Citations (107)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (10)
L.W. Kong, Z.B. Xing, Y. Shu, Q.Q. Duan, Z.F. Zhang & P. Li. (2023) Effects of temperature and frequency on cyclic deformation behaviours of Cu single crystals. Philosophical Magazine 103:16, pages 1531-1552.
Read now
Read now
C. Erel, G. Po & N. Ghoniem. (2017) Dependence of hardening and saturation stress in persistent slip bands on strain amplitude during cyclic fatigue loading. Philosophical Magazine 97:32, pages 2947-2970.
Read now
Read now
Petr Pauš, Jan Kratochvíl & Michal Beneš. (2014) Mechanisms controlling the cyclic saturation stress and the critical cross-slip annihilation distance in copper single crystals. Philosophical Magazine Letters 94:2, pages 45-52.
Read now
Read now
P. Zhang, S. Qu, Q.Q. Duan, S.D. Wu, S.X. Li, Z.G. Wang & Z.F. Zhang. (2011) Low-cycle fatigue-cracking mechanisms in fcc crystalline materials. Philosophical Magazine 91:2, pages 229-249.
Read now
Read now
B. Zhang, K.H. Sun, Y. Liu & G.P. Zhang. (2010) On the length scale of cyclic strain localization in fine-grained copper films. Philosophical Magazine Letters 90:1, pages 69-76.
Read now
Read now
Y.Z. Tian, Z.F. Zhang & Z.G. Wang. (2009) Cyclic deformation and fatigue cracking behaviors of Cu–28wt%Ag binary alloy. Philosophical Magazine 89:21, pages 1715-1730.
Read now
Read now
J. Man, P. Klapetek, O. Man, A. Weidner
, K. Obrtlík & J. Polák. (2009) Extrusions and intrusions in fatigued metals. Part 2. AFM and EBSD study of the early growth of extrusions and intrusions in 316L steel fatigued at room temperature. Philosophical Magazine 89:16, pages 1337-1372.
Read now
Read now
J. Man, K. Obrtlík & J. Polák. (2009) Extrusions and intrusions in fatigued metals. Part 1. State of the art and history†
. Philosophical Magazine 89:16, pages 1295-1336.
Read now
Read now
P. Zhang, Q.Q. Duan, S.X. Li & Z.F. Zhang. (2008) Cyclic deformation and fatigue cracking behaviour of polycrystalline Cu, Cu–10 wt% Zn and Cu–32 wt% Zn. Philosophical Magazine 88:16, pages 2487-2503.
Read now
Read now
C. Déprés, C. F. Robertson & M. C. Fivel. (2006) Low-strain fatigue in 316L steel surface grains: a three dimension discrete dislocation dynamics modelling of the early cycles. Part 2: Persistent slip markings and micro-crack nucleation. Philosophical Magazine 86:1, pages 79-97.
Read now
Read now
Articles from other publishers (97)
Byungwoon Kim, Chihiro Yasui, Masataka Abe, Hiroyuki Shima, Yoshitaka Umeno & Takashi Sumigawa. (2024) Characteristic fatigue damage near the Σ3(111) coherent twin boundary in micron-sized copper specimen. Materials Science and Engineering: A 899, pages 146470.
Crossref
Crossref
Zhi-Hao Song & Nian-Zhong Chen. (2024) A modified cyclic cohesive zone model for fatigue crack initiation prediction for mooring chain steels. Engineering Fracture Mechanics 300, pages 109985.
Crossref
Crossref
Jaroslav Polák, Jiří Man & Tomáš Kruml. (2024) The sources of cyclic slip irreversibility. Acta Materialia 267, pages 119709.
Crossref
Crossref
Zikuan Xu, Bin Wang, Peng Zhang, Yankun Zhu, Xuegang Wang & Zhefeng Zhang. (2023) Crack Initiation Mechanism of AISI 4340 Steel for High‐Cycle Torsional Fatigue Loading. steel research international 94:8.
Crossref
Crossref
Wenbin Liu, Yangyang Cheng, Haonan Sui, Jiaqi Fu & Huiling Duan. (2023) Microstructure-based intergranular fatigue crack nucleation model: Dislocation transmission versus grain boundary cracking. Journal of the Mechanics and Physics of Solids 173, pages 105233.
Crossref
Crossref
A. Valiollahi, J. F. Sola & H. Huang. (2023) Combining Effective Plastic Strain and Surface Roughness Change for Identifying Damage Accumulation Sites in a Tensile Sample. Experimental Mechanics 63:4, pages 759-772.
