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M. Bartošák, C. Novotný, M. Španiel & K. Doubrava. (2019) Life assessment of SiMo 4.06 cast iron under LCF and TMF loading conditions. Materials at High Temperatures 36:4, pages 285-295.
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W-. T. Yan, S. Holdsworth, I. Kühn & E. Mazza. (2014) Creep–fatigue crack development from short crack starters. Materials at High Temperatures 31:4, pages 305-314.
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R. P. Skelton. (2013) Bauschinger yield in the range 400–1025°C during cyclic deformation of high temperature alloys. Materials at High Temperatures 30:4, pages 241-260.
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R. P. Skelton. (2013) The energy density exhaustion method for assessing the creep-fatigue lives of specimens and components. Materials at High Temperatures 30:3, pages 183-201.
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R. P. Skelton. (2013) Low cycle fatigue specimen design, hardening, softening and strain concentration effects at elevated temperatures. Materials at High Temperatures 30:2, pages 99-116.
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R.P. Skelton. (2011) Direct and indirect strain measurement during low cycle fatigue of metals at elevated temperature. Materials at High Temperatures 28:1, pages 58-73.
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Guillaume Morin, Jean-Marc Cardona, Olivier Prince, Maurice Pendola & Frederic Perrin. (2009) Reliability assessment of innovative designs in automotive industry. Structure and Infrastructure Engineering 5:5, pages 367-379.
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A. Akdogan & A. Koyun. (2007) Heat transfer analysis and material behaviour of martensitic steel during thermal cycling process. Materials Science and Technology 23:9, pages 1093-1100.
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R. P. Skelton. (2002) Cyclic stress-strain properties of service-exposed ferritic steels for use in thermal fatigue assessments. Materials at High Temperatures 19:4, pages 193-213.
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R. Hales, S. R. Holdsworth, M. P. O’Donnell, I. J. Perrin & R. P. Skelton. (2002) A Code of Practice for the determination of cyclic stress-strain data. Materials at High Temperatures 19:4, pages 165-185.
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R. P. Skelton, S.T Wee & G. A. Webster. (2001) Cyclic stress–strain behaviour of circumferentially notched cylindrical bars at high temperature. Materials at High Temperatures 18:3, pages 139-152.
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E. Charkaluk & A. Constantinescu. (2000) An energetic approach in thermomechanical fatigue for silicon molybdenum cast iron. Materials at High Temperatures 17:3, pages 373-380.
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R. P. Skelton & C. A. P. Horton. (1999) The effect of thermal ageing and mechanical exposure on low cycle creep-fatigue strength of 316 steel at 625°C. Materials at High Temperatures 16:2, pages 87-97.
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R. P. Skelton & M. S. Loveday. (1997) A re-interpretation of the BCR/VAMAS low cycle fatigue intercomparison programme using an energy criterion. Materials at High Temperatures 14:1, pages 53-68.
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O. Mallet, C. C. Engler-Pinto$suffix/text()$suffix/text(), F. Rézaï-Aria, R. P. Skelton, K. Nikbin & G. A. Webster. (1995) Influence of material stress—strain characteristics on thermomechanical fatigue analysis of IN100 superalloy. Materials at High Temperatures 13:1, pages 47-54.
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R. P. Skelton. (1994) Bauschinger and yield effects during cyclic loading of high temperature alloys at 550°C. Materials Science and Technology 10:7, pages 627-639.
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R. P. Skelton. (1993) Cyclic hardening, softening, and crack growth during high temperature fatigue. Materials Science and Technology 9:11, pages 1001-1008.
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Guoxi Jing, Shuai Sun, Teng Ma, Shubo Li, Tian Ma, Junchao Wei & Jianchao Pang. (2024) Prediction of thermomechanical fatigue life in RuT450 compacted graphite cast iron cylinder heads using the Neu/Sehitoglu model. Engineering Failure Analysis 156, pages 107767.
Crossref
Crossref
Peng Hu, Kun Liu, Lei Pan & X.-Grant Chen. (2023) Effect of Mg on elevated-temperature low cycle fatigue and thermo-mechanical fatigue behaviors of Al-Cu cast alloys. Materials Science and Engineering: A 885, pages 145588.
