05478nam 2200517 450 991058330350332120230120002540.0(CKB)3710000001118642(CaSebORM)9780128112137(MiAaPQ)EBC4827702(EXLCZ)99371000000111864220170407h20172017 uy 0engurcnu||||||||rdacontentrdamediardacarrierMicroforming technology theory, simulation and practice /Zhengyi Jiang, Jingwei Zhao and Haibo Xie1st editionLondon, England :Academic Press,2017.©20171 online resource (453 pages) color illustrations0-12-811212-3 0-12-811213-1 Includes bibliographical references at the end of each chapters and index.Front Cover; Microforming Technology; Copyright Page; Contents; Foreword; Preface; I. Introductory Overview; 1 Fundamentals of Microforming; 1.1 Microforming Concept; 1.2 Microforming System; 1.3 Microforming Methods and Processes; 1.3.1 Micro Rolling; 1.3.1.1 Micro Cross Wedge Rolling; 1.3.1.2 Micro Flexible Rolling; 1.3.1.3 Micro Ultrathin Strip Rolling; 1.3.2 Micro Deep Drawing; 1.3.3 Micro Hydromechanical Deep Drawing; 1.3.4 Micro Bending; 1.3.5 Micro Compression; 1.3.6 Other Microforming Methods; References; 2 Size Effects in Microforming; 2.1 Categories of Size Effects2.2 Problems Caused by Size Effects2.2.1 Size Effects on Mechanical Behavior; 2.2.2 Size Effects on Tribology; 2.2.3 Size Effects on Scatter of Material Behavior; 2.3 Strategies for Control of Size Effects; 2.3.1 Microforming at Elevated Temperatures; 2.3.1.1 Warm Forming; 2.3.1.2 Characteristics of Microforming at Elevated Temperatures; 2.3.1.3 Heating Methods in Microforming; 2.3.2 Microstructural Refinement; References; II. Theory of Microforming; 3 Scaling Laws; 3.1 Introduction; 3.2 Scaling in Geometry; 3.2.1 Scaling of Length and Area in Two-Dimensional Geometry3.2.2 Scaling of Surface Area and Volume in Three-Dimensional Geometry3.3 Scaling in Dynamics; 3.3.1 Scaling in Dynamic Force; 3.3.2 Scaling in Work and Power; 3.3.3 Scaling in Energy; 3.4 Scaling in Mechanics; 3.4.1 Scaling in Bending Moment; 3.4.2 Scaling in Deflection and Stiffness; 3.5 Scaling in Hydrodynamics; 3.6 Scaling in Heat Transfer; 3.6.1 Scaling in Heat Conduction; 3.6.2 Scaling in Heat Convection; 3.6.3 Scaling in Heat Radiation; 3.7 Scaling in Electromagnetic and Electrostatic Forces; 3.7.1 Scaling in Electromagnetic Force; 3.7.2 Scaling in Electrostatic Force3.8 Scaling in Electricity4 Strain Gradient Plasticity Theory; 4.1 Introduction; 4.2 Couple Stress Theory; 4.3 Phenomenological Strain Gradient Plasticity Theory; 4.4 Mechanism-Based Strain Gradient Plasticity Theory; 4.5 Conventional Theory of Mechanism-Based Strain Gradient Plasticity; References; 5 Crystal Plasticity Theory; 5.1 Introduction; 5.2 Crystal Plasticity Theory; 5.2.1 Geometrics and Kinematics of Crystal Plastic Deformation; 5.2.2 Rate Independent Crystal Plasticity Constitutive Equation; 5.2.3 Rate Dependent Crystal Plasticity Constitutive Equation5.3 Simplification of Rate Dependent Crystal Plasticity Theory5.3.1 Decomposition of the Crystal Plastic Deformation Gradient; 5.3.2 Elastic Constitutive Equation; 5.3.3 Flow Rule of Plastic Deformation; 5.3.4 Equation of Kinematics; 5.3.5 Hardening Law; 5.3.6 Models of Polycrystal Homogenization; 5.3.6.1 Taylor Averaging Procedure; 5.3.6.2 Finite Element Averaging Procedure; 5.4 Numerical Integration of Rate Dependent Crystal Plasticity Theory; 5.4.1 Total Lagrangian Formulation; 5.4.2 Fully Implicit Integration Procedure; 5.5 Calculation of Grain OrientationMicroforming Technology: Theory, Simulation and Practice addresses all aspects of micromanufacturing technology, presenting detailed technical information and the latest research developments. The book covers fundamentals, theory, simulation models, equipment and tools design, practical micromanufacturing procedures, and micromanufacturing-related supporting systems, such as laser heating system, hydraulic system and quality evaluation systems. Newly developed technology, including micro wedge rolling, micro flexible rolling and micro hydromechanical deep drawing, as well as traditional methods, such as micro deep drawing, micro bending and micro ultrathin strip rolling, are discussed. This will be a highly valuable resource for those involved in the use, study and design of micro products and micromanufacturing technologies, including engineers, scientists, academics and graduate students. Provides an accessible introduction to the fundamental theories of microforming, size effects, and scaling laws Includes explanations of the procedures, equipment, and tools for all common microforming technologies Explains the numerical modeling procedures for 7 different types of microformingMicroformsMicroformsCongressesMicroforms.Microforms686.43Jiang Zhengyi984241Zhao JingweiXie HaiboMiAaPQMiAaPQMiAaPQBOOK9910583303503321Microforming technology2247937UNINA