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Contact Information: Tanya Klein Public Relations 973-596-3433

Thomas Edison Also Invented the Concrete House, Says NJIT Researcher

Aficionados of modern poured-concrete design were in for a rude awakening last month when they heard NJIT Assistant Professor Matt Burgermaster’s presentation at the 64th annual meeting of the Society of Architectural Historians. 

"Edison's "Single-Pour System: Inventing Seamless Architecture" illustrated how Thomas Edison invented and patented in 1917 an innovative construction system to mass produce prefabricated and seamless concrete houses. Typically most people associate this style of architectural design and type of building technology with the European avant-garde of the early 20th century.

Unknown to many people, however, is that many Edison houses remain standing in towns surrounding West Orange, New Jersey, where Edison's factory was located and is now a National Historic Park.  On the park grounds is even a prototype of Edison's concrete house. 

"Edison's one-of-a-kind system was patented for the purpose of building a single, repeatable structure without any parts, with a single act of construction," said Burgermaster, "And, remarkably, 100 years later many of these houses remain standing."

This paper analyzed Edison's invention of a single-pour system for concrete construction as a novel application of this material's dynamic behavior and speculated on its role in the development of a type of integrated building anatomy that, perhaps inadvertently, also invented the idea of a seamless architecture.

Originally motivated by the objective of providing a cost-effective prototype for the working-class home, this early experiment in mass-production was one of Modernism's first attempts to construct a building with a single material. 

Edison's 1917 patent proposed a building-sized mold that leveraged the intrinsically dynamic capacity of concrete to form itself into a variety of shapes and sizes, limited only by the design of its framework.  The invention's potential efficiencies resided in the distribution of this material as a continuous flow through an entire building instead of being confined to the prefabrication of its constituent parts. 

By physically integrating all interior and exterior building components and their associated functions of structure, enclosure, and infrastructure within a single, monolithic concrete cast, all aspects of assembly were eliminated. It was a whole without any parts—a building without joints.

This radical proposition - a seamless architecture—was built by Edison before it was conceptualized by the European avant-garde (such as Le Corbusier and the Bauhaus) with whom it later became associated. While they imagined concrete as a material without a history or author—one well-suited to industrialized modes of production—and aestheticized such autonomy and anonymity as a material truth, Edison's single-pour system matter-of-factly proposed an alternative causal relationship between material and form. 

Its physical seamlessness was not a representation of architecture as an idealized, machine-made object, but was an effect of actual material behavior. As such, this technological invention not only delivered an innovative construction method, but also an alternative way of thinking about the material itself.

"I don't think this research on Edison's invention offers grounds for anyone to call those European architects copycats. As anyone in a creative field knows, sometimes these things are just in the air and like minds can be said to think alike," said Burgermaster. "Edison's approach to invention remains as radical today as it was a century ago.  It's been very interesting finding this body of work and making it visible. My hope is that this 'lost' chapter in the early history of concrete construction will demonstrate that Edison not only left a mark on the field of architecture right here in our back-yard, but that his unique approach to design thinking offers a model for how today's architects and designers can add value to the process of technological problem-solving."

For more information, please visit http://sah.conference-services.net/programme.asp?conferenceID=2350&action=prog_list&session=13647

One of the nation's leading public technological universities, New Jersey Institute of Technology (NJIT) is a top-tier research university that prepares students to become leaders in the technology-dependent economy of the 21st century. NJIT's multidisciplinary curriculum and computing-intensive approach to education provide technological proficiency, business acumen and leadership skills. With an enrollment of more than 10,000 graduate and undergraduate students, NJIT offers small-campus intimacy with the resources of a major public research university. NJIT is a global leader in such fields as solar research, nanotechnology, resilient design, tissue engineering, and cyber-security, in addition to others. NJIT ranks 5th among U.S. polytechnic universities in research expenditures, topping $110 million, and is among the top 1 percent of public colleges and universities in return on educational investment, according to PayScale.com.