August 17th, 1943, 30,000 ft above Schweinfort, Germany, the lead bombardier of the 230 B17 flying fortresses approaching Schweinford watched through his Nordan bomb site as anti-aircraft flack exploded around the formation. Below five factories producing nearly 2/3 of Germany’s ball bearings became visible through breaks in the smoke.

The German aviation industry alone consumed 2.4 million ball bearings per month. If this raid succeeded, Germany’s war machine might grind to a halt. But as the bombs fell and German fighters tore into the bomber formations, a different reality was emerging thousands of miles away in Canton, Ohio.

While American bombers were dying to destroy German ball bearing production, 60 B17s lost that day with 102 crewmen killed, American factories were producing something Germany couldn’t match. tapered roller bearings that worked better than ball bearings for most applications and didn’t depend on German technology at all.

This is the documented story of how an immigrant German carriage maker invented a superior bearing design in 1898. How his company became America’s answer to Germany’s ballbearing monopoly. and how that obscure mechanical innovation helped win World War II. Friction transforms kinetic energy into heat while damaging surfaces and wasting energy.

It’s a fundamental problem in all mechanical motion. The man who could reduce friction fundamentally, German immigrant Henry Timkin believed, would achieve something of real value to the world. Henry Timkin was born August 16th, 1831 in Tarmmstead, Kingdom of Hanover. He immigrated to the United States with his family at age 7, settling in Missouri.

As a teenager, he apprenticed to a leading carriage and wagon maker. By age 24, he had established his own carriage factory in St. Louis. In 1877, Timkin received a patent for the Timkin buggy spring, which became widely used throughout America and produced on a royalty basis by numerous companies. The spring’s success made Timkin well known nationally and his carriage business flourished.

Around 1895, Timkin took interest in problems created by friction in wagon design. Conventional bearings of the 19th century worked well at reducing friction under vertical loads, but encountered problems when wheels had to bear heavy loads from the sides as when vehicles turn corners. Ball bearings, the most common anti-friction bearing of the era, used spherical balls rolling between an inner and outer race.

They worked excellently for light loads and high speeds, but had limitations. When subjected to heavy radial loads and thrust loads simultaneously, like a wagon wheel turning while carrying weight, ball bearings wore quickly. Timkin, with help from his two sons and a nephew, began experiments to make a better bearing.

They developed a revolutionary concept. Instead of balls, use tapered rollers. The rollers would be cone-shaped, arranged at an angle between cone-shaped races. This geometry would allow the bearing to handle both radial loads perpendicular to the shaft and thrust loads parallel to the shaft simultaneously, exactly what vehicle wheels needed.

On May 1st, 1898, Henry Timkin received two patents for his tapered roller bearing design. The [snorts] innovation was profound. His bearing could handle five times the load of an equivalent ball bearing while maintaining lower friction and longer life. In 1899, Timkin incorporated the Timkin rollerbearing axle company in a corner of his St.

Louis carriage factory. The company grew so quickly that in 1901 Timkin decided to relocate to Canton, Ohio to be near the emerging automotive industry centered in Detroit and Cleveland and the steel making centers of Pittsburgh and Cleveland. While Timkin developed roller bearings in America, Germany dominated ball bearing production worldwide.

In 1883, German entrepreneur Friedrich Fiser and his son pioneered mass production of precision steel balls in Schwinford using a grinding machine. Their factory merged with George Schaefer’s shop to become Kougal Fisher George Schaefer in 1909. Another Swedish German company SKF Senskar Fabrien founded in 1907 rapidly expanded globally.

By 1908, SKF had branch offices in Germany and France. By 1909, subsidiaries in New York, then Britain, Denmark, Norway, Belgium, Holland, and Russia. SKF became the world’s largest bearing manufacturer. Before World War I, most ball bearings used in America were imported from Germany. German companies had established dominant positions through superior metallurgy, precision manufacturing, and aggressive global expansion.

