5.3.4 Composite Closure              . 71
5.3.5 Orthotropic Fitted Closure            71
5.3.6 Natural Closure               73
5.3.7 Invariant-Based Optimal Fitting (IBOF) Closure    . 73
5.4 Interaction Coefficient                74
5.5 Modifications to Folgar–Tucker Model          75
5.5.1 Anisotropic Rotary Diffusion Model        . 75
5.5.2 Reduced-Strain Closure Model          . 76
5.6 Rheological Equations for Fiber Suspensions        77
5.6.1 Transversely Isotropic Fluid (TIF) Model      . 77
5.6.2 Dinh–Armstrong Model             78
5.6.3 Phan-Thien–Graham Model           . 78
5.7 Tucker’s Flow Classification for Fiber Suspension
in Thin Cavities                  795.8 Fiber Migration in Inhomogeneous Flow Fields       80
5.9 Brownian Dynamics Simulation            . 81
5.10 Non-Newtonian Matrix Suspensions          . 83
6 Shrinkage and Warpage 87
6.1 Introduction                   . 87
6.2 Mechanical and Thermal Properties of Short-Fiber
Composites                    89
6.2.1 Effective Stiffness Tensor of Unidirectional
Composites                 89
6.2.2 Effective Thermal Expansion Coefficients
of Unidirectional Composites           93
6.2.3 Orientation Averaging             . 94
6.3 Thermally and Pressure-Induced Stresses         . 95
6.3.1 Stress Development              . 95
6.3.2 Viscous-Elastic Model and Viscoelastic Model     97
6.3.3 Assumptions and Boundary Conditions       . 100
6.4 Displacement Calculation               101
6.5 Empirical Approach                 102
6.6 Corner Deformation                 103
7 Mold Cooling 105
7.1 Mold Cooling System                105
7.2 Transient Heat Transfer in Mold            . 105
7.3 Cycle-Average Simplification             . 108
8 Computational Techniques  111
8.1 Introduction                   . 111
8.2 Flow Analyses                  . 112
8.2.1 Midplane Approach             . 112 模具注塑成型英文文献和中文翻译(4):http://www.751com.cn/fanyi/lunwen_17300.html