Automatic Pinion Cutter, Used by the Waltham Watch Company, circa 1892 / THF110250
The roles women play in manufacturing are occasionally highlighted, but are often hidden—opposing states that these two stories from our collections demonstrate.

The Waltham Watch Company in Massachusetts was a world-famous example of a highly mechanized manufacturer of quality consumer goods. Specialized labor, new machines, and interchangeable parts combined to produce the company's low-cost, high-grade watches. Waltham mechanics first invented machines to cut pinions (small gears used in watch movements) in the 1860s; the improved version above, on exhibit in Made in America in Henry Ford Museum of American Innovation, was developed in the 1890s.


This article, “The American Watch Works,” from the July-December 1884 issue of Scientific American, discussed the women workers of the Waltham Watch Company. / THF286663

In the late 19^th century, reports on the world-renowned company featured women workers. An 1884 Scientific American article specifically called out women’s work. The article explained that, “For certain kinds of work female operatives are preferred, on account of their greater delicacy and rapidity of manipulation.” Recognizing that gendered experiences—activities that required manual dexterity, such as sewing, or the exacting work of textile production—had prepared women for a range of delicate watchmaking operations, the Waltham company hired them to drill, punch, polish, and finish small watch parts, often using machines like the pinion cutter above. The company publicized equal pay and benefits for all its employees, but women workers were still segregated in many factory facilities and treated differently in the surrounding community.


Burroughs B5000 Core Memory Plane, 1961. / THF170197

The same reasoning that guided women’s work at Waltham in the 19^th century led 20^th-century manufacturers to call on women to produce an early form of computer memory called core memory. Workers skillfully strung tiny rings of magnetic material on a wire grid under the lens of a microscope to create planes of core memory, like the one shown above from the Burroughs Corporation. (You can learn more about core memory weaving here, and more about the Burroughs Corporation here.) These woven planes would be stacked together in a grid structure to form the main memory of a computer.

However, unlike the women of Waltham, the stories of most core memory weavers—and other women like them in the manufacturing world—are still waiting to be told.


This post was adapted from a stop on our forthcoming “Hidden Stories of Manufacturing” tour of Henry Ford Museum of American Innovation in the THF Connect app, written by Saige Jedele, Associate Curator, Digital Content, at The Henry Ford. To learn more about or download the THF Connect app, click here.

Additional Readings:

• Ingersoll Milling Machine Used at Ford Motor Company Highland Park Plant, 1912
  
• The China Trade in the 17th and 18th Centuries
  
• Ford Methods and the Ford Shops
  
• Thomas Blanchard’s Wood Copying Lathe

20th century, 19th century, Massachusetts, women's history, THF Connect app, technology, manufacturing, Made in America, Henry Ford Museum, computers, by Saige Jedele

THF90487

The 1943 Willys-Overland Jeep above, currently on exhibit in Driving America in Henry Ford Museum, represents the millions of vehicles, aircraft, and military items produced by American automakers during World War II. With many men fighting overseas, women joined the workforce in unprecedented numbers. Ford’s Willow Run plant, which produced B-24 bomber airplanes, showed just how important these women were to America’s war effort.


The character “Rosie the Riveter” is celebrated in this sheet music from 1942. / THF290068

More than 42,000 people worked at Willow Run. Approximately one-third were women. Riveting was an essential craft there—each B-24 had more than 300,000 rivets. The skilled women who accomplished this work at Willow Run and elsewhere inspired the symbolic character “Rosie the Riveter.” Women also served in clerical and support staff positions at the plant. Women and men earned the same pay for the same work.


Real-life Rosies rivet B-24 tail cones at Ford’s Willow Run Bomber Plant, June 1944 / THF272701

Willow Run produced 8,685 B-24 bombers. The plant captured the public’s imagination, with Rosie the Riveter appearing on government-sponsored posters and magazine ads, encouraging more women to join the war production effort. Rosies built plenty of Jeeps, too. Willys-Overland manufactured 380,000 of them, and women and men at Ford built another 279,000 Jeeps, identical to the Willys models, at six plants across the country.