Henry Timkins travels to Germany in 1892 and 1895 provided competitive advantages. He observed Daimler and Benz’s internal combustion engine technology and witnessed advanced bearing development. Europe was years ahead of America in bearing production. But Timkin’s tapered roller design offered advantages that German ball bearings couldn’t match.

For heavy load applications, trucks, railroad cars,industrial machinery, tapered rollers vastly outperformed ball bearings. [snorts] The geometry distributed loads across a line of contact rather than a point, dramatically increasing load capacity. By 1920, the Timkin Company was making 90% of America’s tapered roller bearings.

The company operated bearing plants in Columbus, Ohio, opened 1920, Canada 1922, and would eventually expand globally. Railroad adoption was crucial. In 1923, Timkin bearings were tested on street cars between Canton and Cleveland, then on Wheeling and Lake Erie railroad box cars. By 1926, the Chicago, Milwaukee, St. Paul, and Pacific Railroad, ordered Timkin bearings for high-speed trains like the Burlington Zephyr Santa Fe Super Chief.

When World War I began in August 1914, Germany’s ballbearing monopoly became a strategic weapon. The British blockade cut German exports. American industry dependent on German bearings faced shortages. Prices spiked. But American manufacturers found themselves unable to quickly substitute ball bearings because precision ball production required specialized machinery and expertise concentrated in Germany.

The Timkin company, however, already had production capacity for tapered rollers, a different technology that worked better for many applications. Anyway, World War I demonstrated that tapered roller bearings could replace ball bearings in most military vehicles. Timkin bearings equipped trucks, artillery carriages, and heavy equipment.

Performance of Timkin tapered roller bearings in WW1 military equipment made an impression on European markets. After WW1, Great Britain rose to the number two position in global automotive manufacturing, creating opportunities for Timkin to expand European presence. The company entered international markets initially in Great Britain, France, and Germany, bringing American roller bearing technology to compete directly with European ball bearings.

Henry Timkin died on March 16th, 1909 in San Diego, California before seeing his inventions full impact. His sons HH Timkin and WR Timkin continued building the company. In 1917, facing World War I steel shortages, Timkin began steel and tube making operations in Canton to vertically integrate and control bearing steel quality.

This decision proved critical. Making your own steel meant controlling composition, heat treatment, and quality at every step. Bearing steel requires precise carbon content, uniform grain structure, and freedom from inclusions. By producing steel internally, Timkin ensured bearing quality while protecting against supply disruptions.

The company entered the Great Depression in strong financial position. Its performance placed it among the most solid, well-managed industrial firms of the 1930s, expanding into non-automotive markets, agriculture, machine tooling, industrial equipment, and rail softened depression impacts. During the early 1930s, Timkin developed bearings for propeller drive shafts, expanding into ship building, including US Navy contracts.

In 1932, Timkin began manufacturing removable rock bits for construction and mining equipment, providing outlets for steel production during depressed markets. When HH Timkin died in 1940, his son HH Timkin Jr. became chairman. The company had manufacturing facilities in Ohio, Canton, Columbus, Mount Vernon, Canada, Britain, France, and South Africa.

Timkin employed thousands and produced bearings for virtually every industry. Then war came to Europe again. By 1943, Allied intelligence identified ball bearings as a critical German vulnerability. Albert Shar, German armaments minister, stated, “As early as September 20, 1942, I had warned Hitler that the tank production of Friedri’s Hoffen and the ball bearing facilities in Schweinfort were crucial to our whole effort.

Schweinford in central Bavaria hosted four ballbearing manufacturing complexes that collectively produced about half of Germany’s total ball bearing output. Kougalfisher Gayorg Schaefer, the largest complex north of the main railard, employed 11,700 workers, even at war’s end in 1945, plus slave laborers. fictal and socks southwest of the rail yard a subsidiary of SKF verinict kougal logger fabrian aay VKF two factories VKF work one in city center VKF work I 2 south of railard also an SKF subsidiary the US 8th air force planned to German war

production by destroying these factories British Air Marshal Arthur Harris dismissed ball bearings as panacea targets, claiming RAF bombers couldn’t find a town Schweinford’s size at night, much less hit specific factories. But the USAF was committed to daylight precision bombing. On August 17th, 1943, 376 B17s took off to attack Schwinfort and Messersmid factories at Reagansburg.