Crossref
Crossref
Mariano Lorenzini, Saverio Giulio Barbieri, Valerio Mangeruga & Matteo Giacopini. (2023) Development of an experimental/numerical validation methodology for the design of exhaust manifolds of high performance internal combustion engines. Engineering Failure Analysis 152, pages 107526.
Crossref
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Minh Tien Tran, Sun-Kwang Hwang, A Ra Jo, Ho Won Lee & Dong-Kyu Kim. (2023) In-situ EBSD observation and simulation of free surface roughening and ductile failure in the ultra-thin ferritic stainless steel sheet. Materials Science and Engineering: A 883, pages 145489.
Crossref
Crossref
Michal Bartošák & Jakub Horváth. (2023) Isothermal low-cycle fatigue, fatigue–creep and thermo-mechanical fatigue of SiMo 4.06 cast iron: Damage mechanisms and life prediction. Engineering Fracture Mechanics 288, pages 109316.
Crossref
Crossref
Run-Zi Wang, Xian-Cheng Zhang, Hang-Hang Gu, Kai-Shang Li, Jian-Feng Wen, Hideo Miura, Ken Suzuki & Shan-Tung Tu. (2023) Oxidation-involved life prediction and damage assessment under generalized creep-fatigue loading conditions based on engineering damage mechanics. Journal of Materials Research and Technology 23, pages 114-130.
Crossref
Crossref
Guozheng Kang, Chao Yu & Qianhua KanGuozheng Kang, Chao Yu & Qianhua Kan. 2023. Thermo-Mechanically Coupled Cyclic Deformation and Fatigue Failure of NiTi Shape Memory Alloys. Thermo-Mechanically Coupled Cyclic Deformation and Fatigue Failure of NiTi Shape Memory Alloys
261
293
.
Liujie Xu, Wanli Song, Zhaolin Jiao, Zhaoning Xu, Tielong Sun & Shizhong Wei. (2022) Evaluating cycle fatigue property of molybdenum alloy by new developed fatigue model. International Journal of Refractory Metals and Hard Materials 107, pages 105907.
Crossref
Crossref
Kai Song, Lei Zhao, Lianyong Xu, Yongdian Han & Kangda Hao. (2022) A modified energy model including mean stress and creep threshold stress effect for creep–fatigue life prediction. Fatigue & Fracture of Engineering Materials & Structures 45:5, pages 1299-1316.
Crossref
Crossref
Biao Ding, Weili Ren, Yunbo Zhong, Xiaotan Yuan, Jianchao Peng, Tianxiang Zheng, Zhe Shen, Yifeng Guo, Weidong Xuan, Jianbo Yu, Josip Brnic & Peter K. Liaw. (2021) Accuracy of the predicting for creep-fatigue cyclic life based on parameters in a characteristic cycle. Engineering Fracture Mechanics 255, pages 107955.
Crossref
Crossref
Veerappan Prithivirajan, Priya Ravi, Diwakar Naragani & Michael D. Sangid. (2021) Direct comparison of microstructure-sensitive fatigue crack initiation via crystal plasticity simulations and in situ high-energy X-ray experiments. Materials & Design 197, pages 109216.
Crossref
Crossref
Jianfeng Mao, Xiangyang Li, Dasheng Wang, Fengping Zhong, Lijia Luo, Shiyi Bao & Zhenyu Ding. (2021) Experimental study on creep-fatigue behaviors of chinese P92 steel with consideration of several important factors. International Journal of Fatigue 142, pages 105900.
Crossref
Crossref
N. Antoni. (2020) Derivation and analysis of a combined fretting wear-fatigue model based on the asymptotic equivalence between perfect plasticity and friction. International Journal of Solids and Structures 204-205, pages 1-17.
Crossref
Crossref
F. Szmytka, E. Charkaluk, A. Constantinescu & P. Osmond. (2020) Probabilistic Low Cycle Fatigue criterion for nodular cast-irons. International Journal of Fatigue 139, pages 105701.
Crossref
Crossref
Veerappan Prithivirajan & Michael D. Sangid. (2020) Examining metrics for fatigue life predictions of additively manufactured IN718 via crystal plasticity modeling including the role of simulation volume and microstructural constraints. Materials Science and Engineering: A 783, pages 139312.
Crossref
Crossref
M. Wang, J.C. Pang, H.Q. Liu, S.X. Li, M.X. Zhang & Z.F. Zhang. (2020) Effect of constraint factor on the thermo-mechanical fatigue behavior of an Al-Si eutectic alloy. Materials Science and Engineering: A 783, pages 139279.