Ford Motor Company humble-bragged about its wartime production, including Jeeps, tanks, B-24 bombers, and more, in this 1943 ad. / THF93700

Altogether, the women and men who worked in American automotive plants during World War II built 4 million engines, 2.8 million tanks and trucks, and 27,000 aircraft—fully one-fifth of the country’s military materials. Many women came to enjoy the independence and economic freedom provided by their jobs. But, when men returned at war’s end, the same government that called women to the factories now encouraged them to go back to working in the home, so men could reclaim factory jobs.

The women who labored in wartime factories were essential to America’s Arsenal of Democracy. They made Rosie the Riveter into an enduring feminist icon—and a powerful symbol of women’s contributions to the American economy.

This post was adapted from a stop on our forthcoming “Hidden Stories of Manufacturing” tour of Henry Ford Museum of American Innovation in the THF Connect app, written by Matt Anderson, Curator of Transportation at The Henry Ford. To learn more about or download the THF Connect app, click here.

Additional Readings:

• Driving America
  
• 1981 Checker Marathon Taxicab
  
• The Henry Ford’s Tollbooths and the Cost of Good Roads
  
• 1955 Chevrolet Bel Air Hardtop

Michigan, airplanes, Driving America, THF Connect app, by Matt Anderson, Ford workers, Ford Motor Company, women's history, World War II, Henry Ford Museum

THF140091
The cast-iron lathe shown above, dating to the 1860s, proved the wood-cutting prowess of inventor Thomas Blanchard’s original 1818 design. While today it is motionless in the Made in America exhibit in Henry Ford Museum of American Innovation, when in-motion, Blanchard’s lathe was a pivotal technological development in standardization and mass production during the Industrial Revolution. Its ability to duplicate or copy irregular wood designs was a big improvement on the time-consuming and skill-demanding task of carving wood products by hand. Originally built for manufacturing rifle stocks at Blanchard’s employer, the Springfield Armory in Massachusetts, the lathe found usage in other industries, like creating shoe forms that helped standardize shoe sizes.

The lathe could be used by semi-skilled operators and made copies using a rotating blade whose position was guided by the shape of a prototype—similar to today’s modern key-cutting machine. Much like the movements of a cutting tool against a key blank are constrained by the shape of the original key, Blanchard's lathe consists of a frame into which a master pattern and a blank can be fixed. A carriage, responsible for guiding the cutting tool, then moves the length of the lathe carrying a revolving cutter and what Blanchard termed a friction point. The carriage’s position against the master pattern determines the degree to which the cutter bites into the blank. The major difference between the key-duplicating machine and Blanchard's lathe is that the former cuts a profile in the edge of a key, while Blanchard's lathe was designed to shape a three-dimensional duplicate of the master pattern.


Lathe mechanism. / THF140086

Not only was Blanchard’s lathe an early example of a machine that could be programmed, but its ability to duplicate irregularly shaped, three-dimensional objects ushered in a wave of standardized interchangeable parts that reshaped the trajectory of the Industrial Revolution.


This post was adapted from a stop on our forthcoming “Hidden Stories of Manufacturing” tour of Henry Ford Museum of American Innovation in the THF Connect app, written by Ryan Jelso, Associate Curator, Digital Content, at The Henry Ford. To learn more about or download the THF Connect app, click here.

Additional Readings:

• Ingersoll Milling Machine Used at Ford Motor Company Highland Park Plant, 1912
  
• A Closer Look: The Champion Egg Case Maker
  
• Making the Cut: The Tripp Sawmill
  
• “Female Operatives Are Preferred”: Two Stories of Women in Manufacturing

THF Connect app, manufacturing, Made in America, Henry Ford Museum, by Ryan Jelso

This 1881 Singer sewing machine is on exhibit in Made in America in Henry Ford Museum of American Innovation. Isaac Singer developed the first practical sewing machine for home use in the 1850s. / THF173635
Innovation has intended, and often unintended, effects. Take the sewing machine, for example. Its invention in the mid-1840s would make clothing more available and affordable. Yet, ironically, the sewing machine also resulted in a decline of sewing skills—not immediately, but over time. Nowadays, few of us know how to make clothing.

