The effect of machined topography and integrity on fatigue life

Koster, 1973, Effects of machining variables on the surface and structural integrity of titanium, 67 Suhr, 1988, High cycle fatigue, 226 Dieter, 1988 Suresh, 2001 Thomas, 1923, Effect of scratches and of various workshop finishes upon the fatigue strength of steel, Engineering, 116, 449 Noll, 1948, Allowable stresses for steel members of finite life, 132 Fluck, 1951, The influence of surface roughness on the fatigue life and scatter of test results of two steels, 584 ISO 4287:2000 Geometrical Product Specification (GPS), Surface texture: Profile method, Terms, definitions and surface texture parameters. Siebel, 1957, Influence of surface roughness on the fatigue strength of steels and non-ferrous alloys, Engineers Digest, 18, 109 Koster, 1991, Effect of residual stress on fatigue of structural alloys, 1 Maiya, 1975, Effect of surface roughness on low-cycle fatigue behaviour of type 304 stainless steel, Metallurgical Transactions, 6A, 1761, 10.1007/BF02642305 Wareing, 1979, Influence of surface finish on low-cycle fatigue characteristics of type 316 stainless steel at 400 °C, Metal Science, 13, 1, 10.1179/030634579790434150 Taylor, 1991, Fatigue performance of machined surfaces, Fatigue and Fracture of Engineering Materials and Structures, 14, 329, 10.1111/j.1460-2695.1991.tb00662.x Suhr, 1986, The effect of surface finish on high cycle fatigue of a low alloy steel, 69 Newman, 1999, Fatigue-life prediction methodology using small-crack theory, International Journal of Fatigue, 21, 109, 10.1016/S0142-1123(98)00058-9 BS 1134-1. Assessment of surface texture. Part 1: Methods and instrumentation, 1988. BS 1134-2. Assessment of surface texture. Part 2: Guidance and general information, 1990. Griffiths, 2001 Stout, 1993 Stout, 2000 Whitehouse, 2002 Surfstand. Surfstand project Web site parameter description pages, University of Huddersfield, http://scom.hud.ac.uk/external/research/ pec/surfstand, 2001. De Chiffre, 2000, Quantitative characterisation of surface texture, Annals of the CIRP, 49, 635, 10.1016/S0007-8506(07)63458-1 Bayomi, 1995, Effect of surface finish on fatigue strength, Engineering Fracture Mechanics, 51, 861, 10.1016/0013-7944(94)00297-U Leverant, 1979, Surface residual stresses, surface topography and the fatigue behaviour of Ti6/4, Metallurgical and Material Transactions, A10, 251, 10.1007/BF02817635 Surface Texture Analysis, The Handbook, Hommelwerke GmbH, Muhlhausen, 1992. Stout, 1980, How smooth is smooth—surface measurements and their relevance in manufacturing, The Production Engineer, 17, 10.1049/tpe.1980.0076 ISO 12085:1996 Geometrical Product Specification (GPS), Surface texture: Profile method, Motif parameters. De Chiffre, 1994, Advantages and industrial applications of three-dimensional surface roughness analysis, Annals of the CIRP, 43, 473, 10.1016/S0007-8506(07)62256-2 Whitehouse, 2001, Function maps and the role of surfaces, International Journal of Machine Tools and Manufacture, 41, 1847, 10.1016/S0890-6955(01)00049-9 El-Helieby, 1980, Influence of surface roughness and residual stress on fatigue life of ground steel components, Metals Technology, 221, 10.1179/030716980803286450 Watanabe, 1994, Rise in fatigue strength of Ti by extremely mild abrasive processing, Wear, 174, 235, 10.1016/0043-1648(94)90106-6 Matsumoto, 1991, Effects of machining process on the fatigue strength of hardened AISI 4340 steel, Journal of Engineering for Industry, 113, 154, 10.1115/1.2899672 Field, 1972, A review of measuring methods for surface integrity, Annals of the CIRP, 21, 219 Zlatin, 1973, Procedures and precautions in machining titanium alloys, Titanium Science and Technology, 1, 489, 10.1007/978-1-4757-1346-6_37 Sommer, 2000 Trail, 1995, Effects of stress concentration on the fatigue life of a γ-based titanium alloy, Material Science and Engineering: Structural Materials