Robert Byron Bird
University of Wisconsin–Madison
February 5, 1924 – November 13, 2020
Awarded Bingham Medal 1974
Fellow, Elected 2015
Dr. Robert Byron Bird is an American chemical engineer with research interests in rheology, non-Newtonian fluid mechanics and transport phenomena more broadly. He obtained his BS in Chemical
Engineering from the University of Illinois in 1947 but started his undergraduate career at the University of Maryland before World War II. After returning from the army, he finished his last
two years of undergrad at the University of Illinois. He then received his PhD in Chemistry from the University of Wisconsin in 1950. After finishing his PhD, Bird worked as a Post-doctoral
Fellow at the University of Amsterdam for a year from 1950-1951. From 1951-1952, he worked as an assistant professor of chemistry at Cornell University. Bird then returned to his alma mater
of the University of Wisconsin, where he worked from 1953 until he retired with the status of Professor Emeritus. Bird held many other positions throughout his time at the University of Wisconsin.
In 1958, he was a Fulbright lecturer and Guggenheim Fellow at Technische Universiteit Delft (Delft University of Technology). From 1962-1963, he worked as a Fulbright professor at both Kyoto
University and Nagoya University in Japan. Lastly, in 1994, Bird held the position of visiting professor at Université Catholique de Louvain in Belgium.
Dr. Bird is internationally known for his work in transport phenomena of non-Newtonian fluids, the kinetic theory of polymers, and the behavior of polymeric fluids. He, along with Ed Lightfoot
and Warren Stewart, wrote the landmark textbook on transport phenomena called Transport Phenomena, which was published in 1960. Bird was awarded the National Medal of Science by
President Ronald Reagan in 1987 “for his profoundly influential books and research” (National Science Foundation). Robert Bird was awarded the
Bingham Medal in 1974 for his "distinguished career as an educator and for his research achievements in rheology"
(Physics Today 1974).