Crossref
Crossref
Eugenio Brusa, Enrico Ossola, Raffaele Bonavolontà & Andrea Mazzetto. (2020) LCF/TMF Model Based Approach for the Prediction of Fatigue Life of Components in Lightweight Automotive Engines. International Journal of Automotive Technology 21:2, pages 297-308.
Crossref
Crossref
S. M. Sivachev & L. L. Myagkov. 2020. Proceedings of the 5th International Conference on Industrial Engineering (ICIE 2019). Proceedings of the 5th International Conference on Industrial Engineering (ICIE 2019)
109
117
.
Sinan Su, Francy John Akkara, Ravinder Thaper, Atif Alkhazali, Mohammad Hamasha & Sa'd Hamasha. (2019) A State-of-the-Art Review of Fatigue Life Prediction Models for Solder Joint. Journal of Electronic Packaging 141:4.
Crossref
Crossref
Michal Bartošák, Jakub Horváth & Miroslav Španiel. (2019) Life assessment of a 42CrMo4 steel under low-cycle fatigue and thermo-mechanical fatigue loading conditions. International Journal of Fatigue 129, pages 105255.
Crossref
Crossref
Michal Bartošák, Miroslav Španiel & Karel Doubrava. (2019) Thermo-mechanical fatigue of SiMo 4.06 turbocharger turbine housing: Damage operator approach. Engineering Failure Analysis 105, pages 736-755.
Crossref
Crossref
Benjamin Josef Schäfer, Petra Sonnweber-Ribic, Hamad ul Hassan & Alexander Hartmaier. (2019) Micromechanical Modelling of the Influence of Strain Ratio on Fatigue Crack Initiation in a Martensitic Steel-A Comparison of Different Fatigue Indicator Parameters. Materials 12:18, pages 2852.
Crossref
Crossref
Szmytka, Osmond, Rémy, Masson, Forré & Hoche. (2019) Some Recent Advances on Thermal–Mechanical Fatigue Design and Upcoming Challenges for the Automotive Industry. Metals 9:7, pages 794.
Crossref
Crossref
Cristiana Delprete & Raffaella Sesana. (2019) Proposal of a new low-cycle fatigue life model for cast iron with room temperature calibration involving mean stress and high-temperature effects. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 233:14, pages 5056-5073.
Crossref
Crossref
Di Song, Guozheng Kang, Chao Yu, Qianhua Kan & Chuanzeng Zhang. (2019) Torsional whole-life transformation ratchetting under pure-torsional and non-proportional multiaxial cyclic loadings of NiTi SMA at human-body temperature: Experimental observations and life-prediction model. Journal of the Mechanical Behavior of Biomedical Materials 94, pages 267-278.
Crossref
Crossref
Martin Nesládek, Milan Růžička, Maxim Lutovinov, Jiří Kuželka, Radek Procházka, Martin Rund & Petr Měšťánek. (2019) Thermo-Mechanical Fatigue of a CrMo Steel Applicable to Steam Turbine Shafts. Procedia Structural Integrity 19, pages 231-237.
Crossref
Crossref
Biao Ding, Weili Ren, Jianchao Peng, Tianxiang Zheng, Long Hou, Jianbo Yu, Zhongmin Ren & Yunbo Zhong. (2019) Damage mechanism and life prediction based on tensile-stress- and compressive-stress-dominated low-cycle fatigue of a directionally solidified Ni-based superalloy DZ445. Materials Science and Engineering: A 742, pages 478-492.
Crossref
Crossref
Sebastien Dezecot, Matthieu Rambaudon, Alain Koster, Fabien Szmytka, Vincent Maurel & Jean-Yves Buffiere. (2019) Fatigue crack growth under large scale yielding condition in a cast automotive aluminum alloy. Materials Science and Engineering: A 743, pages 87-97.
Crossref
Crossref
Z Achegaf & A Khamlichi. (2018) Estimation of the duration life in thermomechanical fatigue using finite element post- processing. IOP Conference Series: Materials Science and Engineering 324, pages 012074.
Crossref
Crossref
M. Wang, J.C. Pang, M.X. Zhang, H.Q. Liu, S.X. Li & Z.F. Zhang. (2018) Thermo-mechanical fatigue behavior and life prediction of the Al-Si piston alloy. Materials Science and Engineering: A 715, pages 62-72.
