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| موضوع: كتاب Finite Element Analysis for Design Engineers الإثنين 05 أغسطس 2024, 8:00 pm | |
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أخواني في الله أحضرت لكم كتاب Finite Element Analysis for Design Engineers Paul M. Kurowski
و المحتوى كما يلي :
Table of Contents Preface xi Chapter 1 Introduction 1 1.1 What Is Finite Element Analysis? 1 1.2 What Is “FEA for Design Engineers?’ 2 1.3 Note on Hands-on Exercises and Illustrations in This Book 3 Chapter 2 From CAD Model to Finite Element Analysis Results . 5 2.1 Formulation of the Mathematical Model . 5 2.2 Selecting the Numerical Method to Solve the Numerical Methods in Engineering Analysis . 7 Mathematical Model 7 2.2.2 Reasons for the Dominance of the Finite Element Method 8 2.3 The Finite Element Model . 9 2.3.1 Meshing . 9 2.3.2 Formulationof Finite Element Equations . 10 2.3.3 Errors in FEA Results . 11 Chapter 3 Major Concepts of the Finite Element Model . 13 3.1 Formulation of a Finite Element 13 3.1.1 Shape Functions, Degrees of Freedom. and Element Order . 13 3.1.2 Requirements to Be Satisfied by Shape Functions . 15 3.1.3 Artificial Constraints . 15 3.1.4 The Choices of Discretization . 17 3.2 Types of Finite Elements . 18 3.2.1 Element Dimensionality 19 3.2.2 Analysis Dimensionality . 20 3.2.4 Element Order and Element Type . 21 Element Modeling Capabilities . 22 3.2.3 Element Shape . 21 3.2.5 Chapter 4 Controlling Discretization Errors 25 4.1 Convergence Process . 25 4.1.2 Convergence Error 29 4.1.3 Solution Error 29 4.1.1 h-Convergence Process . 25 4.1.4 p-Convergence Process . 30 4.1.5 Variations in Convergence Processes . 32viii I Finite Element Analysis for Design Engineers 4.2 Problems with Convergence 34 4.2.1 Stress Singularity . 35 4.2.2 Displacement Singularity 38 4.3.1 4.3.2 L-Shaped Bracket 43 4.3.3 Spot-Welded Cantilever 45 4.3 Hands-on Exercises . 42 Tensile Strip with a Circular Hole . 42 Chapter 5 Finite Element Mesh 47 5.1 Meshing Techniques 47 5.1.1 Manual Meshing 47 5.1.2 Semi-Automatic Meshing . 48 5.2 Mesh Compatibility 50 5.1.3 Automatic Meshing . 48 5.2.1 Compatible Elements 50 5.2.2 Incompatible Elements 51 5.2.3 Forced Compatibility 52 5.3.2 Not Enough Elements to Represent Model Stiffhess 55 5.3.3 Incorrect Mapping to Geometry 56 5.3.4 Incorrect Conversion to Shell Model 57 5.4 Hands-on Exercises . 58 5.4.1 Hollow Cantilever Bracket 58 5.4.2 Beam in Bending . 59 5.3 Common Meshing Problems 52 5.3.1 Element Distortion 54 Chapter 6 Modeling Process 61 6.1.1 Definition of the Objective of Analysis 62 6.1.2 Selection of the Units of Measurement . 62 6.1.3 Geometry Creation 63 6.1.4 Defining Material Properties . 64 6.1.5 Defining Boundary Conditions . 64 6.2.2 Axial Symmetry 68 6.2.3 Realignment of Degrees of Freedom 69 6.1 Modeling Steps 61 6.2 Some Usehl Modeling Techniques . 65 6.2.1 Taking Advantage of Symmetry and Anti-Symmetry 65 6.3 Hands-on Exercises . 71 6.3.1 Cantilever Bracket with Symmetry Boundary Conditions . 71 6.3.2 Cantilever Bracket with Anti-Symmetry 6.3.3 Shaft in Torsion . 72 Boundary Conditions 71 6.3.4 Plate in Bending 73Table ofcontents I ix 6.3.5 Ring in Bending 74 6.3.6 Pin-Supported Link . 75 Chapter 7 Types of Finite Element Analysis 77 7.1 Thermal Analysis . 77 7.1.1 7.1.3 Modeling Considerations in Thermal Analysis . 79 Heat Flow Induced by Prescribed Temperatures 77 7.1.2 Heat Flow Induced by Heat Load and Convection . 78 7.2 Nonlinear Analysis . 80 7.2.1 Nonlinear Material 81 7.2.2 Nonlinear Geometry 84 7.3 Modal Analysis 92 Differences Between Modal and Static Analyses . 93 7.3.3 Modal Analysis with Rigid Body Modes 94 7.3.4 Importance of Supports in Modal Analysis 94 7.3.5 Applications of Modal Analysis 95 7.2.3 Contact Stress Analysis . 89 7.3.1 7.3.2 Interpretation of Displacement and Stress Results in Modal Analysis . 94 7.3.6 Pre-Stress Modal Analysis 97 7.3.7 Symmetry and Anti-Symmetry Boundary Conditions in Modal Analysis . 97 7.3.8 Convergence of Modal Frequencies Results . 99 7.3.9 Meshing Considerations for Modal Analysis 99 Buckling Load Factor 100 7.4.2 Interpretation of Results of Buckling Analysis .100 Modal SuperpositionMethod 101 7.5.2 Time Response Analysis . 102 7.5.3 Frequency Response Analysis . 104 7.4 Buckling Analysis 99 7.4.1 7.5 Dynamic Analysis 101 7.5.1 7.6 Hands-on Exercises . 