Industrial Research 



305 



stations and by the part-time consulting service of 

 individual professors. 



Metallurgical research is provided by Government 

 research laboratories, which are increasingly engaged 

 upon problems relating to national defense, but pay 

 attention also to problems confronting the metallurgical 

 industries. 



Finally, metallurgical research is provided as a by- 

 product of the training of research workers by the 

 universities, their major and essential contribution 

 being the initial training of the individuals who will 

 ultimately bear the burden of the metallurgical research 

 of the future. 



Moreover, the results of metallurgical research are 

 made public and shared in a cooperative spirit, even 

 though individual profit is necessarily the ruling motive. 



All these kinds of metallurgical research are essential. 

 None is so fully developed as it will be, but even in 

 their present status, they all together form no incon- 

 siderable item in an accounting of national economic 

 resources. 



Bibliography 



Books 



American Foundrymen's Association. Alloy cast irons. 

 Chicago, 1939. 257 p. 



American Foundrymen's Association. Cast metals hand- 

 book. 1940 ed. Chicago, 1939. 532 p. 



American Society for Metals. Metals handbook. Cleve- 

 land, 1939. 1803 p. 



American Welding Society. Welding handbook. New York, 

 1938. 1211 p. 



Edwards, J. D., Frary, F. C, and Jeffries, Z. The aluminum 

 industry. New York, McGraw-Hill Book Company, Inc., 

 1930. 2 v., 1228 p. 



Various Authors. "Alloys of iron," a series of books on the 

 metal, iron, and alloys of iron with — carbon, silicon, molyb- 

 denum, tungsten, copper, nickel, and chromium. (Volumes 

 on manganese, vanadium and nonmetallics, in preparation.) 

 New York, McGraw-Hill Book Company, Inc., 1932-40. 



Journal articles 



American Society for Testing Materials. Proceedings, 



1900-1940. Especially reports of committees on corrosion of 



iron and steel, corrosion of nonferroua metals and alloys, 



fatigue of metals, and effect of temperature on the properties 



of metals. 

 Clamer, G. H. The development of the coreless induction 



furnace. Metals and Alloys, 6, 119 (1935). 

 Clamer, G. H. The development of the submerged resistor 



induction furnace. Ihid., 5, 242 (1934). 

 Dix, E. H., and Bowman, J. J. Fifty years of aluminum alloy 



development. Ibid., 7, 29 (1936). 

 Gann, J. A. Magnesium, growth of an American industry. 



Metal Progress, SI, 33, 84 (Apr., 1932). 

 Gillett, H. W. Cooperative metallurgical research, how? 



Metals and Alloys, 2, 360 (1931). 

 Gillett, H. W. Metallurgical research from the chemical 



point of view. Industrial and Engineering Chemistry, SS, 232 



(1930). 

 Herty, C. H., Jr., and Coworkers. General topic. Physical 



chemistry of steel making; Specific titles, see Cooperative 



bulletins, nos. 64-69, 1934, Carnegie Institute of Technology 



and Mining and Metallurgical Advisory Boards. 

 Hoyt, S. L. Ductile tungsten. Metals and Alloys, 6, 11 (.1935). 

 Hoyt, S. L. Economic results of metallurgy. Ibid., 6, 113 



(1934). 

 Johnston, J. Applications of science to the making and finishing 



of steel. Mechanical Engineering, 67, 79 (1935). 

 Wadhams, a. J. Nickel and its alloys. Mining and Metallurgy, 



10, 183 (1929). 

 Williams, C. E. Recent developments in the American iron and 



steel industry. Iron and Steel Institute (British) Journal, 1S8, 



11 (1938). 

 Zimmerman, R. E. Coupling sales to research. American 



Iron and Steel Institute Yearbook, 28, 203 (1938). 



