High-cycle bending fatigue behavior of TC6 titanium alloy subjected to laser shock peening assisted by cryogenic temperature
出版年份 2021 全文链接
标题
High-cycle bending fatigue behavior of TC6 titanium alloy subjected to laser shock peening assisted by cryogenic temperature
作者
关键词
Cryogenic laser shock peening, TC6 titanium alloy, Microstructural evolution, Residual stress, High-cycle bending fatigue
出版物
SURFACE & COATINGS TECHNOLOGY
Volume 409, Issue -, Pages 126848
出版商
Elsevier BV
发表日期
2021-01-11
DOI
10.1016/j.surfcoat.2021.126848
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Laser cavitation peening of gray cast iron: Effect of coverage layer on the surface integrity
- (2020) Jiayang Gu et al. APPLIED SURFACE SCIENCE
- Gradient microstructure and vibration fatigue properties of 2024-T351 aluminium alloy treated by laser shock peening
- (2020) Xian-kai Meng et al. SURFACE & COATINGS TECHNOLOGY
- Influences of correlations between biaxial random vibrations on the fatigue lives of notched metallic specimens
- (2020) Zhengbo Luo et al. INTERNATIONAL JOURNAL OF FATIGUE
- Effect of different hardness units on fatigue wear resistence of low hardenability steel
- (2020) Siyang Wang et al. OPTICS AND LASER TECHNOLOGY
- Simultaneously enhancing mechanical properties and damping capacity of pure titanium subjected to cryogenic laser peening
- (2019) Jing Li et al. MATERIALS LETTERS
- Gradient plastic strain accommodation and nanotwinning in multi-pass laser shock peened 321 steel
- (2019) D. Karthik et al. APPLIED SURFACE SCIENCE
- Effect of grain size on fatigue cracking at twin boundaries in a CoCrFeMnNi high-entropy alloy
- (2019) A.G. Wang et al. JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
- The reinforcement role of deep cryogenic treatment on the strength and toughness of alloy structural steel
- (2019) Zeju Weng et al. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
- Corrosion behavior of NiTi alloy subjected to femtosecond laser shock peening without protective coating in air environment
- (2019) Hao Wang et al. APPLIED SURFACE SCIENCE
- Effect of laser peening with different power densities on vibration fatigue resistance of hydrogenated TC4 titanium alloy
- (2019) Shu Huang et al. INTERNATIONAL JOURNAL OF FATIGUE
- Twin formation and its strengthening mechanism of pure titanium processed by cryogenic laser peening
- (2019) Jing Li et al. OPTICS AND LASER TECHNOLOGY
- Unified modelling of the flow behaviour and softening mechanism of a TC6 titanium alloy during hot deformation
- (2018) Junling Li et al. JOURNAL OF ALLOYS AND COMPOUNDS
- Deformation of single and multiple laser peened TC6 titanium alloy
- (2018) A. Umapathi et al. OPTICS AND LASER TECHNOLOGY
- Investigation on mechanical properties and microstructural evolution of TC6 titanium alloy subjected to laser peening at cryogenic temperature
- (2018) Jing Li et al. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
- Laser shock peening induced fatigue crack retardation in Ti-17 titanium alloy
- (2018) Rujian Sun et al. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
- Effect of microstructure on high cycle fatigue behavior of brass processed by laser shock peening
- (2018) Lin Liu et al. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
- Influence of laser peening without coating on microstructure and fatigue limit of Ti-15V-3Al-3Cr-3Sn
- (2018) S. Sudhagara Rajan et al. OPTICS AND LASER TECHNOLOGY
- Surface EBSD analysis and strengthening mechanism of AISI304 stainless steel subjected to massive LSP treatment with different pulse energies
- (2017) J.Z. Lu et al. MATERIALS CHARACTERIZATION
- Phase gradient in a laser peened TC6 titanium alloy analyzed using synchrotron radiation
- (2017) A. Umapathi et al. MATERIALS CHARACTERIZATION
- Enhanced damping capacity of magnesium alloys by tensile twin boundaries
- (2015) Yujie Cui et al. SCRIPTA MATERIALIA
- Cryogenic ultrahigh strain rate deformation induced hybrid nanotwinned microstructure for high strength and high ductility
- (2014) Chang Ye et al. JOURNAL OF APPLIED PHYSICS
- Effect study and application to improve high cycle fatigue resistance of TC11 titanium alloy by laser shock peening with multiple impacts
- (2014) Xiangfan Nie et al. SURFACE & COATINGS TECHNOLOGY
- Experiment investigation of laser shock peening on TC6 titanium alloy to improve high cycle fatigue performance
- (2013) Xiangfan Nie et al. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
- Deformation induced martensite in NiTi and its shape memory effects generated by low temperature laser shock peening
- (2012) Yiliang Liao et al. JOURNAL OF APPLIED PHYSICS
- Deformation-induced martensite and nanotwins by cryogenic laser shock peening of AISI 304 stainless steel and the effects on mechanical properties
- (2012) Chang Ye et al. PHILOSOPHICAL MAGAZINE
- Thermal relaxation of residual stress in laser shock peened Ti–6Al–4V alloy
- (2012) Zhong Zhou et al. SURFACE & COATINGS TECHNOLOGY
- Damping capacity of BaTiO3/Al composites fabricated by hot extrusion
- (2012) Gen-lian FAN et al. TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
- Microstructure and mechanical properties of copper subjected to cryogenic laser shock peening
- (2011) Chang Ye et al. JOURNAL OF APPLIED PHYSICS
- Effect of the grain refinement via severe plastic deformation on strength properties and deformation behavior of an Al6061 alloy at room and cryogenic temperatures
- (2011) E.C. Moreno-Valle et al. MATERIALS LETTERS
- A study of the interactive effects of strain, strain rate and temperature in severe plastic deformation of copper
- (2009) Travis L. Brown et al. ACTA MATERIALIA
- Effects of strain, strain rate and temperature on deformation twinning in a Cu–Zn alloy
- (2008) G.H. Xiao et al. SCRIPTA MATERIALIA
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now