106 7.6.1 Crossing Pipes . 106 7.6.2 Radiator . 107 7.6.3 Cantilever Bracket, Elasto-Plastic Material 108 7.6.4 Slender Cantilever Beam in Bending 109 7.6.5 Round Membrane Under Pressure 110 7.6.6 Tuning Fork . 111 7.6.7 U-Shaped Support Bracket 112 7.6.8 Unsupported and Hinge-Supported Beam 113 7.6.9 Hollow Cantilever Bracket, Modes Separation . 114 7.6.10 Beam in Compression . 115I Finite Element Analysis for Design Engineers Chapter 8 Design Optimization . 117 8.2 Structural Optimization 117 Factors Defining an Optimization Process 119 8.2.2 Sensitivity Studies . 119 8.1 Topological Optimization 117 8.2.1 Chapter 9 Using Finite Element Analysis in the Design Process 123 9.1 DifferencesBetween CAD and FEA Geometries 123 9.1.1 Defeaturing 124 9.1.2 Idealization 125 9.1.3 Cleanup . 126 9.1.4 Common Meshing Problems . 128 9.1.5 Mesh Inadequacy 130 9.2 Integration of CAD and FEA Software . 131 9.2.1 StandaloneFEA Software . 131 9.2.2 Integrated FEA Software . 131 9.3 FEA Implementation 132 9.3.1 Positioning of CAD and FEA Activities . 132 9.3.2 Personnel Training 133 9.3.3 Software Selection Criteria . 136 9.3.4 Building Confidencein the FEA . 139 9.3.5 Expected Return on Investment 139 9.4 FEA Projects 140 9.4.1 Major Steps in an FEA Project 141 9.4.2 FEA Report . 144 9.4.3 Importance of Documentationand Backups .146 9.4.4 ContractingOut FEA Services 147 9.4.5 Common Errors in FEA Management 147 Chapter 10 Some Misconceptions and Frequently Asked Questions . 151 10.1 FEAQuiz 151 10.2 Frequently Asked Questions About FEA 155 Chapter 11 Finite Element Analysis Resources . 169 Chapter 12 Glossary of Terms 171 Index 177 About the Author 187 INDEX Index Terms Links A Analysis dimensionality 20 Anti-symmetry boundary conditions, in modal analysis 97 taking advantage of 65 165 Artificial constraints 15 99 Audit 146 Automeshing 21 48 90 128 137 152 Available design space 117 Axial symmetry 68 B Backups, importance of 146 Base excitation 102 103 Basis functions 18 Beam elements 20 50t 125 128 130 Benchmarking 154 Bending 38 modeling 55 Bending stiffness 84 85f Bending stresses 130f Bilinear material 81Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Boundary conditions 5 164 anti-symmetry 65 in modal analysis 97 assigning 64 defining 64 essential 64 natural 64 symmetry 65 in modal analysis 97 Boundary element method 8 Brick elements 21 Buckling analysis 99 interpretation of results 100 linear 137 Buckling load safety factor 100 C CAD, confused with FEA 149 CAD geometry in CAD-FEA process 132 converting to FEA geometry 63 difference from FEA geometry 123 requirements of 123 CAD models in FEA 2 from, to FEA results 5 CAD software integration with FEA software 131 136 requirements for 138 Chamfers 57Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Cleanup 126 Compatibility forced 52 53f inter-element 157 internal 157 Compatible elements 50 159 Compressive stress 88 97 Computer-based simulations 3 Conservative load 86 87f Constant strain 15 157 Constraints 6 119 artificial 15 99 Contact stress analysis 89 137 Continuous displacement field 51 Contracting out FEA services 147 148f Convection, heat flow induced by 78 Convergence error 29 30f Convergence of modal frequencies results 99 problems with 34 Convergence analysis, objective of 161 Convergence processes 25 adaptive 34 h- 25 p- 30 types of 160 variations in 32 Curve, solution domain represented as 6 Cyclic symmetry 69 70fIndex Terms Links This page has been reformatted by Knovel to provide easier navigation. D Damping 92 93 94 104 coefficient of 102 Data of interest 7 25 Defeaturing 124 165 Deflection 5 154 Deformation second-order 13 effect on stiffness 84 89 Degenerated elements 18 54 154 159 167 Degrees of freedom 10 13 27 29 nodal 156 realignment of 69 Design analysis 1 Design engineers 133 increasing responsibilities of 134t Design optimization 117 Design process, FEA-driven 3f Design space 117 Design variables 119 Dimensionality of analysis 20 of elements 19 Direct integration method 101 Discretization choices of 17 of continuum 155 Discretization errors 11 161Index Terms Links This page has been reformatted by Knovel to provide easier navigation. in buckling analysis 100 controlling 25 Discretization process 9 Displacement in modal analysis 94 nodal 13 