Crossref
Crossref
Jaroslav Polák. (2023) Role of Persistent Slip Bands and Persistent Slip Markings in Fatigue Crack Initiation in Polycrystals. Crystals 13:2, pages 220.
Crossref
Crossref
Xiaowu Li, Xianjun Guan, Zipeng Jia, Peng Chen, Chengxue Fan & Feng Shi. (2023) Twin-Related Grain Boundary Engineering and Its Influence on Mechanical Properties of Face-Centered Cubic Metals: A Review. Metals 13:1, pages 155.
Crossref
Crossref
Theodore Zirkle, Ting Zhu & David L. McDowell. (2023) MULTISCALE MODELING OF HYDROGEN-AFFECTED CRACK TIP DAMAGE USING FULLY COUPLED CHEMO-MECHANICAL CRYSTAL PLASTICITY FRAMEWORK FOR AUSTENITIC STAINLESS STEEL. International Journal for Multiscale Computational Engineering 21:2, pages 21-65.
Crossref
Crossref
Linlin Li, Zhenjun Zhang, Peng Zhang & Zhefeng Zhang. (2023) A review on the fatigue cracking of twin boundaries: Crystallographic orientation and stacking fault energy. Progress in Materials Science 131, pages 101011.
Crossref
Crossref
Mohammad S. Dodaran, Muztahid Muhammad, Nima Shamsaei & Shuai Shao. (2022) Synergistic effect of microstructure and defects on the initiation of fatigue cracks in additively manufactured Inconel 718. International Journal of Fatigue 162, pages 107002.
Crossref
Crossref
Shengkun Wang, Peng Li, Yuntao Wu, Xiao Liu, Qiang Lin & Gang Chen. (2022) Micromechanical behavior of Ti-2Al-2.5Zr alloy under cyclic loading using crystal plasticity modeling. International Journal of Fatigue 161, pages 106890.
Crossref
Crossref
Alice Chlupová, Ivo Šulák, Tomáš Babinský & Jaroslav Polák. (2022) Intergranular fatigue crack initiation in polycrystalline copper. Materials Science and Engineering: A 848, pages 143357.
Crossref
Crossref
X.J. Guan, Z.P. Jia, S.M. Liang, F. Shi & X.W. Li. (2022) A pathway to improve low-cycle fatigue life of face-centered cubic metals via grain boundary engineering. Journal of Materials Science & Technology 113, pages 82-89.
Crossref
Crossref
Oguz Umut Salman, Roberta Baggio, Brigitte Bacroix, Giovanni Zanzotto, Nikolai Gorbushin & Lev Truskinovsky. (2021) Discontinuous yielding of pristine micro-crystals. Comptes Rendus. Physique 22:S3, pages 201-248.
Crossref
Crossref
A. Moshiri, A. Zarei-Hanzaki, A.S. Anousheh, H.R. Abedi, Seok Su Sohn, Junha Yang, M. Jaskari, L.P. Karjalainen & F. Berto. (2021) On the fatigue and dwell-fatigue behavior of a low-density steel and the correlated microstructure origin of damage mechanism. Journal of Materials Research and Technology 15, pages 6136-6154.
Crossref
Crossref
Arash P. Jirandehi & Michael M. Khonsari. (2021) General quantification of fatigue damage with provision for microstructure: A review. Fatigue & Fracture of Engineering Materials & Structures 44:8, pages 1973-1999.
Crossref
Crossref
T. Babinský, I. Kuběna, I. Šulák, T. Kruml, J. Tobiáš & J. Polák. (2021) Surface relief evolution and fatigue crack initiation in René 41 superalloy cycled at room temperature. Materials Science and Engineering: A 819, pages 141520.
Crossref
Crossref
S. Fintová, I. Kuběna, A. Chlupová, M. Jambor, I. Šulák, Z. Chlup & J. Polák. (2021) Frequency-dependent fatigue damage in polycrystalline copper analyzed by FIB tomography. Acta Materialia 211, pages 116859.
Crossref
Crossref
Y. Li, T.W. Morgan, T. Vermeij, J.W.M. Vernimmen, Th. Loewenhoff, J.P.M. Hoefnagels, J.A.W. van Dommelen, M. Wirtz, G. De Temmerman, K. Verbeken & M.G.D. Geers. (2021) Recrystallization-mediated crack initiation in tungsten under simultaneous high-flux hydrogen plasma loads and high-cycle transient heating. Nuclear Fusion 61:4, pages 046018.
