Michigan State and Cornell While in Worcester Durand was approached by a member of the board of trustees of
Michigan State College. Michigan State was looking for someone to create and head a mechanical engineering program. Durand accepted the position and resigned his commission with the US Navy effective 15 September 1887. Durand worked at Michigan State in
Lansing, Michigan, for four years, creating the Department of Mechanical Engineering. In 1893, Durand published a paper mathematically describing a radial
planimeter for averaging values plotted in
polar coordinates. Originally a radial planimeter was of academic interest only, but ten years later clock driven recording instruments started being used. Durand created working device based on his theory. He patented the device and received royalties from a scientific instrument company making the devices until the patent expired.
World War I The United States
declared war on Germany in April, 1917. Durand obtained a leave of absence from Stanford to devote working full-time at the NACA. The United States concentrated on developing training, reconnaissance, and bomber airplanes while relying on the British and French for fighters. The NACA directed the development of the
Liberty aeronautical engine. Durand was appointed head of the Engineering Division. Both the NACA and the NRC had offices in the
Munsey Trust Building in Washington separated by two floors. Durand climbed stairs or rode the elevator several times a day between the two. On September 11, 1925, Durand learned over the radio that Coolidge had appointed him to the board. The board was tasked to study aeronautics in relation to national defense and advise the president on policy to develop aircraft in time of war. The board was composed of Morrow as chairman, U. S. Judge
Arthur C. Denison as vice chairman, Durand as secretary,
Hiram Bingham,
James S. Parker,
Carl Vinson, Maj. Gen.
James G. Harbord (ret.), Rear Admiral
Frank F. Fletcher (ret.), and
Howard E. Coffin. The first meeting of the board was held at the White House where Durand was chosen to be secretary of the board. After weeks of meetings receiving expert testimony and conferring the board submitted a report to the President recommending a near term development plan for military and naval aircraft. The report further recommended the creation of the offices of Assistant Secretary for Military and for Naval aircraft within the War and Navy Departments. Lesley tested seven propellers with a
VE-7. Durand's wind tunnel model showed similar efficiency to Lesley's measurements, but lagged by 6% to 10% in thrust developed and power absorbed. The final volume was published in 1936. Science Advisory Board Chairman
Karl T. Compton appointed a Special Committee on Airships at the request of Secretary of the Navy
Claude Swanson. Members of the committee were
Robert A. Millikan and
Theodore von Kármán of Caltech,
William Hovgaard of M.I.T., Durand and
Stephen Timoshenko of Stanford,
Frank B. Jewett of Bell Telephone Laboratories, and
Charles F. Kettering of General Motors. Durand was the chairman.
Ship stabilization Upon request of the
United States Department of the Navy, the
National Academy of Sciences established a committee chaired by Durand to investigate anti-rolling devices on ships. The ability to
stabilize a ship such as an
aircraft carrier would be extremely useful during the landing of airplanes. The committee established an experimental laboratory at the
Brooklyn Navy Yard. A full-scale version of the system was tested in but exhibited control stability problems. Very promising results were beginning to appear when the outbreak of the Second World War interrupted further development as the Hamilton was called to active duty and the 5 ton model was put into storage.
World War II In March 1941 Chairman of the NACA
Vannevar Bush asked the then 82-year-old Durand to head a committee to study and develop
jet propulsion for aircraft. The committee was composed of members from General Electric,
Westinghouse, and
Allis-Chalmers. The committee agreed early that the three companies would work separately developing jet engines to promote diversity in design. Chief of the Air Corp
Henry H. Arnold obtained a
Whittle jet engine from England which was turned over to the gas turbine division of GE in
Lynn, Massachusetts, for test and copy. General Electric developed this into the
J31. Durand witnessed a static test of the engine in Lynn, Massachusetts on July 13, 1942, alongside
Sanford A. Moss, the engineer Durand had requested from General Electric for the development of turbosuperchargers during World War I. Moss had retired from GE but worked as a consultant on the jet engine. Durand and Moss spoke to each other of the early development of the turbosupercharger as the manager of the facility recorded their conversation. On October 2, 1941, Durand witnessed the first official flight of the J31 equipped
Bell P-59 Airacomet at Muroc Army Air Field (today,
Edwards Air Force Base). Westinghouse developed the
J30 engine from this effort. Durand led the jet engine effort from April 2, 1941, to July 7, 1945, at which time Durand was 86 years old Also beginning in early spring 1941 Durand chaired the Engineering Division of the National Research Council. Durand split his work days, mornings at the NACA, afternoons at the NRC. Durand was greatly helped by the NRC Division Executive Secretary William H. Kenerson of
Brown University. ==References==