Displacement analysis 6 Displacement boundary conditions 5 Displacement components, linking 52 Displacement field 9 Displacement functions 21 second-order 13 Displacement singularity 38 Distortion, element 54 Documentation 149 importance of 146 Drafting 133 Dynamic analysis 101 and modal analysis 96 Dynamic effects 93 Dynamic stress 99 Dynamic time response analysis 102 E Edges, mesh control applied to 49f Eigenvalue 93 Eigenvector 92 93 Elastic stiffness 92 99 Elasticity, modulus of 81 Elasto-plastic model 36 81Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Element level basis functions 18 Elements 2-D axisymmetric 20 2-D plane strain 20 2-D plane stress 20 beam 20 50t 125 128 130 brick 21 communication between 158 compatible 50 159 degenerated 18 54 128 154 159 167 dimensionality of 19 distortion of 54 first-order 13 difference from secondorder 157 h- 21 22f 23t 160 hexahedral 21 hybrid 157 incompatible 51 159 insufficient number of 55 167 improper use of 167 mapping of 18 19f membrane 20 50t modeling of 22 order of 13 18 21 128 130 131 153 p- 21 22f 23t 160 quadrilateral 21Index Terms Links This page has been reformatted by Knovel to provide easier navigation. second-order 13 14f difference from first-order 157 shape of 21 shell 19 50t 125 128 165 incorrect conversion to 57 size of 17 49 128 solid 19 50t 128 151 tetrahedral 21 128 153 triangular 13 21 types of 21 22f 23t 50t 128 Engineering analysis problems methods for solving 9f Errors discretization 11 161 estimation of 153 in FEA results 11 modeling 11 161 numerical 162 solution 12 162 Essential boundary conditions 64 Executive summary, in FEA reports 144 166 Exercises, hands-on beam in bending 59 in compression 115 cantilever bracket elasto-plastic material 108 with anti-symmetry bound-ary conditions 71Index Terms Links This page has been reformatted by Knovel to provide easier navigation. with symmetry boundary conditions 71 crossing pipes 106 hollow cantilever bracket 58 modes separation 114 introduction to 3 L-shaped bracket 43 pin-supported link 75 plate in bending 73 radiator 107 ring in bending 74 round membrane under pres-sure 110 shaft in torsion 72 slender cantilever beam in bending 109 spot-welded cantilever 45 tensile strip with circular hole 42 tuning fork 111 unsupported and hingesupported beam 113 U-shaped support bracket 112 Extrusion 48 F Faces, mesh control applied to 49f FAQs about FEA 155 FE models 9 assignment of mass to 158 boundary conditions applied to 164 degrees of freedom in 156Index Terms Links This page has been reformatted by Knovel to provide easier navigation. major concepts of 13 techniques to reduce size of 165 FEA alternatives to 168 basic steps of 155 from CAD models to results 5 compared to prototyping and testing 139 concurrence with design pro-cess 2 confused with CAD 149 contracting out for services 147 148f defining objective of 62 demonstrating usefulness of to organization 139 for design engineers 2 equations for, formulation of 10 156 expectations of 148 expertise in 148 frequently asked questions about 155 golden rule of 168 implementation of 132 incompetent analysis in 155 introduction to 1 level of detail in 154 limitations of 2 misconceptions about 151 objectives of 2 poorly defined 148 reasons for dominance of 8Index Terms Links This page has been reformatted by Knovel to provide easier navigation. resources for users 169 return on investment in 139 time constraints of 148 training in 135 types of 77 164 using in design process 123 FEA analysts 133 FEA geometry difference from CAD geometry 123 in CAD-FEA process 132 requirements of 123 FEA projects analyzing results in 144 checkpoints in 145f common errors in management of 147 evaluating results in 143 FE model in 143 from managerial point of view 140 initial questions for 141 major steps in 141 mathematical model in 142 modeling approach in, costeffective 142 reports in 144 166 scope of analysis in 142 FEA quiz 151 FEA results correlating with experiment 153 errors in 11Index Terms Links This page has been reformatted by Knovel to provide easier navigation. high accuracy of 152 validating 139 140t FEA software 135 152 analysis types available in 137 automesher in 137 and benchmarking 154 computing considerations for 139 cost considerations for 138 139 error reporting in 152 integration