5.4.1 Fatigue Strength at Room Temperature
Table continued
Mechanical Properties (Section 5)
(1) Gillett, H.W. Impact Resistance and Tensile Properties of Metals at Subatmospheric Temperatures. Joint ASTM-ASME Research Committee on Effect of Temperature on the Properties of Metals. Project No. 13, (1941), Aug.
(2) Kupfer-Zink-Legierungen. Deutsches Kupfer-lnstitut, (1966).
(3) Private communication from Imperial Metal Industries Ltd. England.
(4) Price, W.B. Properties of Copper and Some of its Important Industrial Alloys at Elevated Temperatures. ASTM-ASME Symposium on Effect of Temperature on the Properties of Metals, (1931), pp. 340-367.
(5) Greenall, C.H. and Gohn, G.R. Fatigue Properties of Non-Ferrous Sheet Metals. Proc. ASTM, Vol. 37 (1937), Part 2, pp. 160-194.
(6) Burghoff, H.L. and Blank, A.l. Fatigue Properties of Some Coppers and Copper Alloys in Strip Form. Proc. ASTM, Vol. 48 (1948), pp. 709 736.
(7) Anderson, A.R. and Smith, C.S. Fatigue Tests on Some Copper Alloys. Proc. ASTM, Vol. 41 (1941), pp. 849 858.
(8) Anderson, A.R., Swan, E.F. and Palmer, E.W. Fatigue Tests on Some Additional Copper Alloys. Proc. ASTM, Vol. 46 (1946), pp. 678-692.
(9) Wilkins, R.A. and Bunn, E.S. Copper and Copper-Base Alloys. McGraw-Hill Booh Company, New York, (1943).
(10) Burghoff, H.L. and Blank, A.l. Fatigue Tests on Some Copper Alloys in Wire Form. Proc. ASTM, Vol. 43 (1943), pp. 774-784.