Crossref
Crossref
M. Wang, J.C. Pang, S.X. Li & Z.F. Zhang. (2017) Low-cycle fatigue properties and life prediction of Al-Si piston alloy at elevated temperature. Materials Science and Engineering: A 704, pages 480-492.
Crossref
Crossref
V. Maurel, A. Köster, L. Rémy, M. Rambaudon, D. Missoum-Benziane, V. Fontanet, F. Salgado-Goncalves, A. Heudt, H. Wang & M. Trabelsi. (2017) Fatigue crack growth under large scale yielding condition: The need of a characteristic length scale. International Journal of Fatigue 102, pages 184-201.
Crossref
Crossref
Run-Zi Wang, Xian-Cheng Zhang, Jian-Guo Gong, Xu-Min Zhu, Shan-Tung Tu & Cheng-Cheng Zhang. (2017) Creep-fatigue life prediction and interaction diagram in nickel-based GH4169 superalloy at 650 °C based on cycle-by-cycle concept. International Journal of Fatigue 97, pages 114-123.
Crossref
Crossref
Run-Zi Wang, Xian-Cheng Zhang, Shan-Tung Tu, Shun-Peng Zhu & Cheng-Cheng Zhang. (2016) A modified strain energy density exhaustion model for creep–fatigue life prediction. International Journal of Fatigue 90, pages 12-22.
Crossref
Crossref
Ahmed Ktari, Nader Haddar, Farhad Rezai-Aria & Hassine Ferid Ayedi. (2016) On the assessment of train crankshafts fatigue life based on LCF tests and 2D-FE evaluation of J-integral. Engineering Failure Analysis 66, pages 354-364.
Crossref
Crossref
Shun-Peng Zhu, Hong-Zhong Huang, Weiwen Peng, Hai-Kun Wang & Sankaran Mahadevan. (2016) Probabilistic Physics of Failure-based framework for fatigue life prediction of aircraft gas turbine discs under uncertainty. Reliability Engineering & System Safety 146, pages 1-12.
Crossref
Crossref
R.P. Skelton. 2016. Reference Module in Materials Science and Materials Engineering. Reference Module in Materials Science and Materials Engineering.
X.G. Wang, V. Crupi, C. Jiang & E. Guglielmino. (2015) Quantitative Thermographic Methodology for fatigue life assessment in a multiscale energy dissipation framework. International Journal of Fatigue 81, pages 249-256.
Crossref
Crossref
Guozheng Kang & Di Song. (2015) Review on structural fatigue of NiTi shape memory alloys: Pure mechanical and thermo-mechanical ones. Theoretical and Applied Mechanics Letters 5:6, pages 245-254.
Crossref
Crossref
Di Song, Guozheng Kang, Qianhua Kan, Chao Yu & Chuanzeng Zhang. (2015) Damage-based life prediction model for uniaxial low-cycle stress fatigue of super-elastic NiTi shape memory alloy microtubes. Smart Materials and Structures 24:8, pages 085007.
Crossref
Crossref
Giovanni Meneghetti, Mauro Ricotta & Bruno Atzori. (2015) Experimental evaluation of fatigue damage in two-stage loading tests based on the energy dissipation. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 229:7, pages 1280-1291.
Crossref
Crossref
F. Szmytka, M. Salem, F. Rézaï-Aria & A. Oudin. (2015) Thermal fatigue analysis of automotive Diesel piston: Experimental procedure and numerical protocol. International Journal of Fatigue 73, pages 48-57.
Crossref
Crossref
Ya-Nan Fan, Hui-Ji Shi & Kenji Tokuda. (2015) A generalized hysteresis energy method for fatigue and creep-fatigue life prediction of 316L(N). Materials Science and Engineering: A 625, pages 205-212.
Crossref
Crossref
F. Auricchio, A. Constantinescu & G. Scalet. (2014)
Fatigue of 316L stainless steel notched
m-size components
. International Journal of Fatigue 68, pages 231-247.
Crossref
Crossref
Maobin Liu, Bang-Quan He & Hua Zhao. Combustion and Emission Characteristics of a HCCI Engine Fuelled with Different n-Butanol-Gasoline Blends. Combustion and Emission Characteristics of a HCCI Engine Fuelled with Different n-Butanol-Gasoline Blends.