with CAD software 131 136 presentation tools in 137 proficiency in 148 requirements for 138 selection criteria 136 user control in 136 user support for 138 139 Fillets 6 36 38 57 Finite difference method 8 Finite element analysis (FEA), see FEA Finite element method (FEM) defined 8 Finite elements (FEs) 9 formulation of 13 major assumptions of 155 types of 18 158 First-order elements 13 14f difference from second-order 157 Fixed support 86f Floating solids 126Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Floating support 70 86f Following load 86 87f Follow-up, to FEA reports 144 167 Force boundary conditions 5 Forced compatibility 52 53f Frequencies, natural 94 95 97 101 Frequency 93 Frequency analysis 92 137 Frequency response analysis 104 Frequency sweep 104 G Gap 51 Gauss points 162 Geometry accuracy of representation 151 boundary conditions applied to 164 defining, relative uncertainty in 65 nonlinear 84 model 8 154 in FEA reports 144 166 nonlinear 84 surface 125 solid 125 wire-frame 125 see also CAD geometry, FEA geometry Geometry cleanup 126Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Geometry creation 63 131 Glossary 171 H h-Elements 21 22f 23t 160 Hands-on exercises, see under Exercises Heat flow induced by heat load and con-vection 78 induced by prescribed temper-ature 77 Heat flux 78 Heat power 78 Hexahedral elements 21 Hybrid element 157 Hybrid meshing 50 I Idealization 125 Incompatible elements 51 159 Inertial stiffness 92 99 Integration of CAD and FEA software 131 Inter-element compatibility 15 157 Internal compatibility 15 157 Interpretation of results, in modal analysis 94 L Large deformation analysis 84 Legal liability 147Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Linear analysis 81 137 compared to nonlinear analysis 86 Linking displacement components 52 Links 51 Load vector 11 80 Loads 6 10 64 154 164 buckling, safety factor 100 conservative 86 87f defining, relative uncertainty in 65 in FEA reports 144 166 following 86 87f heat 78 non-conservative 86 87f non-following 86 87f orientation of 86 volume 64 Local cylindrical coordinate system 70 M Machine design 135 Manual meshing 47 Mapping element 18 19f incorrect 56 Mass assignment of, to FE model 158 units of 62t Mass density, units of 62tIndex Terms Links This page has been reformatted by Knovel to provide easier navigation. Mass matrix 93 Master entity 52 53f Materials, mechanics of 135 Materials properties 6 assigning 64 defining 64 143 relative uncertainty in 65 nonlinear 81 Mathematical models 1 10f 61 formulation of 5 selecting best 7 Measurement units, selecting 62 Membrane elements 20 50t Membrane stiffness 84 85f Mesh bias 49 128 Mesh compatibility 50 Mesh control 49f 131 Mesh refinement 25 non-uniform 32 Mesh size 151 153 Meshing techniques 47 Meshes in FEA reports 144 inadequacy of 130 quality check tools for 130 Meshing 9 21 123 126 152 automatic 48 common problems with 52 128 considerations for modal analy-sis 99Index Terms Links This page has been reformatted by Knovel to provide easier navigation. in contact stress analysis 89 manual 47 semi-automatic 48 Minimum total potential energy 10 156 Modal analysis 92 137 154 applications of 95 comparison of results 98t difference from static analysis 93 displacement results in 94 importance of supports in 94 interpretation of results 94 meshing considerations for 99 pre-stress 97 with rigid body modes 94 stress results 94 symmetry and anti-symmetry boundary conditions in 97 Modal frequencies 95 convergence of results 99 Modal superposition method 96 99 101 in frequency response analysis 104 Model stiffness, insufficient elements to represent 55 Modeling, simplified 65 80f Modeling errors 11 161 in buckling analysis 100 Modeling process 61 Modeling steps 61 Modeling techniques, useful 65 ModelsIndex Terms Links This page has been reformatted by Knovel to provide easier navigation. mathematical 1 10f 61 formulation of 5 selecting best 7 physical 1 see also FE models Modes of vibration 92 Modified analysis 146 147 Modulus of elasticity 81 Multiple entities 126 N Natural boundary conditions 64 Natural frequencies 92 94 95 97 101 Nodal degree of freedom 156 Nodal displacements 10 13 156 vector of 11 80 Nodal stresses 162 Non-conservative load 86 87f Non-following load 86 87f Nonlinear analysis 80 