The mission was catastrophic. Of 230 B17s attacking Schweinford, 36 were lost. 15.7% of the force. Combined with Reaganburg losses, 60 B7s were destroyed that day. Of 601 crewmen lost, 102 were killed, 381 captured, others evaded or wereinterned. B7 gunners claimed 288 German aircraft destroyed.

Actual Luftvafa losses 25 to 35 fighters. But the bombing worked temporarily. German ball bearing production dropped from 140 tons in July to 69 tons in August and 50 tons in September, a 64% reduction. The second Schwinfort raid came October 14th, 1943, Black Thursday. This time 60 of 229 attacking B17s were lost. A 26% loss rate.

Total casualties 594 MIA 40 WIA 5 KIA. Such losses were unsustainable. Albert Shar later admitted that if the Allies had concentrated on bombing ball bearings, two months later it will weaken war production fundamentally and 4 months later the war production will stop completely. But they didn’t. The raids were too costly.

Deep penetration missions without long range fighter escorts resulted in catastrophic losses. Schweinford raids were halted until P-51 Mustangs with drop tanks could escort bombers all the way to targets and back. Despite devastating raids, German ballbearing shortages never crippled war production. Three factors prevented collapse. First, stockpiles.

Germany had accumulated enormous reserves of ball bearings. Factories maintained months of inventory as buffers against disruption. Second, import. Germany imported ball bearings from neutral Sweden and Switzerland. Swedish SKF supplied approximately 10% of German needs through 1943, increasing as domestic production fell.

Bearings were small, valuable, easy to smuggle. BOAC mosquito aircraft flew dangerous missions to Sweden, returning loaded with ball bearings purchased by Allied agents. The British and Americans eventually pressured Sweden to reduce ballbearing exports to Germany. In April 1944, the Allies negotiated directly with SKF, offering to pay the equivalent of 88 million kronor to end deliveries to Germany.

OSS agents infiltrated SKF’s Gotheberg plant, monitoring shipments, but by then damage was done. Swedish bearings had sustained German production through critical periods. Third, substitution. Where possible, German engineers redesigned equipment to use plane bearings, sleeve bearings, bushings instead of ball bearings. Plane bearings require more frequent maintenance and replacement, but can be manufactured with simpler technology and less critical materials.

Postwar analysis confirmed Arthur Harris’s skepticism. The ball bearing campaign, despite costing hundreds of American lives and dozens of bombers, achieved limited strategic effect. By 1945, Germany had assembled more bearing reserves than ever. Production dispersed to underground facilities and smaller shops, making targeting ineffective.

While B17s burned over Schweinford, American factories were solving the bearing problem differently. Not by bombing German factories, but by producing alternatives that worked better. When World War II began, Timkin’s production increased dramatically. The company opened several new Ohio facilities.

Timkin Ordinance Company in Canton 1941 built approximately 80,000 gun tubes over the next 2 years. The Zanesville Bearing Plant opened in 1943. Other new locations included Columbus and Newton Falls. During the war, Timkin’s output more than doubled its previous peak. The statistics tell the story.

Every US Jeep used 24 Timkin bearings. With 660,000 Jeeps delivered to the military, Timkin produced over 15.8 million bearings for Jeeps alone. Trucks required dozens more bearings each. Tanks used Timkin bearings in tracks, wheels, turrets, and transmissions. artillery pieces, aircraft landing gear, ship propeller shafts, all used Timkin tapered roller bearings.

The advantage wasn’t just that Timkin bearings worked. They often worked better than ball bearings for military applications. Load capacity. Tapered rollers handled combined radial and thrust loads far better than ball bearings. Tank tracks and truck wheels experienced exactly these combined loads. Durability. Line contact between roller and race versus point contact in ball bearings.