Crossref
Crossref
Dianyin Hu, Jinchao Pan, Jianxing Mao, Xiaojun Guo, Haibin Ji & Rongqiao Wang. (2020) An anisotropic mesoscale model of fatigue failure in a titanium alloy containing duplex microstructure and hard α inclusions. Materials & Design 193, pages 108844.
Crossref
Crossref
Chandra S. Pande & Ramasis Goswami. (2020) Dislocation Emission and Crack Dislocation Interactions. Metals 10:4, pages 473.
Crossref
Crossref
G. V. Shlyakhova, M. V. Nadezhkin, S. A. Barannikova & L. B. Zuev. Study of deformation relief of polycrystalline nickel by atomic force microscopy. Study of deformation relief of polycrystalline nickel by atomic force microscopy.
Yanjun Wang, Ali Charbal, François Hild, Stéphane Roux & Ludovic Vincent. (2019) Crack initiation and propagation under thermal fatigue of austenitic stainless steel. International Journal of Fatigue 124, pages 149-166.
Crossref
Crossref
R. Goswami & C. S. Pande. 2019. Handbook of Mechanics of Materials. Handbook of Mechanics of Materials
2123
2142
.
Jaroslav Polák. 2019. TMS 2019 148th Annual Meeting & Exhibition Supplemental Proceedings. TMS 2019 148th Annual Meeting & Exhibition Supplemental Proceedings
1125
1135
.
Alejandro Barrios, Saurabh Gupta, Gustavo M. CastelluccioOlivier N. Pierron. (2018) Quantitative in Situ SEM High Cycle Fatigue: The Critical Role of Oxygen on Nanoscale-Void-Controlled Nucleation and Propagation of Small Cracks in Ni Microbeams. Nano Letters 18:4, pages 2595-2602.
Crossref
Crossref
R. Goswami & C. S. Pande. 2018. Handbook of Mechanics of Materials. Handbook of Mechanics of Materials
1
21
.
Zhengxuan Fan, Olivier Hardouin Duparc, Maxime Sauzay, Boubakar Diawara & Adri C.T. van Duin. (2017) Molecular dynamics simulations of surface oxidation and of surface slip irreversibility under fatigue in oxygen environment. Journal of Materials Research 32:23, pages 4327-4341.
Crossref
Crossref
Heinz Werner Höppel, Philip Goik, Christian Krechel & Mathias Göken. (2017) Ex and in situ investigations on the role of persistent slip bands and grain boundaries in fatigue crack initiation. Journal of Materials Research 32:23, pages 4276-4286.
Crossref
Crossref
Martin Detrois, John Rotella, Mark Hardy, Sammy Tin & Michael D. Sangid. (2017) Tailoring the Properties of a Ni-Based Superalloy via Modification of the Forging Process: an ICME Approach to Fatigue Performance. Integrating Materials and Manufacturing Innovation 6:4, pages 265-278.
Crossref
Crossref
J. Polák, V. Mazánová, M. Heczko, R. Petráš, I. Kuběna, L. Casalena & J. Man. (2017) The role of extrusions and intrusions in fatigue crack initiation. Engineering Fracture Mechanics 185, pages 46-60.
Crossref
Crossref
Rémi Munier, Cédric Doudard, Sylvain Calloch & Bastien Weber. (2017) Identification of the micro-plasticity mechanisms at the origin of self-heating under cyclic loading with low stress amplitude. International Journal of Fatigue 103, pages 122-135.
Crossref
Crossref
Saikumar R. Yeratapally, Michael G. Glavicic, Christos Argyrakis & Michael D. Sangid. (2017) Bayesian uncertainty quantification and propagation for validation of a microstructure sensitive model for prediction of fatigue crack initiation. Reliability Engineering & System Safety 164, pages 110-123.
Crossref
Crossref
J Polák, V Mazánová, M Heczko, I Kuběna & J Man. (2017) Profiles of persistent slip markings and internal structure of underlying persistent slip bands. Fatigue & Fracture of Engineering Materials & Structures 40:7, pages 1101-1116.
Crossref
Crossref
E A Alfyorova, D V Lychagin & D V Soprunov. (2017) The formation of a quasi-periodic surface profile by means of dislocation slip. Journal of Physics: Conference Series 803, pages 012002.
Crossref
Crossref
Ahmed M. Hussein & Jaafar A. El-Awady. (2016) Surface roughness evolution during early stages of mechanical cyclic loading. International Journal of Fatigue 87, pages 339-350.
