BaileyR. W.‘Creep relationships and their application to pipes, tubes, and cylindrical parts under internal pressure‘, Proc. Instn mech. Engrs, Lond.1951164 (4), 425.
2.
EngelmannP.‘Fission gas pressure build up and fast breeder economy‘, Int. Atomic Energy Agency seminar on the physics of fast and intermediate reactors, Vienna, 1961 p. 228.
3.
JohnsonA. E.FrostN. E.‘Fracture under combined stress creep conditions of a 0·5 per cent molybdenum steel‘, Engineer, Lond.1951191, 434.
4.
JohnsonA. E.HendersonJ.MathurV. D.‘The combined stress creep fracture of commercially pure copper at 250°C‘, ibid.1956202, 261.
5.
JohnsonA. E.‘Complex stress creep of metals‘, Metallurg. Rev.19605 (20), 447.
6.
JohnsonA. E.HendersonJ. V. D.‘Complex stress creep fracture of an aluminium alloy to B.S. 2L42 at 200°C‘, Aircraft Engng1960 (June) 161.
7.
RobinsonE. L.‘Effect of temperature variation on the long time rupture strength of steels‘, Trans. Amer. Soc. mech. Engrs195274, 777.
8.
MillerJ.‘Effect of temperature cycling on the rupture strength of some high-temperature alloys‘, Proc. Amer. Soc. Test. Mater. S.T.P. No. 165, 1954 p. 53.
9.
GuarnieriG. J.‘The creep-rupture properties of aircraft sheet alloys subjected to intermittent load and temperature‘, ibid. p. 105.
