5.4.1 Fatigue Strength at Room Temperature
Mechanical Properties (Section 5)
(1) Reed, R.P. and Mikesell, R.P. Low-Temperature (295 to 4 K) Mechanical Properties of Selected Copper Alloys. J. Materials, Vol. 2 (1967), No. 2, pp. 370-392.
(2) Roberson, J.A. and Grosskreutz, J.C. Fatigue of Copper-Zinc Alloys at 100 °K. Acta Metall., Vol. 11 (1963) July, pp. 795-798.
(3) Dies, K. and Jung-Konig, W. Zeitstandverhalten einiger technischer Kupferleoierungen in der Warme. Metall, Vol. 16 (1962), No. 11, pp. 1097-1102.
(4) Crowe, C.H. Properties of Some Copper Alloys at Elevated Temperatures. ASTM Bull. No. 250, (1960), Dec., pp 30-31.
(5) 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.
(6) Burghoff, H.L. and Blank, A.l. Fatigue Properties of Some Coppers and Copper Alloysin Strip Form. Proc. ASTM, Vol. 48 (1948), pp. 709-736.
(7) Metals Handbook, Vol. 1, 8th ed. American Soclety for Metals, Cleveland, Ohio (1961), p. 1014.
(8) Burghoff, H.L. and Blank, A.l. Fatigue Tests on Some Copper Alloys in Wire Form. Proc. ASTM, Vol. 43 (1943), pp. 774-783.