164 compared to linear analysis 86 Nonlinear buckling analysis 100 Nonlinear geometry 84 Nonlinear materials 81 Numerical error 161 Numerical methods in engineering analysis 7 selecting 7 Nylon, in contact stress analysis 91Index Terms Links This page has been reformatted by Knovel to provide easier navigation. O Optimization design 117 factors defining process 119 goal of 119 structural 117 topological 117 118f Orientation, of load 86 Overlap 51 P p-Elements 21 22f 23t 160 Patch test 15 157 Personnel training 133 146 149 Physical models 1 Pin supports 70 Plane stress 2-D 13 Plasticity 36 Point supports 38 Poisson’s ratio 81 Polygons 57 Polynomial functions 13 Pre-stress, modal analysis 97 Prisms 21 Product design process, traditional 3f Prototyping and testing, compared to FEA 139 Q Quadrilateral elements 21Index Terms Links This page has been reformatted by Knovel to provide easier navigation. R Ramberg-Osgood model 81 Realignment of degrees of free-dom 69 Repetitive symmetry 69 70f Resonance 92 Resonant frequencies 95 Restraints 10 64 154 168 defining, relative uncertainty in 65 in FEA reports 144 166 Revolution 48 Rigid body modes, modal analysis with 94 Rigid body motion 15 41 157 Rotation 13 S S.I. system of measurements 62 Second-order deformation 13 Second-order displacement func-tions 13 Second-order elements 13 14f difference from first-order 157 Semi-automatic meshing 48 Sensitivity studies 119 Shaker table test 104 Shape deformation, effect on stiffness 84 89 Shape functions 13 157 impact of choice of 15Index Terms Links This page has been reformatted by Knovel to provide easier navigation. linear 13 requirements to be satisfiedby 15 Sharp re-entrant corner 35 42t 80 Shell elements 19 50t 125 128 165 incorrect conversion to 57 Single-degree-of-freedom systems 101 Singularities displacement 38 stress 35 83 130f Slave entity 52 53f Solid elements 19 50t 128 151 first-order tetrahedral 153 Solid geometry 125 Solution errors 12 29 30f 162 Static analysis, difference from modal analysis 93 Steel, in contact stress analysis 91 Stiffness matrix 11 80 166 Strain 11 55 2-D plane 20 constant 15 157 distribution of 14 Strain gauge, placement of 96 Stress 11 32 55 2-D plane 13 15 20 averaged 162 compressive 97 concentrations of 153 distribution of 14Index Terms Links This page has been reformatted by Knovel to provide easier navigation. dynamic 99 in modal analysis 94 nodal 162 tensile 88 97 yield 81 Stress analysis 5 6 135 154 contact 89 Stress averaging 16 162 Stress convergence curve 35 Stress singularities 35 83 130f Stress stiffening 97 Stress stiffness 99 Stress-strain 81 StressCheck 4 Structural analysis 1 analogies to thermal analysis 77 78t nonlinear behavior in 80 Structural optimization 117 supports defining 64 fixed 86f floating 70 86f importance in modal analysis 94 pin 70 point 38 Surface, solution domain represented as 6 Surface geometry 125 Swelling 88 89f Symmetry, taking advantage of 65 165Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Symmetry boundary conditions in modal analysis 97 in thermal analysis 79 T 2-D analysis 13 166 2-D plane strain 20 2-D plane stress 13 15 20 3-D analysis 14f 20 Temperature 6 10 11 77 Tensile stress 88 97 Tetrahedral elements 21 128 153 Thermal analysis 1 77 modeling considerations in 79 steady-state 137 Time response analysis 102 Topological optimization 117 118f Torsion 68f 88 Training, personnel 133 Translation 13 69 Triangular elements 13 21 U Uncertainties, relative 65 Units of measurement, selecting 62 V Vertex, mesh control applied to 49f Vibration 135 modes of 92Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Vibration analysis 101 Volume loads 64 Volume, solution domain represented as 5 W Weak spots 96 Wire-frame geometry 125 Y Yield stress 81Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Boundary conditions 5 164 anti-symmetry 65 in modal analysis 97 assigning 64 defining 64 essential 64 natural 64 symmetry 65 in modal analysis 97 Boundary element method 8 Brick elements 21 Buckling analysis 99 interpretation of results 100 linear 137 Buckling load safety factor 100 C CAD, confused with FEA 149 CAD geometry in CAD-FEA process 132 converting to FEA geometry 63 difference from FEA geometry 123 requirements of 123 CAD models in FEA 2 from, to FEA results 5 CAD software