A. Benoit, L. Rémy, A. Köster, H. Maitournam & F. Oger. (2014) Experimental investigation of the behavior and the low cycle fatigue life of a welded structure. Materials Science and Engineering: A 595, pages 64-76.
Crossref
Crossref
Wentao YanStuart HoldsworthIngo KühnEdoardo Mazza. (2014) Short Creep-Fatigue Crack Growth in an Advanced 9 %Cr Steel. Materials Performance and Characterization 3:2, pages 20130081.
Crossref
Crossref
Simone Sissa, Matteo Giacopini & Roberto Rosi. (2014) Low-cycle Thermal Fatigue and High-cycle Vibration Fatigue Life Estimation of a Diesel Engine Exhaust Manifold. Procedia Engineering 74, pages 105-112.
Crossref
Crossref
G. H. Farrahi, M. Azadi, G. Winter & W. Eichlseder. (2013) A new energy‐based isothermal and thermo‐mechanical fatigue lifetime prediction model for aluminium–silicon–magnesium alloy. Fatigue & Fracture of Engineering Materials & Structures 36:12, pages 1323-1335.
Crossref
Crossref
G. Meneghetti, M. Ricotta & B. Atzori. (2013) A synthesis of the push‐pull fatigue behaviour of plain and notched stainless steel specimens by using the specific heat loss. Fatigue & Fracture of Engineering Materials & Structures 36:12, pages 1306-1322.
Crossref
Crossref
Chang Liu & Wei Zheng Zhang. (2012) Lifetime Prediction of Thermo-Mechanical Fatigue for Exhaust Manifold. Advanced Materials Research 433-440, pages 9-17.
Crossref
Crossref
A. Launay, M.H. Maitournam, Y. Marco, I. Raoult & F. Szmytka. (2011) Cyclic behaviour of short glass fibre reinforced polyamide: Experimental study and constitutive equations. International Journal of Plasticity 27:8, pages 1267-1293.
Crossref
Crossref
Joseph Oldham & Jeries Abou-Hanna. (2011) A numerical investigation of creep-fatigue life prediction utilizing hysteresis energy as a damage parameter. International Journal of Pressure Vessels and Piping 88:4, pages 149-157.
Crossref
Crossref
Stefano Fontanesi, Giuseppe Cicalese & Matteo Giacopini. Multiphase CFD-CHT Analysis and Optimization of the Cooling Jacket in a V6 Diesel Engine. Multiphase CFD-CHT Analysis and Optimization of the Cooling Jacket in a V6 Diesel Engine.
J D Hochhalter, D J Littlewood, R J ChristJrJr, M G Veilleux, J E Bozek, A R Ingraffea & A M Maniatty. (2010) A geometric approach to modeling microstructurally small fatigue crack formation: II. Physically based modeling of microstructure-dependent slip localization and actuation of the crack nucleation mechanism in AA 7075-T651. Modelling and Simulation in Materials Science and Engineering 18:4, pages 045004.
Crossref
Crossref
Warwick M. Payten, David W. Dean & Ken U. Snowden. (2010) A strain energy density method for the prediction of creep–fatigue damage in high temperature components. Materials Science and Engineering: A 527:7-8, pages 1920-1925.
Crossref
Crossref
Barbara Reggiani, Marco D’Ascenzo, Lorenzo Donati, Jie Zhou & Luca Tomesani. (2009) Creep-Fatigue Interaction in the AISI H11 Tool Steel. Key Engineering Materials 424, pages 205-212.
Crossref
Crossref
S. Fontanesi, D. Carpentiero, S. Malaguti, M. Giacopini, S. Margini & L. Arnone. A New Decoupled CFD and FEM Methodology for the Fatigue Strength Assessment of an Engine Head. A New Decoupled CFD and FEM Methodology for the Fatigue Strength Assessment of an Engine Head.
D. Carpentiero, S. Fontanesi, V. Gagliardi, S. Malaguti, S. Margini, M. Giacopini, A. Strozzi, L. Arnone, M. Bonanni & D. Franceschini. Thermo-mechanical analysis of an engine head by means of integrated CFD and FEM. Thermo-mechanical analysis of an engine head by means of integrated CFD and FEM.
