燕山大学教师个人主页系统吕博--中文主页--论文成果

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吕博

职称 : 教授
单位 : 环境与化学工程学院

学历 : 博士研究生毕业
出生年月 : 1979-08
毕业院校 : 燕山大学

论文成果

[21] 陈晨.吕博,张福成.Low-cycle fatigue behaviors of pre-hardening Hadfield steel.2017
[22] Xiaoyong,Feng.郑春雷,吕博,张福成.Micromechanics behavior of fatigue cracks in Hadfield steel railway crossing.2013
[23] Effect of tempering on the microstructure and mechanical properties of a medium carbon bainitic steel.2017
[24] 陈晨.吕博,张福成.Effect of rolling temperature on microstructure evolution and mechanical properties of high carbon high manganese steel.2022
[25] 吕博.张福成,陈晨.Potentials for Describing Interatomic Interactions in gamma Fe-Mn-C-N System.2022
[26] 郑春雷.吕博,张福成.Effect of non-uniform microstructure on rolling contact fatigue performance of bainitic rail steel.2022
[27] 郑春雷.张福成,陈晨,吕博.In-situ investigation of composition segregation and deformation streamline in bainitic steel on mechanical properties.2022
[28] 陈晨.张福成,吕博.Effect of hot deformation parameters on dynamic recrystallisation mechanisms of super austenitic stainless steel.2022
[29] 吕博.杨志南,龙晓燕,刘泽良.Effect of Two-Step High Temperature Treatment on Phase Transformation and Microstructure of V-Bearing Bainitic Steel.2022
[30] 吕博.龙晓燕,张福成.Comparison of Novel Low-Carbon Martensitic Steel to Maraging Steel in Low-Cycle Fatigue Behavior.2022
[31] 张福成.吕博,郑春雷.Cyclic deformation behaviors of a high strength carbide-free bainitic steel.2016
[32] 杨志南.吕博,张福成,龙晓燕,赵晓洁,李艳国.Effect of introduced vanadium carbide at the bay region on bainite transformation, microstructure and mechanical properties of high-carbon and high-silicon steel.2021
[33] 陈晨.吕博,张福成.Effect of pre-deformation mode on the microstructures and mechanical properties of Hadfield steel.2019
[34] 吕博.Strain hardening and nanocrystallization behaviors in Hadfield steel subjected to surface severe plastic deformation.2018
[35] 郑春雷.吕博,王天生,杨志南,张福成.A novel microstructure of carbide-free bainitic medium carbon steel observed during rolling contact fatigue.2016
[36] 吕博.郑春雷,陈晨.Study on fatigue wear competition mechanism and microstructure evolution on the surface of a bainitic steel rail.2021

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