Ford Celebrates 100th Anniversary of the Moving Assembly Line with New Goals for Advanced, Flexible Manufacturing

As today marks the 100th anniversary of the moving assembly line invented by Ford Motor Company under the leadership of Henry Ford, the company is building on its legacy of innovation by expanding advanced manufacturing capabilities and introducing groundbreaking technologies that could revolutionize mass production for decades to come.

Ford is rapidly expanding its advanced manufacturing capabilities and boosting global production to meet surging consumer demand. By 2017, Ford will increase its global flexible manufacturing to produce on average four different models at each plant around the world to allow for greater adaptability based on varying customer demand. Ford also projects 90 percent of its plants around the world will be running on a three-shift or crew model by 2017, which will help increase production time more than 30 percent.

“One hundred years ago, my great-grandfather had a vision to build safe and efficient transportation for everyone,” said Ford Executive Chairman Bill Ford. “I am proud he was able to bring the freedom of mobility to millions by making cars affordable to families and that his vision of serving people still drives everything we do today.”

Also in 2017, virtually all Ford vehicles will be built off nine core platforms, boosting manufacturing efficiency, while giving customers the features, fuel efficiency and technology they want anywhere in the world. Today, Ford builds vehicles on 15 platforms and has the freshest lineup in the industry.

“Henry Ford’s core principles of quality parts, workflow, division of labor and efficiency still resonate today,” said John Fleming, Ford executive vice president of global manufacturing. “Building on that tradition, we’re accelerating our efforts to standardize production, make factories more flexible and introduce advanced technologies to efficiently build the best vehicles possible at the best value for our customers no matter where they live.”

Ford’s recent expansions in global manufacturing and production have helped to retain 130,000 hourly and salaried jobs around the world. 

They also put the company on pace to produce 6 million vehicles in 2013 – approximately 16 vehicles every 60 seconds around the world. By 2015, Ford will have opened the facilities below:

2011: Ford Sollers Elabuga Assembly Plant – Russia

2012: Ford Sollers Naberezhnye Chelny Assembly Plant – Russia

2012: Chongqing #2 Assembly Plant – China

2012: Craiova Engine Plant – Romania

2012: Ford Thailand Motors – Thailand

2013: Chongqing Engine Plant – China

2013: Nanchang Assembly – China

2014: Camaçari Engine Plant – Brazil

2014: Chongqing #3 Assembly Plant – China

2014: Chongqing Transmission – China

2014: Sanand Assembly Plant – India

2014: Sanand Engine Plant – India

2015: Hangzhou Assembly – China

2015: Ford Sollers Elabuga Engine Plant – Russia

New technologies shape the future

Ford already is realizing the benefits of advanced manufacturing technologies that will shape the future. For example, Ford engineers are developing a highly flexible, first-of-its-kind, patented technology to rapidly form sheet-metal parts for low-volume production use. The technology, known as Ford Freeform Fabrication Technology, or F3T, will lower costs and speed delivery times for prototype stamping molds – within three business days versus two to six months for prototypes made using conventional methods.

Additionally, Ford is expanding its capabilities in 3D printing, which creates production-representative 3D parts layer by layer for testable prototypes. With 3D printing, Ford can create multiple versions of one part at a time and deliver prototype parts to engineers for testing in days rather than months.

Ford also is investing in robotic innovations to improve vehicle quality and production efficiencies. For example, the company’s new dirt detection system uses robotic vision to create a digital model of each vehicle in final assembly to analyze paint and surface imperfections in comparison with a perfect model. The result has been significantly improved surface quality on Ford vehicles and more time for operators on the assembly line to address complex issues. Robotics, in this case, allow Ford to work smarter in improving products for customers and allowing workers to focus on more critical thinking tasks. 

Finally, through Ford’s “virtual factory,” the company can improve quality and cut costs in real-world manufacturing facilities by creating and analyzing computer simulations of the complete vehicle production process. This includes simulations of how assembly line workers have to reach and stretch when building a vehicle to ensure the work conditions meet Ford ergonomic standards. Since the implementation of this virtual process in 2001, the number of ergonomic issues during physical builds has been reduced by nearly 20 percent.

“Technologies such as 3D printing, robotics and virtual manufacturing may live in research but have real-world applications for tomorrow and beyond,” said Paul Mascarenas, chief technical officer and vice president, Ford Research and Innovation. “We use Henry Ford’s spirit of innovation as a benchmark for bringing new technologies into the manufacturing process.”