5.4.1 Fatigue Strength at Room Temperature
Mechanical Properties (Section 5)
(1) Private communication from Imperial Metal Industries Ltd., England.
(2) Private communication from Kabel- und Metallwerke Gutehoffnungshutte AG, Germany
(3) Private communication from Vereinigte Deutsche Metallwerhe AG, Germany.
(4) Ashbolt, D. and Bowers, J. E. The Properties of Copper and Copper Alloys at Elevated Temperatures. BNFMRA Research Report A 1550 (1965), July.
(5) Upthegrove, C. and Burghoff, H.L. Elevated-Temperature Properties of Coppers and Copper-Base Alloys. American Society for Testing and Materials Philadelphia, Pa. (1956) (ASTM Spec. Tech. Pub. No. 181).
(6) 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.
(7) Bearham, J. H. and Parker, R. J. Elevated Temperature Tensile, Stress-Rupture and Creep Data for Six Copper-Base Materials. Metallurgia, Vol. 78 (1968) pp. 9-14,
(8) Private communication from R. & G. Schmole Metallwerhe Germany.
(9) Private communication from Wieland-Werhe AG, Germany.
(10) Burghoff, H.L. and Blank, A.l. The Creep Characteristics of Copper and Some Copper Alloys at 300, 400 and 500 F. Proc. ASTM, Vol. 47 (1947), pp. 725-754.
(11) Private communication from Forstlich Hohenzollernsche Huttenverwaltung Laucherthal, Germany.