Distributed loads reducing stress and extending life. Maintenance. Tapered roller bearings could be adjusted to compensate for wear. Ball bearings once worn had to be replaced. Manufacturing. Timkin controlled its entire supply chain from steel production through bearing assembly. no dependence on imports or external suppliers.

By war’s end, Timkin had produced hundreds of millions of bearings for Allied military equipment. The company’s vertically integrated model, making steel, machining bearings, and controlling quality end to end proved superior to relying on global supply chains that wars disrupted. The physics favoring tapered roller bearings weren’t obvious, but were fundamental.

Contact mechanics. A ball bearing contacts its race at a point. Under load, this point deforms into a small ellipse, but contact area remains tiny. Stress concentrates intensely. A tapered roller contacts its race along a line. Under load, this line deforms into a narrow rectangle. Contact area is muchlarger.

Stress distributes over greater area, reducing peak stress. Load distribution in ball bearings. Under combined loads, only a few balls carry most of the load. In tapered roller bearings, all rollers share loads more evenly due to geometry and precise positioning. Adjustability. Tapered roller bearings can be preloaded, adjusted to eliminate clearance and optimize contact.

Ball bearings have fixed clearances determined during manufacturing. Heat dissipation. The larger contact area in roller bearings conducts heat away more effectively, reducing operating temperatures. For military vehicles operating under harsh conditions, shock loads, heavy weights, poor maintenance, contaminated environments, these advantages were decisive.

Timkin bearings survived conditions that destroyed ball bearings. German engineers knew tapered rollers existed, but their manufacturing was concentrated in ball bearings. Converting production would require retooling factories, retraining workers, and redesigning equipment, impossible during wartime. Following World War II, much machinery shipped to Europe under the Marshall Plan was equipped with Timkin bearings, helping the company establish broader presence in markets where European competitors had dominated.

The antirust case that haunted the company, United States v. Timkin Rollerbearing Co. came to head postwar. The Justice Department alleged Timkin conspired with British Timkin Ltd and French Timkin to restrain trade through territorial restrictions. During the war, these restrictions created problems.

Australia in British Timkin territory desperately needed bearings for war production. British Timkin couldn’t supply adequate quantities. They were overwhelmed meeting UK military needs. Australian distributors clamorred for American Timkin bearings. December 4th, 1940, correspondence between Timkin executives showed the dilemma.

We were advised by the British Purchasing Commission that they will very likely take over all purchases of anti-friction bearings for Australia. They will give business to the lowest bidder. Internal memos documented how Timkin navigated territorial agreements during wartime. There was a serious interference in Australian war production due to British Timkin’s inability to supply bearings for the period of the war emergency.

Defendant was permitted at first to fill only Australian orders and later orders emanating from any place in British Timkins territory but only through British Timkins distributors and only at prices designated by it. After several appeals, the Supreme Court ruled in 1951 that Timkin had conspired with foreign affiliates in restraint of trade.

The decision forced restructuring of international operations, but didn’t slow Timkin’s growth. By 1960, Timkin operated in the US, Canada, Great Britain, France, South Africa, Australia, and Brazil. In 1974, Timkin opened sales operations in Japan, bringing American tapered roller bearings to compete in the world’s most demanding bearing market.

Throughout the 1970s and 1980s, Timkin expanded into Italy, Korea, Singapore, and Venezuela. In 2003, Timkin acquired competitor the Torington Company for $840 million, doubling company size and creating the world’s third largest bearing manufacturer. In 2014, the company separated bearing and steel operations. Timkin Company continued manufacturing bearings while Timkin Steel, now Metallis, became independent.

As of 2024, the Timkin company posted $4.6 billion dollar in sales and employs more than 19,000 people globally, operating from 45 countries. Timkin remains the world’s largest manufacturer of tapered roller bearings, a position held continuously since the 1920s. The product line has expanded. Timkin now manufactures ball bearings, spherical bearings, cylindrical bearings, thrust bearings, plane bearings, housed units, and precision bearings.