Once, things were very different. For centuries, sewing a family’s clothing by hand was a time-consuming and constant task for women. A woman often made hundreds of garments in her lifetime; all young girls were taught to sew.


A trade card for Clark's O.N.T. Spool Cotton from the late nineteenth century depicts a young girl using her sewing skills to repair a rip in her brother’s jacket so that “It will be as good as new and Ma won’t know!” / THF298697

When the sewing machine came on the scene during the mid-1800s, this handy invention made a big difference. For example, it now took about an hour to sew a man’s shirt by machine—rather than 14 hours by hand. In the 1850s, clothing manufacturers quickly acquired sewing machines for their factories, and, as they became less expensive, people bought them for home use.

While machines made it easier to make clothing at home, buying clothing ready-made was even less work. By the early 1900s, the ready-to-wear industry offered a broad range of attractive clothing for men, women, and children. Increasingly, people bought their clothing in stores rather than making it themselves.


Patricia Jean Davis wears a prom dress she made herself in 1960. / THF123841

Sewing skills may have declined, but what have we gained? A lot. Mass-produced clothing has raised our standard of living: stylish, affordable clothing can be had off the rack. For many, sewing remains a creative outlet, rather than a required task. For them, making clothing is no longer something you have to do, but something you want to do.


This post was adapted from a stop on our forthcoming “Hidden Stories of Manufacturing” tour of Henry Ford Museum of American Innovation in the THF Connect app, written by Jeanine Head Miller, Curator of Domestic Life at The Henry Ford. To learn more about or download the THF Connect app, click here.

Additional Readings:

• Collecting Mobility: Insights from Ford Motor Company
  
• The Hitchcock Chair: An American Innovation
  
• The Wool Carding Machine
  
• Making the Cut: The Tripp Sawmill

Henry Ford Museum, women's history, THF Connect app, manufacturing, making, home life, fashion, by Jeanine Head Miller

Vase, 1917 / THF176918

This Rookwood Pottery vase from our collection, on view in the Art Pottery of the 20th Century exhibit in Henry Ford Museum of American Innovation, can tell us an unexpected story about women’s work and craft in the late 19^th and early 20^th centuries.

During the late 19th century, ladies of high social standing in America were encouraged to broaden their interests beyond their homes. One of the most acceptable ways to do this was by taking up decorative china painting. Over time, these privileged women created associations with classes in china painting for women of all economic backgrounds. Probably the most important of these women was socialite Maria Longworth Nichols of Cincinnati, Ohio, who went beyond the accepted norm and established her own pottery that she called Rookwood.


Rookwood Pottery, Cincinnati, Ohio, 1900-1906 / THF297612

Beginning in 1880, Nichols hired talented young women—who would not have opportunities elsewhere—as well as men to create innovative ceramic wares in this novel commercial venture. At Rookwood, pioneering glazes and imagery made the Cincinnati-based company famous from coast to coast. One of the most significant innovations at Rookwood was its introduction of the “vellum” glaze in 1904. This signature glaze, seen on the vase at the top of this post, features a light-colored background where pictorial landscapes and flowers could appear almost like a painting.

Even before the development of the “vellum” glaze, competitors noticed Rookwood’s innovations and lured away some of their best potters and decorators. Also, over time, artists left Rookwood and started their own companies. They adopted Rookwood’s distinctive techniques, spreading the look of what was called “Art Pottery” around the United States. So, by the early decades of the 20th century, the pastime of ladies’ china painting evolved into a multi-million-dollar industry. Although Art Pottery flourished in the early 20th century, the arrival of the Great Depression and World War II all but extinguished Americans’ interest in decorative ceramics for the home.


This post was adapted from a stop on our forthcoming “Hidden Stories of Manufacturing” tour of Henry Ford Museum of American Innovation in the THF Connect app, written by Charles Sable, Curator of Decorative Arts at The Henry Ford. To learn more about or download the THF Connect app, click here.