integration with FEA software 131 136 requirements for 138 Chamfers 57Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Cleanup 126 Compatibility forced 52 53f inter-element 157 internal 157 Compatible elements 50 159 Compressive stress 88 97 Computer-based simulations 3 Conservative load 86 87f Constant strain 15 157 Constraints 6 119 artificial 15 99 Contact stress analysis 89 137 Continuous displacement field 51 Contracting out FEA services 147 148f Convection, heat flow induced by 78 Convergence error 29 30f Convergence of modal frequencies results 99 problems with 34 Convergence analysis, objective of 161 Convergence processes 25 adaptive 34 h- 25 p- 30 types of 160 variations in 32 Curve, solution domain represented as 6 Cyclic symmetry 69 70fIndex Terms Links This page has been reformatted by Knovel to provide easier navigation. D Damping 92 93 94 104 coefficient of 102 Data of interest 7 25 Defeaturing 124 165 Deflection 5 154 Deformation second-order 13 effect on stiffness 84 89 Degenerated elements 18 54 154 159 167 Degrees of freedom 10 13 27 29 nodal 156 realignment of 69 Design analysis 1 Design engineers 133 increasing responsibilities of 134t Design optimization 117 Design process, FEA-driven 3f Design space 117 Design variables 119 Dimensionality of analysis 20 of elements 19 Direct integration method 101 Discretization choices of 17 of continuum 155 Discretization errors 11 161Index Terms Links This page has been reformatted by Knovel to provide easier navigation. in buckling analysis 100 controlling 25 Discretization process 9 Displacement in modal analysis 94 nodal 13 Displacement analysis 6 Displacement boundary conditions 5 Displacement components, linking 52 Displacement field 9 Displacement functions 21 second-order 13 Displacement singularity 38 Distortion, element 54 Documentation 149 importance of 146 Drafting 133 Dynamic analysis 101 and modal analysis 96 Dynamic effects 93 Dynamic stress 99 Dynamic time response analysis 102 E Edges, mesh control applied to 49f Eigenvalue 93 Eigenvector 92 93 Elastic stiffness 92 99 Elasticity, modulus of 81 Elasto-plastic model 36 81Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Element level basis functions 18 Elements 2-D axisymmetric 20 2-D plane strain 20 2-D plane stress 20 beam 20 50t 125 128 130 brick 21 communication between 158 compatible 50 159 degenerated 18 54 128 154 159 167 dimensionality of 19 distortion of 54 first-order 13 difference from secondorder 157 h- 21 22f 23t 160 hexahedral 21 hybrid 157 incompatible 51 159 insufficient number of 55 167 improper use of 167 mapping of 18 19f membrane 20 50t modeling of 22 order of 13 18 21 128 130 131 153 p- 21 22f 23t 160 quadrilateral 21Index Terms Links This page has been reformatted by Knovel to provide easier navigation. second-order 13 14f difference from first-order 157 shape of 21 shell 19 50t 125 128 165 incorrect conversion to 57 size of 17 49 128 solid 19 50t 128 151 tetrahedral 21 128 153 triangular 13 21 types of 21 22f 23t 50t 128 Engineering analysis problems methods for solving 9f Errors discretization 11 161 estimation of 153 in FEA results 11 modeling 11 161 numerical 162 solution 12 162 Essential boundary conditions 64 Executive summary, in FEA reports 144 166 Exercises, hands-on beam in bending 59 in compression 115 cantilever bracket elasto-plastic material 108 with anti-symmetry bound-ary conditions 71Index Terms Links This page has been reformatted by Knovel to provide easier navigation. with symmetry boundary conditions 71 crossing pipes 106 hollow cantilever bracket 58 modes separation 114 introduction to 3 L-shaped bracket 43 pin-supported link 75 plate in bending 73 radiator 107 ring in bending 74 round membrane under pres-sure 110 shaft in torsion 72 slender cantilever beam in bending 109 spot-welded cantilever 45 tensile strip with circular hole 42 tuning fork 111 unsupported and hingesupported beam 113 U-shaped support bracket 112 Extrusion 48 F Faces, mesh control applied to 49f FAQs about FEA 155 FE models 9 assignment of mass to 158 boundary conditions applied to 164 degrees of freedom in 156Index Terms Links This page has been reformatted by Knovel to provide easier navigation. major concepts of 13 techniques to reduce size of 165 FEA alternatives to 168 basic steps of 155 from CAD models