The company produces gear drives, automated lubrication systems, belts, chain, couplings, linear motion products, and power transmission services. But tapered roller bearings remain central. From bearings the size used in disc drives to the 9tonon custom bearing made for a heavy forge, Timkin dominates the market with approximately 30% global market share in tapered rollers.

The ultimate irony is that Henry Timkin was German. Born in Hanover, he immigrated at age seven and became thoroughly American, but his engineering sensibility reflected German thoroughess and precision. His [snorts] trips to Germany in the 1990s exposed him to European bearing advances. German ballbearing manufacturers like Fiser and Schaefer pioneered precision manufacturing.

Swedish SKF created global distribution networks. But these companies focused on ball bearings because that’s what they knew. Timkins saw what established manufacturers didn’t. That for heavy load applications, rollers beat balls. The tapered geometry he patented in 1898 solved problems that ball bearings couldn’t.

When World War II came,American industry had a domestic bearing manufacturer that didn’t depend on German imports, didn’t require Swedish neutrality and produced bearings superior for most military applications. The Schvinefort raids, though devastating to German production, weren’t necessary to keep American war production running. Timkin factories in Ohio were already producing everything needed.

German armaments minister Albert Shpear spent the war worried about ball bearing supplies. His American counterpart didn’t have that concern. Timkin had it covered. Modern bearing technology vindicated Henry Timkin’s 1898 innovation. Today’s heavy equipment overwhelmingly uses tapered roller bearings. Automotive wheel bearings in trucks, SUVs, and heavy duty vehicles, aerospace, landing gear, gearbox applications, rail, freight car axles, locomotive drives, industrial, wind turbines, mining equipment, steel mills, construction, excavators, cranes, heavy

machinery. Ball bearings remain optimal for high-speed light load applications like electric motors, machine tools, and precision instruments. But for combined load heavyduty applications, tapered rollers dominate. The physics Henry Timkin exploited in 1898 remain unchanged. Line contact distributes loads better than point contact.

Tapered geometry handles combined loads better than spherical geometry. Adjustable bearings adapt to conditions better than fixed bearings. These principles, worked out in a St. Louis carriage shop became the foundation for a global industry. While historians debate whether bombing Schwinford mattered, there’s no debate about whether Timkin bearings mattered.

They were in every jeep, every truck, every tank track, every ship propeller shaft. The tapered roller bearing won no headlines. It appeared in no dramatic photographs. Generals didn’t discuss bearing strategy at Yaltta or Potam, but logistics officers knew without bearings, vehicles don’t move. Without movement, armies can’t fight.

Germany entered World War II dependent on centralized ballbearing production, vulnerable to bombing. America entered World War II with dispersed, tapered roller bearing production, immune to attack. Germany spent the war scrambling for Swedish imports and substituting inferior plane bearings. America spent the war producing superior bearings in unlimited quantities.

The advantage wasn’t dramatic. No single battle turned on bearing supply. But aggregated over millions of vehicles, billions of operating hours, and 6 years of war, the cumulative advantage was enormous. Every bearing that didn’t fail meant one less vehicle disabled. Every vehicle operational meant supplies reached the front.

Supplies at the front meant offensives continued. Continued offensives meant victory. Henry Timkin died in 1909, never knowing his invention would help win the greatest war in history. He just wanted to build a better bearing for wagons. He succeeded beyond imagining. The immigrant from Tomstat, who apprenticed as a carriage maker at 16, invented something of real value to the world, exactly as he’d intended.

The tapered roller bearing reduced friction fundamentally. It still does. And while American bombers died over Schwinford trying to destroy German ball bearing factories, American factories quietly produced something better. not through dramatic raids or strategic bombing, but through patient engineering and mass production.

The Bearing War was won not in the skies over Bavaria, but in factories in Canton, Ohio, where Germanborn Henry Timkins invention perfected by his American company, rolled off production lines by the millions. America didn’t need German ball bearings in 1940. It had something better