Ohio, 20th century, 19th century, women's history, THF Connect app, making, Henry Ford Museum, furnishings, decorative arts, by Charles Sable, art

These days, most people may not be familiar with the interior of a rail car, let alone set foot inside one that is 100 years old. For those of you who have never been inside a railcar, it is very tight quarters—both for people and also for photography equipment and lights. So, when photographer Rudy Ruzicska and myself were tasked with getting new images of the interior of the 1921 Fair Lane, Henry Ford’s private railroad car (now located in the Railroads exhibit in Henry Ford Museum of American Innovation), we knew we were going to have to get creative—and close!


Photographer Rudy Ruzicska setting up lights for our first exterior shot of the railcar…


…and the final shot. / THF186261

We knew that this was going to be a challenge, but a fun one. The largest rooms were at the front and the back of the car, with narrow hallways and small bedrooms between—and even smaller bathrooms! We captured as many angles as we could within such small spaces.


Rudy again, setting up lights for our first interior shot of the lounge….


…one of the resulting shots…. / THF186262


…and another final shot. / THF186264


Digital Imaging Specialist Jillian Ferraiuolo (me!) setting up the shot of the hallway…


…and the final image. / THF186265


Jillian again, setting up the shot of the office…


…and the final image. / THF186266

For most photos, we use a Canon 5D Mark III camera tethered to a MacBook laptop. While we did use that camera for this photo shoot, we knew we would need something with a wider range to capture the small rooms. A fisheye lens is very convex, and because of that shape it allows the camera to capture a larger area. While these lenses are great, their downside is the distortion they create because of the curve of the glass. Since our job in the Photo Studio is, at the core, documentation, we want to show our artifacts exactly as they are, without that distortion, so to capture these small rooms we needed something more.

Our solution was to use another tool already in our toolbox, the Ricoh Theta 360 camera. This small camera is operated via cellphone and app and uses two fisheye lenses to capture a space. The app control allows us to preview the 360-degree image and remotely trigger the camera (so we can make sure we’re out of the shot). The app then stitches together the images to create a full 360-degree interactive image. This is how we were able to capture the interiors of the rooms completely, including the nooks and crannies of these small spaces where our Canon camera simply couldn’t reach.


The Theta camera, mounted on a stand, ready to capture the interior of the lounge. See the 360-degree image (and the others we took) here!

We captured all of the rooms (and bathrooms!) this way, with the Theta, as well as with the Canon camera, to make sure everything was thoroughly documented. Though this certainly led us into a few tight spaces….



Jillian and Rudy doing their best to capture the very small main bathroom and shower off the Fair Lane’s main hallway…



…and the final images of the bathroom. / THF186274, THF186275

As photographers of the wide variety of artifacts at The Henry Ford, our job is certainly never boring, but when faced with unique requests like the Fair Lane, we get to have a little more fun than usual and really test the limits of our creativity and ingenuity.

I hope you enjoyed this behind-the-scenes look at how we photographed Henry Ford’s private railcar. Be sure to check out some of the new images on the artifact card below, or click through to our Digital Collections to explore all of the images and 360-degree interiors! And read more about the Fair Lane, its travels, and its history in celebration of its 100^th birthday this year.

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digitization, digital collections, railroads, Henry Ford Museum, photographs, by Jillian Ferraiuolo, Fair Lane railcar, #Behind The Scenes @ The Henry Ford, photography

Mose Nowland, with wife Marcia and daughter Suzanne, at The Henry Ford in June 2021.

The Henry Ford lost a dear friend and a treasured colleague on August 13, 2021, with the passing of Mose Nowland. When he joined our Conservation Department as a volunteer in 2012, Mose had just concluded a magnificent 57-year career with Ford Motor Company—most of it in the company’s racing program—and he was eager for something to keep himself occupied in retirement. We soon discovered that “retire” was just about the only thing that Mose didn’t know how to do.