Crossref
Crossref
Jaroslav Polák, Veronika Mazánová, Ivo Kuběna, Milan Heczko & Jiří Man. (2016) Surface Relief and Internal Structure in Fatigued Stainless Sanicro 25 Steel. Metallurgical and Materials Transactions A 47:5, pages 1907-1911.
Crossref
Crossref
Saikumar R. Yeratapally, Michael G. Glavicic, Mark Hardy & Michael D. Sangid. (2016) Microstructure based fatigue life prediction framework for polycrystalline nickel-base superalloys with emphasis on the role played by twin boundaries in crack initiation. Acta Materialia 107, pages 152-167.
Crossref
Crossref
André Pineau, David L. McDowell, Esteban P. Busso & Stephen D. Antolovich. (2016) Failure of metals II: Fatigue. Acta Materialia 107, pages 484-507.
Crossref
Crossref
Jaroslav Polák, Roman Petráš, Guocai Chai & Viktor Škorík. (2016) Surface profile evolution and fatigue crack initiation in Sanicro 25 steel at room temperature. Materials Science and Engineering: A 658, pages 221-228.
Crossref
Crossref
Zhengxuan Fan, Olivier Hardouin Duparc & Maxime Sauzay. (2016) Molecular dynamics simulation of surface step reconstruction and irreversibility under cyclic loading. Acta Materialia 102, pages 149-161.
Crossref
Crossref
S.-T. Tu & X.-C. Zhang. 2016. Reference Module in Materials Science and Materials Engineering. Reference Module in Materials Science and Materials Engineering.
J. Polák. 2016. Reference Module in Materials Science and Materials Engineering. Reference Module in Materials Science and Materials Engineering.
D. V. Lychagin, E. A. Alfyorova & A. S. Tailashev. (2015) Misorientation Development During the Formation of Macrobands in the [001] Nickel Single Crystals. Russian Physics Journal 58:5, pages 717-723.
Crossref
Crossref
Dmitry V. Lychagin & Ekaterina A. Alfyorova. (2015) Shear-Type Mechanisms of Deformation Development in Structural Elements of a Deformation Relief. Applied Mechanics and Materials 788, pages 211-217.
Crossref
Crossref
Bosco Yu, Khaled Abu Samk & Glenn D. Hibbard. (2015) Optimizing the Compressive Strength of Strain-Hardenable Stretch-Formed Microtruss Architectures. Metallurgical and Materials Transactions A 46:5, pages 1985-1994.
Crossref
Crossref
Piyas B. Chowdhury, Huseyin Sehitoglu & Richard G. Rateick. (2014) Predicting fatigue resistance of nano-twinned materials: Part I – Role of cyclic slip irreversibility and Peierls stress. International Journal of Fatigue 68, pages 277-291.
Crossref
Crossref
Jaroslav Polák & Jiří Man. (2014) Fatigue crack initiation – The role of point defects. International Journal of Fatigue 65, pages 18-27.
Crossref
Crossref
Hao Wu, Shigeru Hamada & Hiroshi Noguchi. (2014) Fatigue strength characteristics evaluation of SUH660 considering small fatigue crack propagation behavior and hardness distribution. International Journal of Fatigue 63, pages 1-11.
Crossref
Crossref
Maxime Sauzay & Jia Liu. (2014) Simulation of Surface Crack Initiation Induced by Slip Localization and Point Defect Kinetics. Advanced Materials Research 891-892, pages 542-548.
Crossref
Crossref
Petr Pauš, Jan Kratochvíl & Michal Beneš. (2013) A dislocation dynamics analysis of the critical cross-slip annihilation distance and the cyclic saturation stress in fcc single crystals at different temperatures. Acta Materialia 61:20, pages 7917-7923.
Crossref
Crossref
Arthur J. McEvily. 2013. Metal Failures. Metal Failures
237
292
.
R.H. Li, P. Zhang & Z.F. Zhang. (2013) Fatigue cracking and fracture behaviors of coarse-grained copper under cyclic tension–compression and torsion loadings. Materials Science and Engineering: A 574, pages 113-122.
Crossref
Crossref
M.S. Pham & S.R. Holdsworth. (2013) Role of microstructural condition on fatigue damage development of AISI 316L at 20 and 300°C. International Journal of Fatigue 51, pages 36-48.
Crossref
Crossref
Q.S. Pan, Q.H. Lu & L. Lu. (2013) Fatigue behavior of columnar-grained Cu with preferentially oriented nanoscale twins. Acta Materialia 61:4, pages 1383-1393.