Properties, Microstructure and Processing, A193, 427, 10.1016/0921-5093(94)03245-9 Fordham, 1997, The effect of different profiling techniques on the fatigue performance of metallic membranes of AISI 301 and Inconel 718, International Journal of Fatigue, 19, 487 R.A. Hanlon, Investigation into the effect on fatigue life of abrasive water-jet cutting, MEng thesis, Metallurgy and Materials, The University of Birmingham, Birmingham, 2001. Hirano, 1997, Effects of water jet peening on corrosion resistance and fatigue strength of type 304 stainless steel, International Journal of Fatigue, 19, 734, 10.1016/S0142-1123(97)82647-3 Abrao, 1996, The surface integrity of turned and ground hardened bearing steel, Wear, 196, 279, 10.1016/0043-1648(96)06927-X Aspinwall, 1998, High speed milling of advanced aerospace alloys and hardened mould/die steels Mantle, 1997, Surface integrity and fatigue life of turned gamma titanium aluminide, Journal of Materials Processing Technology, 72, 413, 10.1016/S0924-0136(97)00204-5 Bentley, 1999, The effect of machining on the fatigue strength of a gamma titanium aluminide intermetallic alloy, Intermetallics, 7, 967, 10.1016/S0966-9795(99)00008-4 Sharman, 2001, The effects of machined workpiece surface integrity on the fatigue life of γ-titanium aluminide, International Journal of Machine Tools and Manufacture, 41, 1681, 10.1016/S0890-6955(01)00034-7 M.R. Salmani, Fatigue life of gamma titanium aluminides, PhD thesis, Metallurgy and Materials, The University of Birmingham, Birmingham, 1999. R.C. Dewes, High speed machining of hardened ferrous alloys, PhD thesis, Mechanical and Manufacturing Engineering, The University of Birmingham, Birmingham, 1997. Berry, 2001, High speed machining and fatigue behaviour, 82 Güngör, 1993, Effect of surface texture on the initiation and propagation of small fatigue cracks in a forged 6082 aluminium alloy, Material Science and Engineering A: Structural Material Properties, Microstructure and Processing, A160, 17, 10.1016/0921-5093(93)90493-X Eckersley, 1991, Intelligent design takes advantage of residual stresses, 175 L. Wagner, J.K. Gregory, Thermomechanical surface treatment of titanium alloys, Materials Science Forum, Dortmund, Germany, 1994, 163–165, 159–172 (ISBN 0-87849-678-5). Wagner, 1997, Mechanical surface treatments on titanium alloys: fundamental mechanisms, 199 Wagner, 1999, Mechanical surface treatments on titanium, aluminium and magnesium alloys, Materials Science and Engineering, A263, 210, 10.1016/S0921-5093(98)01168-X Schutz, 1997, Surface treatments for expanding titanium alloy application limits: an overview, 1 Eftekhari, 1995, Influence of surface condition on the fatigue of an aluminium-lithium alloy (2090-T3), Materials Science & Engineering, A199, 3, 10.1016/0921-5093(95)09805-4 Sridhar, 1996, Effect of shot peening on the fatigue and fracture behaviour of two titanium alloys, Journal of Materials Science, 31, 5953, 10.1007/BF01152145 Drechsler, 1998, Mechanical surface treatments on Ti-10V-2Fe-3Al for improved fatigue resistance, Materials Science and Technology, A243, 217 Torres, 2002, An evaluation of shot-peening, residual stress and stress relaxation on the fatigue life of AISI 4340 steel, International Journal of Fatigue, 24, 877, 10.1016/S0142-1123(01)00205-5 Zhuang, 2001, Investigation of residual stress relaxation under cyclic load, International Journal of Fatigue, 23, 31, 10.1016/S0142-1123(01)00132-3 Hasegawa, 1993, Effect of shot peening on fatigue strength of carbon steel at elevated temperature, 157 Schilling-Praetzel, 1993, Influence of shot peening on fatigue life, 227 Thompson, 1997, Laser shock peening versus shot peening. A damage tolerance investigation, 239 Hassan, 2000, Further improvements in some properties of shot peened components using the burnishing process, International Journal of Machine Tools and Manufacture, 40, 1775, 10.1016/S0890-6955(00)00018-3