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Polymeric Materials for Electronic Packaging
Polymeric Materials for Electronic Packaging
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Author(s): Nakamura, Shozo
ISBN No.: 9781394188796
Pages: 208
Year: 202309
Format: Trade Cloth (Hard Cover)
Price: $ 207.00
Dispatch delay: Dispatched between 7 to 15 days
Status: Available

About the Author ix Preface xi 1 Basics of Semiconductor 1 1.1 Development of Semiconductors 1 1.2 Analysis of Semiconductors Materials 5 2 Basics of Polymer Materials 9 2.1 Polymer Material 9 2.2 Types and Classification of Polymer Materials 10 2.3 General Properties of Polymer Materials 12 2.4 Summary 13 3 Basics of Elastic Theory 15 3.1 Elasticity 15 3.


2 Stress and Strain 15 3.3 Finite Element Method Analysis (FEM Analysis) 16 3.4 Governing Equation of Elastic Body 18 3.5 Law of Elastic Breakage 19 3.6 Plane Stress and Plane Strain 21 4 Stress Evaluations with Defects 23 4.1 Difference from Strength of Materials 23 4.2 Stress Concentration and Stress Intensity Factor 24 5 Basics of Viscoelasticity 27 5.1 About Viscoelasticity 27 5.


2 Elasticity, Viscosity, and Viscoelasticity 28 5.3 Stress and Strain Response 29 5.4 Mechanical Model Representing Viscoelastic Properties 32 5.5 Conceptual Formula for Creep and Stress Relaxation 35 5.6 Master Curve and Time-Temperature Conversion Rule 38 5.7 Approximation of Master Curve 39 5.8 Superposition Principle and Basic Equations 40 5.9 Simple Model of Generating Thermal Stress and Strain 41 6 Measurement of Viscoelastic Properties 43 6.


1 Dynamic Viscoelasticity 43 6.2 Measurement Method 43 6.3 Complex Modulus and Mechanical Model 44 6.4 Dispersion and Absorption by Frequency 46 6.5 Actual Measurement Example 48 7 Design Issues of LSI Packages 49 7.1 Introduction 49 7.2 Trends and Issues of LSI Packages 51 8 Validity of Viscoelastic Analysis 55 8.1 Introduction 55 8.


2 Structure of Laminated Body 56 8.3 Analysis Method 61 8.4 Cooling Experiment of Laminated Body 61 8.5 Analysis Results and Experimental Values 63 8.6 Conclusion 67 9 Application to CSP-μBGA 69 9.1 Introduction 69 9.2 Structure and Modeling of CSP-μBGA 69 9.3 Material Property Values Used for Analysis 70 9.


4 Material and Structure Optimization Design by VESAP Analysis 73 10 Thermal Stress and Warpage Behavior During Cooling Process of Three-Layer Laminate 79 10.1 Introduction 79 10.2 Structure of LSI Package 79 10.3 Three-Layer Viscoelastic Laminate Model 80 10.4 Elucidation of Warpage Deformation Behavior by VESAP Analysis 81 11 Warp Deformation Behavior From Heating to Cooling 91 11.1 Introduction 91 11.2 Two-Layer Laminate With Epoxy Resin/FR-4 Substrate 92 11.3 Two-Layer Laminate with Epoxy Resin/Steel 101 11.


4 Three-Layer Laminate with Steel/Epoxy Resin/Printed Board 104 11.5 Analysis Experiment of Four-Layer Laminate 108 12 Deformation Prediction Method Considering Curing Shrinkage of Resin 119 12.1 Introduction 119 12.2 Examination the Procedure and the Way of Thinking 120 12.3 Contents of VESAP Analysis 122 12.4 Simple Prediction Formula for Calculating Curing Warpage 123 12.5 Warp Deformation Experiment 128 12.6 Theoretical Prediction of Warpage Deformation due to Hardening and Heat 130 13 Changes in Material Properties and Deformation Behavior Due to Thermal Degradation 133 13.


1 Purpose and Background 133 13.2 Experimental Case I 134 13.3 Experiment of Case II 139 14 Simple Evaluation Method for Deformation of Viscoelastic Body 147 14.1 Introduction 147 14.2 Derivation of Simple Formula 147 14.3 Practical Method 151 14.4 Determining the Curing Temperature of the Resin 152 14.5 Effect of Epoxy Resin Thickness on Heat Generation Temperature 153 14.


6 Conclusion 156 15 Effect of Cooling Rate on Warpage Behavior of Laminates 159 15.1 Warp Deformation Experiment 159 15.2 VESAP Analysis 160 15.3 Results and Considerations 163 15.4 Final Warp Deformation and Residual Warp Deformation 166 15.5 Estimation Mechanism Between Cooling Rate and Deformation of Laminate 168 15.6 Conclusion 169 Appendix A Development of Viscoelastic Analysis Software (VESAP) 171 A.1 Development Needs and Concepts 171 A.


2 Derivation of Basic Formula for Analysis 172 A.3 Contents of the Developed VESAP Software 175 Bibliography 179 Index 185.


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