Crossref
Crossref
Hael Mughrabi. (2013) Cyclic slip irreversibility and fatigue life: A microstructure-based analysis. Acta Materialia 61:4, pages 1197-1203.
Crossref
Crossref
Norbert Welsch, Jürgen Schwab & Claus Chr. LiebmannNorbert Welsch, Jürgen Schwab & Claus Chr. Liebmann. 2013. Materie. Materie
113
220
.
C. S. Pande. 2016. Fatigue of Materials II. Fatigue of Materials II
3
15
.
C. S. Pande. 2012. Fatigue of Materials II. Fatigue of Materials II
1
15
.
A. Steckmeyer, M. Sauzay, A. Weidner & E. Hieckmann. (2012) Micromechanical modelling of the cyclic stress–strain behaviour of nickel polycrystals. International Journal of Fatigue 40, pages 154-167.
Crossref
Crossref
M. Sauzay & L.P. Kubin. (2011) Scaling laws for dislocation microstructures in monotonic and cyclic deformation of fcc metals. Progress in Materials Science 56:6, pages 725-784.
Crossref
Crossref
W.Z. Han, A. Vinogradov & C.R. Hutchinson. (2011) On the reversibility of dislocation slip during cyclic deformation of Al alloys containing shear-resistant particles. Acta Materialia 59:9, pages 3720-3736.
Crossref
Crossref
Chandra S. Pande. 2010. Fatigue of Materials. Fatigue of Materials
317
325
.
C. S. Pande, M.A. Imam & T. S. Srivatsan. 2010. Fatigue of Materials. Fatigue of Materials
1
18
.
Hael Mughrabi. (2010) Fatigue, an everlasting materials problem - still en vogue. Procedia Engineering 2:1, pages 3-26.
Crossref
Crossref
Hael Mughrabi. (2009) Cyclic Slip Irreversibilities and the Evolution of Fatigue Damage. Metallurgical and Materials Transactions B 40:4, pages 431-453.
Crossref
Crossref
Hael Mughrabi. (2009) Cyclic Slip Irreversibilities and the Evolution of Fatigue Damage. Metallurgical and Materials Transactions A 40:6, pages 1257-1279.
Crossref
Crossref
Z.F. Zhang & Z.G. Wang. (2008) Grain boundary effects on cyclic deformation and fatigue damage. Progress in Materials Science 53:7, pages 1025-1099.
Crossref
Crossref
V. I. Izotov, V. A. Pozdnyakov, E. V. Luk’yanenko, M. E. Getmanova & G. A. Philippov. (2008) Evolution of the dislocation structure and the formation of fatigue microcracks in pearlitic-ferritic steels. The Physics of Metals and Metallography 105:5, pages 517-527.
Crossref
Crossref
Jaroslav Polák. (2007) Mechanisms and kinetics of the early fatigue damage in crystalline materials. Materials Science and Engineering: A 468-470, pages 33-39.
Crossref
Crossref
Q.S. Zhu, Z.F. Zhang, J.K. Shang & Z.G. Wang. (2006) Fatigue damage mechanisms of copper single crystal/Sn–Ag–Cu interfaces. Materials Science and Engineering: A 435-436, pages 588-594.
Crossref
Crossref
Subra Suresh. 2006. Materials Science and Technology. Materials Science and Technology.
J.H. Yang, Xiao Ping Zhang, Yiu Wing Mai & W. Yan. (2006) Observation of Dislocation Microstructures and Simulation of Stress Field during Fatigue Crack Initiation in a Copper Single Crystal. Key Engineering Materials 312, pages 71-76.
Crossref
Crossref
A. Shyam & W.W. Milligan. (2005) A model for slip irreversibility, and its effect on the fatigue crack propagation threshold in a nickel-base superalloy. Acta Materialia 53:3, pages 835-844.
Crossref
Crossref
B.L. Boyce, J.R. Michael & P.G. Kotula. (2004) Fatigue of metallic microdevices and the role of fatigue-induced surface oxides. Acta Materialia 52:6, pages 1609-1619.
Crossref
Crossref
Z.F. Zhang & Z.G. Wang. (2003) Dependence of intergranular fatigue cracking on the interactions of persistent slip bands with grain boundaries. Acta Materialia 51:2, pages 347-364.
Crossref
Crossref
J. Polák. 2003. Comprehensive Structural Integrity. Comprehensive Structural Integrity
1
39
.
M. Sauzay & P. Gilormini. (2002) Influence of surface effects on fatigue of microcracks nucleation. Theoretical and Applied Fracture Mechanics 38:1, pages 53-62.
