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カ ライ
何 磊
HE LEI
所属
理工学部 機械工学科
職名
助教
論文
1.
2024/06/10
Multiaxial creep–fatigue failure mechanism and life prediction of a turbine blade based on a unified numerical solution approach │ (共著)
2.
2024/05
Fatigue behaviors and life evaluation of AISI304 stainless steel under non-proportional multiaxial random loading │ International Journal of Fatigue │ (共著)
3.
2024/03
幅広いアプローチ(BA)活動における核融合炉構造材料開発 │ 核融合学会誌 │ (共著)
4.
2023/08
Novel fatigue life prediction approach combined with rain-flow cycle counting process for random multiaxial non-proportional loading │ Fatigue Fract Eng Mater Struct │ (共著)
5.
2023/07
Microstructural evolutions and life evaluation of non-proportional creep-fatigue considering loading path and holding position effects │ Materials Characterization │ (共著)
6.
2023/05
Improvement in the Strength–Ductility Balance of Tempered Martensite Steel by Controlling Cementite Particle Size Distribution │ Journal of Materials Engineering and Performance │ (共著)
7.
2023/02/01
Improved mechanical properties of mechanically milled Mg2Si particles reinforced aluminum-matrix composites prepared by hot extrusion │ Materials Science & Engineering A │ (共著)
8.
2023/01/15
表面硬化処理したSCM420H 鋼の水素添加による遅れ破壊寿命特性評価 │ ばね論文集 │ (共著)
9.
2023
Multiaxial creep-fatigue constitutive modeling and damage evaluation for type F82H steel under non-proportional loading conditions │ International Journal of Fatigue │ (共著)
10.
2022/11/23
Fatigue life evaluation model for various austenitic stainless steels at elevated temperatures via alloy features-based machine learning approach │ Fatigue Fract Eng Mater Struct │ (共著)
11.
2022/07
Establishment of unified creep–fatigue life prediction under various temperatures and investigation of failure physical mechanism for Type 304 stainless steel │ Fatigue Fract Eng Mater Struct │ (共著)
12.
2022/06/06
On multiaxial creep–fatigue considering the non-proportional loading effect: Constitutive modeling, deformation mechanism, and life prediction │ International Journal of Plasticity │ (共著)
13.
2022
Machine-learning-based investigation into the effect of defect/inclusion on fatigue behavior in steels │ International Journal of Fatigue │ (共著)
14.
2021
Machine learning-based predictions of fatigue life and fatigue limit for steels │ Journal of Materials Science & Technology │ (共著)
15.
2021
Quantitative Analysis of the Recovery Process in Pure Iron Using X-Ray Diffraction Line Profile Analysis │ Materials │ (共著)
16.
2020
Cumulative fatigue damage of stress below the fatigue limit in weldment steel under block loading │ Fatigue Fract Eng Mater Struct │ (共著)
17.
2018
Effect of high-amplitude loading on accumulated fatigue damage under variable-amplitude loading in 316 stainless steel │ International Journal of Fatigue │ (共著)
18.
2017
Fatigue life prediction method for AISI 316 stainless steel under variable-amplitude loading considering low-amplitude loading below the endurance limit in the ultrahigh cycle regime │ International Journal of Fatigue │ (共著)