The book deals with two special issues in the field of computational welding mechanics: buckling distortion of thin plate and residual stress of thick plate.
Computational Welding Mechanics for Engineering Application: Buckling Distortion of Thin Plate and Residual Stress of Thick Plate deals with two special issues in the field of computational welding mechanics: buckling distortion of thin plate and residual stress of thick plate.
Through experiment, theory, and computational analysis, the authors systematically introduce the latest progress and achievements of computational welding mechanics, such as weld buckling in lightweight fabrication and residual stress in HTSS thick plate welding. In addition, they also explore its application to address real-world engineering problems in advanced manufacturing, such as precision manufacturing and mechanical performance evaluation.
The book will be of interest to scholars and engineers of computational welding mechanics who wish to represent the welding mechanics response, predict the distribution and magnitude of mechanical variables, or optimize the welding technique to improve the manufacturing quality.
1 Introduction 2 Elementary Theories and Method 3 C-Mn Thin Plates
Butt Welding and Measurement 4 Butt Welding Buckling Prediction with FE
Analysis 5 Parameter Sensitivity Analysis of Thermal Tension Techniques 6
Fillet Welding Buckling Experiment 7 Thick Plate Butt Welding and
Measurement 8 Residual Stress Evaluations with FE Analysis 9 Fracture of
Welded Joint with GTN Model
Jiangchao Wang obtained his PhD degree of ship and ocean engineering in 2013, with research of prediction and mitigation of welding buckling from Osaka University, Japan; in 2015, he completed postdoctoral fellow on effective computational welding mechanics in Carleton University, Canada. From 2015, he became the associate professor in Huazhong University of Science and Technology.
Bin Yi is the PhD student in the department of naval architecture and ocean engineering, Huazhong University of Science and Technology. His research field is mitigation of welding induced buckling with thermal tension and its application for thin plate section fabrication.
Qingya Zhang is the PhD student in the department of naval architecture and ocean engineering, Huazhong University of Science and Technology. His research field is residual stress evaluation of thick plate structure with advanced measurement and computational approach, as well as fracture performance assessment of welded joint.
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