Crossref
Crossref
Takashi Yamasaki, Yoshihisa Kaneko, Hiroyuki Miyamoto, Satoshi Hashimoto & Takuro Mimaki. (2001) Tensile orientation dependence of surface-roughness evolution in cyclically deformed Fe–30%Cr alloy single crystals. Materials Science and Engineering: A 319-321, pages 569-573.
Crossref
Crossref
C Robertson, M.C Fivel & A Fissolo. (2001) Dislocation substructure in 316L stainless steel under thermal fatigue up to 650 K. Materials Science and Engineering: A 315:1-2, pages 47-57.
Crossref
Crossref
Shrikant P. Bhat & Morris E. Fine. (2001) Fatigue crack nucleation in iron and a high strength low alloy steel. Materials Science and Engineering: A 314:1-2, pages 90-96.
Crossref
Crossref
J. Malarrı́a, M. Sade & F. Lovey. (2001) Microstructural evolution in the pseudoelastic cycling of Cu–Zn–Al single crystals: behavior at a transition stage. Materials Science and Engineering: A 308:1-2, pages 88-100.
Crossref
Crossref
Mughrabi. (2001) On the life‐controlling microstructural fatigue mechanisms in ductile metals and alloys in the gigacycle regime. Fatigue & Fracture of Engineering Materials & Structures 22:7, pages 633-641.
Crossref
Crossref
J. Polák. 1998. Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials. Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials
493
504
.
. 1997. Werkstoffermüdung — Ermüdungsfestigkeit. Werkstoffermüdung — Ermüdungsfestigkeit
269
282
.
D.S. Yan, H.B. Qiu, Y.S. Zheng & L. Gao. (1997) Bulk nanostructured oxide materials and the superplastic behavior under tensile fatigue at ambient environment. Nanostructured Materials 9:1-8, pages 441-450.
Crossref
Crossref
T. Zhai, J.W. Martin & G.A.D. Briggs. (1995) Fatigue damage in aluminum single crystals—I. On the surface containing the slip burgers vector. Acta Metallurgica et Materialia 43:10, pages 3813-3825.
Crossref
Crossref
S.N. Rosenbloom & C. Laird. (1993) Fatigue crack nucleation based on a random slip process—I. Computer model. Acta Metallurgica et Materialia 41:12, pages 3473-3482.
Crossref
Crossref
T.S. Sriram, Chin-Ming Ke & Y.W. Chung. (1993) Fatigue deformation of silver single crystals: STM evidence for crack nucleation, measurements of slip irreversibility and verification of a new scaling relationship for fatigue life. Acta Metallurgica et Materialia 41:8, pages 2515-2521.
Crossref
Crossref
Wei‐di Cao & Hans Conrad. (2007) ON THE EFFECT OF PERSISTENT SLIP BAND (PSB) PARAMETERS ON FATIGUE LIFE. Fatigue & Fracture of Engineering Materials & Structures 15:6, pages 573-583.
Crossref
Crossref
Sun Ig Hong, Campbell Laird, Harold Margolin & Zhirui Wang. (1992) Surface effects in fatigue of planar slip alloys. Scripta Metallurgica et Materialia 26:10, pages 1517-1522.
Crossref
Crossref
G. Venkataraman, Y.W. Chung & T. Mura. (1991) Application of minimum energy formalism in a multiple slip band model for fatigue—II. Crack nucleation and derivation of a generalised Coffin-Manson law. Acta Metallurgica et Materialia 39:11, pages 2631-2638.
Crossref
Crossref
M. Bayerlein & H. Mughrabi. (1991) The formation of wither tongue- or ribbon-like extrusions in fatigued copper polycrystals. Acta Metallurgica et Materialia 39:7, pages 1645-1650.
Crossref
Crossref
Sun Ig Hong & Campbell Laird. (2007) FATIGUE CRACK INITIATION AND GROWTH BEHAVIOR OF Cu‐16 at.% A1 SINGLE CRYSTALS. Fatigue & Fracture of Engineering Materials & Structures 14:2-3, pages 143-169.
Crossref
Crossref
P.J. Jackson. (1989) Stress concentrations and the Mott mechanism in fatigue failure. Materials Science and Engineering: A 119, pages 1-6.
Crossref
Crossref
K. Differt, U. Essmann & H. Mughrabi. (1987) Models of particle destruction in fatigued precipitation-hardened alloys. Physica Status Solidi (a) 104:1, pages 95-106.
Crossref
Crossref