To fans of Ford Performance, Mose was a legendary figure. He joined the Blue Oval in 1955 and, after a brief pause for military service, he spent most of the next six decades building racing engines. Mose led work on the double overhead cam V-8 that powered Jim Clark to his Indianapolis 500 win with the 1965 Lotus-Ford. Mose was on the team behind the big 427 V-8 that gave Ford its historic wins over Ferrari at Le Mans—first with the GT40 Mark II in 1966 and then again with the Mark IV in 1967. And Mose was there in the 1980s when Ford returned to NASCAR and earned checkered flags and championships with top drivers like Davey Allison and Bill Elliott.


Mose with one of his creations during Ford’s Total Performance heyday.

Following his retirement, Mose transitioned gracefully into the role of elder statesman, becoming one of the last remaining participants from Ford’s glory years in the “Total Performance” 1960s. Museums and private collectors sought him out with questions on engines and cars from that era, and he was always happy to share advice and insight. Mose’s expertise was exceeded only by his modesty. He never claimed any personal credit for Ford’s racing triumphs—he was just proud to have been part of a team that made motorsport history. Mose was able to see that history reach a wider audience with the success of the recent movie Ford v Ferrari.

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Michigan, Dearborn, The Henry Ford staff, 21st century, 20th century, racing, race cars, philanthropy, Old Car Festival, Model Ts, Mark IV, making, in memoriam, Henry Ford Museum, Greenfield Village, Ford workers, Ford Motor Company, engines, engineering, collections care, cars, by Matt Anderson, #Behind The Scenes @ The Henry Ford

Henry Ford's Private Railroad Car "Fair Lane," 1921 / THF186260

Just as many of today’s captains of industry and business leaders consider an executive jet to be a crucial part of their tool kit, so in the period prior to widespread air travel was the railroad business car considered an essential amenity. There are two basic categories of business cars, each with their equivalents in the modern world of business jets: the private car (at its most grandiose taking the form of “a palace on wheels”), owned by a wealthy individual or large corporation, and the chartered car, a well-appointed business car available for hire by companies or individuals as needed.

Business cars were attached at the rear of regularly scheduled passenger trains, according to arrangements made ahead of time with railroad companies. While the reliance on existing timetables and the inevitable complexities associated with being switched from one train to another en route might seem cumbersome and time-consuming to us, the opportunity to conduct business on the go, with food to order and a place to sleep, all in fully-staffed, well-appointed surroundings, made sense from a business standpoint: Work was accomplished, decisions were made, and the individuals concerned arrived in a better state than if they had been prey to the pitfalls of the ordinary traveler.


The interior of the Fair Lane, restored by The Henry Ford to as closely as possible resemble its appearance during Henry Ford’s ownership, is restrained, given Ford’s wealth. / THF186280

This car, Henry Ford’s Fair Lane, was one of the largest passenger railcars built when it was completed by Pullman in 1921. It is a private car, and as such reflects the taste of its owner, one of the wealthiest men on Earth. Paradoxically, Ford’s restrained taste and sense of occasion (think of the scale and finish of his house, given his wealth) resulted in a car that had more in common with the lower-key chartered cars—vehicles that incorporated the sumptuousness of the boardroom rather than the chairman’s own particular taste.

Even more paradoxically, traffic records reveal that the most extensive use to which Fair Lane was put was luxury transportation for Clara Ford and her close friends on shopping trips to New York City.

Explore many more images of the exterior and interior of the Fair Lane, including new 360-degree views of its compartments, in our Digital Collections.


This post is adapted from an educational document from The Henry Ford titled “Transportation: Past, Present, and Future—From the Curators.”

travel, railroads, Henry Ford Museum, Henry Ford, Fair Lane railcar

Allegheny Steam Locomotive, 1941. / THF17920

Off at the back of the museum’s Made in America: Power exhibit is a rangy apparatus—a water pump made mostly of wood, mounted on a granite plinth. Its business end, a clanking group of wrought- and cast-iron components, represents a beginning point for the technology seen in full flower in the Allegheny locomotive in the Railroads exhibit. Institutionally, we are fortunate in having both the world’s oldest surviving steam engine and one of the most advanced examples of reciprocating steam technology as applied to railroads.


