Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Tilly, G. P.
1965.
Fracture Behaviour of Two Creep-Resistant Materials Subjected to Cyclic Loading at Elevated Temperature.
Proceedings of the Institution of Mechanical Engineers,
Vol. 180,
Issue. 1,
p.
1045.
Barnes, J. F.
and
Tilly, C. P.
1965.
Assessment of Thermal Fatigue Resistance of High Temperature Alloys.
The Journal of the Royal Aeronautical Society,
Vol. 69,
Issue. 653,
p.
343.
Manson, S. S.
1966.
Interfaces between fatigue, creep, and fracture.
International Journal of Fracture Mechanics,
Vol. 2,
Issue. 1,
p.
327.
Manson, S. S.
1966.
Interfaces between fatigue, creep, and fracture.
International Journal of Fracture Mechanics,
Vol. 2,
Issue. 1,
p.
327.
Edmunds, H. G.
and
White, D. J.
1966.
Observations of the Effect of Creep Relaxation on High-Strain Fatigue.
Journal of Mechanical Engineering Science,
Vol. 8,
Issue. 3,
p.
310.
Donachie, Matthew J.
Brody, Robert P.
and
Bradley, Elihu F.
1966.
Thermal Fatigue of Turbine Alloys with Special Reference to PWA 663 Nickel-Base Alloy.
Vol. 1,
Issue. ,
Krempl, E
and
Walker, CD
1969.
Fatigue at High Temperature.
p.
75.
Ellison, E. G.
1969.
A Review of the Interaction of Creep and Fatigue.
Journal of Mechanical Engineering Science,
Vol. 11,
Issue. 3,
p.
318.
Conway, J. B.
Berling, J. T.
and
Stentz, R. H.
1970.
New Correlations Involving the Low-Cycle Fatigue and Short-Term Tensile Behavior of Irradiated and Unirradiated 304 and 316 Stainless Steel.
Nuclear Applications and Technology,
Vol. 9,
Issue. 1,
p.
31.
Conway, J. B.
and
Berling, J. T.
1970.
A new correlation of low-cycle fatigue data involving hold periods.
Metallurgical Transactions,
Vol. 1,
Issue. 1,
p.
324.
Wells, CH
Sullivan, CP
and
Gell, M
1971.
Metal Fatigue Damage: Mechanism, Detection, Avoidance, and Repair.
p.
61.
1971.
Hold-Time Effects in High-Temperature Low-Cycle Fatigue: A Literature Survey and Interpretive Report.
p.
1.
Coffin, LF
and
Goldhoff, RM
1972.
Testing for Prediction of Material Performance in Structures and Components.
p.
22.
Conway, JB
Berling, JT
and
Stentz, RH
1973.
Fatigue at Elevated Temperatures.
p.
637.
Jaske, CE
Mindlin, H
and
Perrin, JS
1973.
Fatigue at Elevated Temperatures.
p.
365.
Ellison, EG
and
Smith, EM
1973.
Fatigue at Elevated Temperatures.
p.
575.
Solomon, H. D.
1973.
Frequency dependent low cycle fatigue crack propagation.
Metallurgical Transactions,
Vol. 4,
Issue. 1,
p.
341.
Skelton, R.P
1973.
Effect of strain rate on the high strain fatigue properties of a 20% Cr/25% Ni/Nb stabilized stainless steel at 1025K.
Materials Science and Engineering,
Vol. 11,
Issue. 4,
p.
195.
Schieferstein, Udo
and
Wiemann, Werner
1977.
Anwendung von Bemessungsregeln auf Bauteile mit gleichzeitiger Kriech‐ und Dehnungswechsel‐Beanspruchung.
Chemie Ingenieur Technik,
Vol. 49,
Issue. 9,
p.
726.
Batte, A. D.
Murphy, M. C.
and
Stringer, M. B.
1978.
High-strain high-temperature fatigue properties of a 0·5Cr–Mo–V steam turbine casing steel.
Metals Technology,
Vol. 5,
Issue. 1,
p.
405.