accommodate growing demand and larger-scale operations, the brothers relocated the company to , in 1873, where they established a five-story with financial backing from a group of investors. This move enabled the widespread industrialization of , with the company registering the trademark and scaling output through investor-supported machinery and facilities. In 1892, Hyatt established the Hyatt Roller Bearing Company in , to manufacture anti-friction roller bearings based on his patented designs for machinery and industrial applications. The firm initially struggled but grew through strategic hires, including in 1895 as a draftsman; Sloan's father, a key investor, provided crucial funding that helped stabilize and expand operations. Under Sloan's leadership, who rose to president by the early , the company collaborated with automotive investors to scale production for emerging industries like automobiles. By 1916, the Hyatt Roller Bearing Company was acquired by as part of William C. Durant's strategy to consolidate critical component suppliers, integrating it into United Motors Corporation before full GM ownership. This sale reflected Hyatt's success in forging partnerships that transitioned his inventions from niche production to mass industrial use.

Later Years and Legacy

Final Contributions and Retirement

In the 1910s, John Wesley Hyatt continued his inventive work, securing patents for refinements to roller bearings and applications of materials, such as improved compositions for balls and knife handles. These efforts built on his earlier innovations in mechanical and synthetic materials, demonstrating his ongoing commitment to practical industrial improvements even into his seventies. A pivotal shift occurred in 1916 when Hyatt sold the Hyatt Roller Bearing Company, which he had founded in 1892, to Corporation. This transaction provided financial security and allowed Hyatt, then aged 78, to step back from active business management. The sale reflected the company's success in producing reliable roller bearings for automotive and industrial use, but it also signaled the end of Hyatt's direct involvement in operations. Following the sale, Hyatt's focus shifted away from intensive hands-on invention, influenced by his advancing age, toward a more reflective phase of life. He maintained an interest in and , occasionally sharing insights from his career. By 1918, at age 81, Hyatt had largely transitioned to semi-retirement, prioritizing personal time with family amid limited travel. Hyatt died on May 10, 1920, in , at the age of 82.

Awards, Recognition, and Enduring Impact

In 1898, John Wesley Hyatt received the from the Board of Directors of City Trusts of , recognizing his invention of as a groundbreaking substitute for . This prestigious , often associated with the , highlighted Hyatt's contributions to industrial materials and manufacturing processes. Sixteen years later, in 1914, he was honored with the Perkin Medal by the Society of Chemical Industry's American Section for his pioneering work in applied chemistry, particularly the development of and related innovations. Hyatt's recognition extended posthumously into the modern era. In 1974, he was inducted into the Plastics Hall of Fame. In 2006, he was inducted into the for his creation of , the first commercially viable synthetic plastic, which revolutionized material science and everyday products. Over his lifetime, Hyatt amassed over 200 patents, encompassing advancements in plastics formulation, machinery, and manufacturing techniques that laid foundational groundwork for the plastics industry. The enduring impact of Hyatt's work is profound, with serving as a critical precursor to later synthetic plastics like , the first fully synthetic plastic introduced in 1907, by demonstrating the feasibility of moldable, versatile materials derived from natural polymers. enabled key advancements in the film industry, providing the flexible base for early photographic and motion picture films in the and , which facilitated the rise of and consumer before safer alternatives emerged. Beyond , it transformed consumer goods by offering affordable alternatives to , , and other scarce materials for items like combs, collars, and toys, influencing and reducing reliance on natural resources across industries.