The Newcomen Engine, circa 1750—the world’s oldest surviving steam engine. / THF110472

The importance of the Allegheny locomotive—both institutionally and historically—is hard to overstate. It is both straightforward and paradoxical: an overwhelming machine that has great human appeal; close at hand and yet impossible to fully take in; a blunt instrument of industrial efficiency enshrined on a teakwood floor in an approachable museum setting. In short, it is both plainly stated and chameleon-like—a perfect museum artifact.

Historically, it represents a technology played to the limit of tight physical constraints imposed by a railroad’s right-of-way (sharpness of curves, size of adjacent structures, axle loading of track and bridges). The Allegheny represents a masterfully trim packaging of all the components necessary to make an efficient steam locomotive—a technology pushed to a particular limit with spectacular results.

The refinements embodied by the Allegheny were the result of the Lima Locomotive Company’s chief mechanical engineer, William Woodard, and his relentless pursuit of “superpower.” His success was borne out by designs that demonstrated a 25 to 30 percent increase in efficiency—success that resulted in a steam design revolution that spread to all American locomotive manufacturers.

Learn more about the Allegheny in our What If story and on our Popular Research Topic page, and find out more about the Newcomen Engine and how it came into our collection on our blog.


This post is adapted from an educational document from The Henry Ford titled “Transportation: Past, Present, and Future—From the Curators.”

Additional Readings:

• Rotative Steam Engine, 1788
  
• Maudslay Production Lathe, circa 1800
  
• Gas-Steam Engine, 1916, Used to Generate Electricity at Highland Park Plant
  
• From Electric Vehicles to the Stars

travel, technology, railroads, power, Henry Ford Museum

Ingersoll-Rand Number 90 Diesel-Electric Locomotive, 1926 / THF67890

Despite its virtually complete lack of visual charm (not a shred of rugged elegance here; this is the classic “box on wheels”), the Ingersoll-Rand Diesel-Electric Locomotive on display in Henry Ford Museum of American Innovation is actually one of the most significant items in our railroad collections. This engine was part of a calculated and savvy business move by Ingersoll-Rand (partnering with General Electric and American Locomotive) to produce a new locomotive type to challenge the steam locomotive—a deliberate attempt to break into the massive railroad market using internal combustion technology. While Ingersoll-Rand never really gained a foothold in the field, its venture played a successful part in the practical demonstration of this new form of motive power.

Hindsight suggests certain inevitability in the demise of the steam locomotive—an inflexible and inefficient mechanism compared with the modular, easily deployed workhorse diesel. From a 1920s perspective, however, the diesel had little going for it. Overly complex and unproven, it seemed a minor interloper in an industry with so much invested—both monetarily and intellectually—in what was then a mature and refined technology. Even then, however, there were factors starting to work against the all-pervasive steam locomotive, specifically the mid-1920s moves by New York City and Chicago to ban the use of steam locomotives within their city limits on account of pollution concerns—fertile soil for the growth of alternative technologies.


Ingersoll-Rand's Diesel-Electric Locomotive #90 in Phillipsburg, New Jersey, 1926. Ingersoll-Rand used the locomotive in the railyard at its Phillipsburg plant for some 40 years. Donated to The Henry Ford in 1970, the locomotive received a cosmetic restoration in 1983. / THF271022

There is a touch of David and Goliath about this artifact when viewed in the context of the sheer numbers of steam locomotives then in service. This and other units like it were the unassuming thin end of a wedge that was to revolutionize the railroad scene. In 1925, there was just one diesel to 63,612 steam locomotives in mainline service in the United States; by 1945, there were 3,816 diesels to 38,853 steam locomotives; and by 1960, the final year for steam on Class I railroads here, there were 28,278 diesels to 261 steam locomotives.

Explore our Ingersoll-Rand locomotive and the transition from steam to internal combustion power further here.


This post is adapted from an educational document from The Henry Ford titled “Transportation: Past, Present, and Future—From the Curators.”

Additional Readings:

• Made in America: Power
  
• Edison Dynamo Used on SS Columbia, 1880
  
• Rotative Steam Engine, 1788
  
• Westinghouse Portable Steam Engine No. 345

20th century, 1920s, technology, railroads, power, Henry Ford Museum