to results 5 compared to prototyping and testing 139 concurrence with design pro-cess 2 confused with CAD 149 contracting out for services 147 148f defining objective of 62 demonstrating usefulness of to organization 139 for design engineers 2 equations for, formulation of 10 156 expectations of 148 expertise in 148 frequently asked questions about 155 golden rule of 168 implementation of 132 incompetent analysis in 155 introduction to 1 level of detail in 154 limitations of 2 misconceptions about 151 objectives of 2 poorly defined 148 reasons for dominance of 8Index Terms Links This page has been reformatted by Knovel to provide easier navigation. resources for users 169 return on investment in 139 time constraints of 148 training in 135 types of 77 164 using in design process 123 FEA analysts 133 FEA geometry difference from CAD geometry 123 in CAD-FEA process 132 requirements of 123 FEA projects analyzing results in 144 checkpoints in 145f common errors in management of 147 evaluating results in 143 FE model in 143 from managerial point of view 140 initial questions for 141 major steps in 141 mathematical model in 142 modeling approach in, costeffective 142 reports in 144 166 scope of analysis in 142 FEA quiz 151 FEA results correlating with experiment 153 errors in 11Index Terms Links This page has been reformatted by Knovel to provide easier navigation. high accuracy of 152 validating 139 140t FEA software 135 152 analysis types available in 137 automesher in 137 and benchmarking 154 computing considerations for 139 cost considerations for 138 139 error reporting in 152 integration with CAD software 131 136 presentation tools in 137 proficiency in 148 requirements for 138 selection criteria 136 user control in 136 user support for 138 139 Fillets 6 36 38 57 Finite difference method 8 Finite element analysis (FEA), see FEA Finite element method (FEM) defined 8 Finite elements (FEs) 9 formulation of 13 major assumptions of 155 types of 18 158 First-order elements 13 14f difference from second-order 157 Fixed support 86f Floating solids 126Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Floating support 70 86f Following load 86 87f Follow-up, to FEA reports 144 167 Force boundary conditions 5 Forced compatibility 52 53f Frequencies, natural 94 95 97 101 Frequency 93 Frequency analysis 92 137 Frequency response analysis 104 Frequency sweep 104 G Gap 51 Gauss points 162 Geometry accuracy of representation 151 boundary conditions applied to 164 defining, relative uncertainty in 65 nonlinear 84 model 8 154 in FEA reports 144 166 nonlinear 84 surface 125 solid 125 wire-frame 125 see also CAD geometry, FEA geometry Geometry cleanup 126Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Geometry creation 63 131 Glossary 171 H h-Elements 21 22f 23t 160 Hands-on exercises, see under Exercises Heat flow induced by heat load and con-vection 78 induced by prescribed temper-ature 77 Heat flux 78 Heat power 78 Hexahedral elements 21 Hybrid element 157 Hybrid meshing 50 I Idealization 125 Incompatible elements 51 159 Inertial stiffness 92 99 Integration of CAD and FEA software 131 Inter-element compatibility 15 157 Internal compatibility 15 157 Interpretation of results, in modal analysis 94 L Large deformation analysis 84 Legal liability 147Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Linear analysis 81 137 compared to nonlinear analysis 86 Linking displacement components 52 Links 51 Load vector 11 80 Loads 6 10 64 154 164 buckling, safety factor 100 conservative 86 87f defining, relative uncertainty in 65 in FEA reports 144 166 following 86 87f heat 78 non-conservative 86 87f non-following 86 87f orientation of 86 volume 64 Local cylindrical coordinate system 70 M Machine design 135 Manual meshing 47 Mapping element 18 19f incorrect 56 Mass assignment of, to FE model 158 units of 62t Mass density, units of 62tIndex Terms Links This page has been reformatted by Knovel to provide easier navigation. Mass matrix 93 Master entity 52 53f Materials, mechanics of 135 Materials properties 6 assigning 64 defining 64 143 relative uncertainty in 65 nonlinear 81 Mathematical models 1 10f 61 formulation of 5 selecting best 7 Measurement units, selecting 62 Membrane elements 20 50t Membrane stiffness 84 85f Mesh bias 49 128 Mesh compatibility 50 Mesh