Onome Scott-Emuakpor, M.-H. Herman Shen, Tommy George, Charles J. Cross & Jeffrey Calcaterra. (2007) Development of an Improved High Cycle Fatigue Criterion. Journal of Engineering for Gas Turbines and Power 129:1, pages 162-169.
Crossref
Crossref
Sébastien Amiable, Stéphane Chapuliot, Andreï Constantinescu & Antoine Fissolo. (2006) A comparison of lifetime prediction methods for a thermal fatigue experiment. International Journal of Fatigue 28:7, pages 692-706.
Crossref
Crossref
R. P Skelton & G. A Webster. (2006) Axial and Diametral Cyclic Stress—Strain Response in Plain and Circumferentially Notched Cylindrical Bars at 550 °C. The Journal of Strain Analysis for Engineering Design 41:4, pages 265-286.
Crossref
Crossref
F. Zieher, F. Langmayr, A. Jelatancev & K. Wieser. Thermal Mechanical Fatigue Simulation of Cast iron Cylinder Heads. Thermal Mechanical Fatigue Simulation of Cast iron Cylinder Heads.
J. J. THOMAS, L. VERGER, A. BIGNONNET & E. CHARKALUK. (2004) Thermomechanical design in the automotive industry. Fatigue & Fracture of Engineering Materials & Structures 27:10, pages 887-895.
Crossref
Crossref
Éric Charkaluk, André Bignonnet & Jean-Jacques Thomas. (2004) Dimensionnement à la fatigue thermomécanique de structures dans l'industrie automobile. Mécanique & Industries 5:1, pages 27-40.
Crossref
Crossref
R.P. Skelton. 2003. Comprehensive Structural Integrity. Comprehensive Structural Integrity
158
241
.
R.P. Skelton. 2003. Comprehensive Structural Integrity. Comprehensive Structural Integrity
25
112
.
E. Charkaluk, A. Bignonnet, A. Constantinescu & K. Dang Van. (2003) Fatigue design of structures under thermomechanical loadings. Fatigue & Fracture of Engineering Materials & Structures 25:12, pages 1199-1206.
Crossref
Crossref
J. J. Thomas, L. Verger, A. Bignonnet & S. Martin Borret. Thermomecanical Design in the Automotive Industry. Thermomecanical Design in the Automotive Industry.
Guy Lederer, Eric Charkaluk, Laetitia Verger & Andrei Constantinescu. Numerical Lifetime Assessment of Engine Parts Submitted to Thermomechanical Fatigue, Application to Exhaust Manifold Design. Numerical Lifetime Assessment of Engine Parts Submitted to Thermomechanical Fatigue, Application to Exhaust Manifold Design.
E. Charkaluk, A. Constantinescu, A. Bignonnet & K. Dang Van. 1998. Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials. Low Cycle Fatigue and Elasto-Plastic Behaviour of Materials
815
820
.
H.J Maier & H.-J Christ. (1997) Modeling of cyclic stress–strain behavior and damage mechanisms under thermomechanical fatigue conditions. International Journal of Fatigue 19:93, pages 267-274.
Crossref
Crossref
A.W. Godfrey & J.W. Martin. (1997) The effect of directional recrystallization on the low cycle fatigue response of a powder metallurgy nickel-based superalloy at elevated temperatures. Materials Science and Engineering: A 222:2, pages 91-100.
Crossref
Crossref
R.P. Skelton & G.A. Webster. (1996) History effects on the cyclic stress—strain response of a polycrystalline and single crystal nickel-base superalloy. Materials Science and Engineering: A 216:1-2, pages 139-154.
Crossref
Crossref
R. P. Skelton, C. J. Rees & G. A. Webster. (2007) ENERGY DAMAGE SUMMATION METHODS FOR CRACK INITIATION AND GROWTH DURING BLOCK LOADING IN HIGH‐TEMPERATURE LOW‐CYCLE FATIGUE. Fatigue & Fracture of Engineering Materials & Structures 19:2-3, pages 287-297.
Crossref
Crossref
R. P. Skelton. (2007) THE DETERMINATION OF HYSTERESIS LOOPS IN THERMO‐MECHANICAL FATIGUE USING ISOTHERMAL STRESS‐STRAIN DATA. Fatigue & Fracture of Engineering Materials & Structures 17:4, pages 479-496.
Crossref
Crossref