References

  1. [1]
    John Wesley Hyatt - Celluloid - National Inventors Hall of Fame®
    Nov 4, 2025 · John Hyatt invented the process for making celluloid, the first artificial plastic. In the late 1860s, while searching for a substitute for ivory for making ...
  2. [2]
    Hyatt, John Wesley - Plastics Hall of Fame
    John Wesley Hyatt (1837 – 1920) was an American plastics manufacturer and the inventor of celluloid. Hyatt was born in Starkey, New York, in 1837.Missing: biography | Show results with:biography
  3. [3]
    History and Future of Plastics
    The first synthetic polymer was invented in 1869 by John Wesley Hyatt, who was inspired by a New York firm's offer of $10,000 for anyone who could provide a ...
  4. [4]
    John Wesley Hyatt Collection - Syracuse University Libraries
    John Wesley Hyatt (1837-1920) was an American manufacturer in the plastics field, and the inventor of celluloid. Born in Starkey, New York in 1837, at the age ...
  5. [5]
    NEWS SCRIPTS | C&EN Global Enterprise - ACS Publications
    Anyway, a printer by the name of John Wesley Hyatt, the son of a blacksmith, was sitting under a chestnut tree one day some 100 years ago coveting a $10,000 ...
  6. [6]
    John Wesley Hyatt (1794-1871) - Find a Grave Memorial
    Starkey Methodist Cemetery; John Wesley Hyatt. Created by: Kathleen Oster ... your computer for John Wesley Hyatt memorial. Select Photo(s). Oops, some ...
  7. [7]
    John Wesley Hyatt (1837–1920) - Ancestors Family Search
    When John Wesley Hyatt was born on 28 November 1837, in Starkey, Yates, New York, United States, his father, John Wesley Hyatt, was 43 and his mother, ...
  8. [8]
    John Wesley Hyatt Facts & Worksheets - KidsKonnect
    Nov 5, 2020 · He was the son of John Wesley Hyatt, who was a blacksmith, and Anne Gleason. Hyatt attended the Eddystone Seminary for a year but was mostly ...Missing: family background - -
  9. [9]
    World-Changers: John Wesley Hyatt - Hoxsie!
    Jul 26, 2012 · John Wesley Hyatt was born in Starkey, New York, on the west side of Seneca Lake on November 28, 1837. When he was sixteen, he went to Illinois and became a ...
  10. [10]
    The Billiard Ball Prize - Nesta
    Year: 1863. Promoter: Phelan and Collender of New York City Prize: $10,000 (Today's value $136,000) Winner: John Wesley Hyatt (unofficially, as no winner ...
  11. [11]
    Albany Billiard Balls
    Instead of taking the $10,000, Hyatt started his own company in 1868, the Hyatt Manufacturing Company, which not only made billiard balls but also dominoes, ...
  12. [12]
    The Age of Plastic: From Parkesine to pollution | Science Museum
    Oct 11, 2019 · ... John Wesley Hyatt, the latter of whom founded the Celluloid Manufacturing Company in the US. This new plastic made items like combs and ...
  13. [13]
    Hyatt, John Wesley - Syracuse University Libraries Digital Collections
    John Wesley Hyatt was an American manufacturer in the plastics field, and the inventor of celluloid. Born in Starkey, New York, in 1837, at the age of sixteen ...
  14. [14]
    Celluloid: The Eternal Substitute | Science History Institute
    Nov 12, 2011 · But what of the billiard balls that led John Wesley Hyatt on his journey? They were probably never made wholly of celluloid. Instead, they ...<|separator|>
  15. [15]
    American History Highlights Celluloid and the Dawn of the Plastic Age
    Jul 1, 2010 · Enter inventor John Wesley Hyatt who—in spite of professional chemists' warnings of causing an explosion—blended camphor with nitrocellulose ...
  16. [16]
    US105338A - Improvement in treating and molding pyroxyline
    PATENT OFFICE. JOHN W. HYATT, JR., AND ISAIAH S. HYATT, OF ALBANY, NEW YORK. IMPROVEMENT IN TREATING AND MOLDING PYROXYLINE. Specification forming part of ...
  17. [17]
    Billiard-balls - US50359A - Google Patents
    The nature of my invention consists in an improved method of constructing balls of composition for billiards or other purposes.Missing: celluloid | Show results with:celluloid
  18. [18]
    https://patents.google.com/patent/US133229A/en
  19. [19]
    Celluloid: The First Modern Plastic - Bruce Museum CA
    This he called celluloid and had it patented in 1869. By 1872 Hyatt was producing celluloid commercially. Because celluloid was colourless, it could be made to ...Missing: sales | Show results with:sales
  20. [20]
    US133229A - hyatt - Google Patents
    An Improved Process and Apparatus for Mannfacturing Celluloid, or Compounds of Pyroxyline, or SolublOotton, of which the following is a specification.Missing: pyroxylin | Show results with:pyroxylin
  21. [21]
    The Injection Molding Revolution Part 1: The Untold Origin Story ...
    Mar 24, 2025 · In 1872, John Hyatt and his brother Isaiah patented the world's first plastic injection molding machine—a vertical, steam-heated beast that ...
  22. [22]
    Celluloid Manufacturing Co.
    It was founded in Newark, New Jersey, 1872 by John Wesley Hyatt and Isaiah Hyatt to present celluloid to the world. The word "celluloid" was registered as a ...Missing: commercialization | Show results with:commercialization
  23. [23]
    When Newark was Americas Celluloid Capital
    Hyatt and his fellow printer James Brown applied heat and pressure to their mixture of camphor gum and pyroxylin. It resulted in a durable, though sometimes ...
  24. [24]
    Celluloid Corporation Records | Smithsonian Institution
    The word "celluloid" was registered as a trademark in 1873 by its inventor, John Wesley Hyatt. This registration marked the beginnings of the plastic ...
  25. [25]
    https://usautoindustryworldwartwo.com/General%20Motors/hyatt.htm
  26. [26]
    General Motors Heritage - Unique Cars and Parts
    The Hyatt company had been founded by John Wesley Hyatt, who had invented celluloid as a substitute for ivory, so that billiard balls could be made more ...
  27. [27]
    Bakelite® First Synthetic Plastic - American Chemical Society
    In 1870, the American inventor John Wesley Hyatt used chemically modified cellulose to produce an astonishing new product called Celluloid, a plastic that was ...Missing: total | Show results with:total