control 49f 131 Mesh refinement 25 non-uniform 32 Mesh size 151 153 Meshing techniques 47 Meshes in FEA reports 144 inadequacy of 130 quality check tools for 130 Meshing 9 21 123 126 152 automatic 48 common problems with 52 128 considerations for modal analy-sis 99Index Terms Links This page has been reformatted by Knovel to provide easier navigation. in contact stress analysis 89 manual 47 semi-automatic 48 Minimum total potential energy 10 156 Modal analysis 92 137 154 applications of 95 comparison of results 98t difference from static analysis 93 displacement results in 94 importance of supports in 94 interpretation of results 94 meshing considerations for 99 pre-stress 97 with rigid body modes 94 stress results 94 symmetry and anti-symmetry boundary conditions in 97 Modal frequencies 95 convergence of results 99 Modal superposition method 96 99 101 in frequency response analysis 104 Model stiffness, insufficient elements to represent 55 Modeling, simplified 65 80f Modeling errors 11 161 in buckling analysis 100 Modeling process 61 Modeling steps 61 Modeling techniques, useful 65 ModelsIndex Terms Links This page has been reformatted by Knovel to provide easier navigation. mathematical 1 10f 61 formulation of 5 selecting best 7 physical 1 see also FE models Modes of vibration 92 Modified analysis 146 147 Modulus of elasticity 81 Multiple entities 126 N Natural boundary conditions 64 Natural frequencies 92 94 95 97 101 Nodal degree of freedom 156 Nodal displacements 10 13 156 vector of 11 80 Nodal stresses 162 Non-conservative load 86 87f Non-following load 86 87f Nonlinear analysis 80 164 compared to linear analysis 86 Nonlinear buckling analysis 100 Nonlinear geometry 84 Nonlinear materials 81 Numerical error 161 Numerical methods in engineering analysis 7 selecting 7 Nylon, in contact stress analysis 91Index Terms Links This page has been reformatted by Knovel to provide easier navigation. O Optimization design 117 factors defining process 119 goal of 119 structural 117 topological 117 118f Orientation, of load 86 Overlap 51 P p-Elements 21 22f 23t 160 Patch test 15 157 Personnel training 133 146 149 Physical models 1 Pin supports 70 Plane stress 2-D 13 Plasticity 36 Point supports 38 Poisson’s ratio 81 Polygons 57 Polynomial functions 13 Pre-stress, modal analysis 97 Prisms 21 Product design process, traditional 3f Prototyping and testing, compared to FEA 139 Q Quadrilateral elements 21Index Terms Links This page has been reformatted by Knovel to provide easier navigation. R Ramberg-Osgood model 81 Realignment of degrees of free-dom 69 Repetitive symmetry 69 70f Resonance 92 Resonant frequencies 95 Restraints 10 64 154 168 defining, relative uncertainty in 65 in FEA reports 144 166 Revolution 48 Rigid body modes, modal analysis with 94 Rigid body motion 15 41 157 Rotation 13 S S.I. system of measurements 62 Second-order deformation 13 Second-order displacement func-tions 13 Second-order elements 13 14f difference from first-order 157 Semi-automatic meshing 48 Sensitivity studies 119 Shaker table test 104 Shape deformation, effect on stiffness 84 89 Shape functions 13 157 impact of choice of 15Index Terms Links This page has been reformatted by Knovel to provide easier navigation. linear 13 requirements to be satisfiedby 15 Sharp re-entrant corner 35 42t 80 Shell elements 19 50t 125 128 165 incorrect conversion to 57 Single-degree-of-freedom systems 101 Singularities displacement 38 stress 35 83 130f Slave entity 52 53f Solid elements 19 50t 128 151 first-order tetrahedral 153 Solid geometry 125 Solution errors 12 29 30f 162 Static analysis, difference from modal analysis 93 Steel, in contact stress analysis 91 Stiffness matrix 11 80 166 Strain 11 55 2-D plane 20 constant 15 157 distribution of 14 Strain gauge, placement of 96 Stress 11 32 55 2-D plane 13 15 20 averaged 162 compressive 97 concentrations of 153 distribution of 14Index Terms Links This page has been reformatted by Knovel to provide easier navigation. dynamic 99 in modal analysis 94 nodal 162 tensile 88 97 yield 81 Stress analysis 5 6 135 154 contact 89 Stress averaging 16 162 Stress convergence curve 35 Stress singularities 35 83 130f Stress stiffening 97 Stress stiffness 99 Stress-strain 81 StressCheck 4 Structural analysis 1 analogies to thermal analysis 77 78t nonlinear behavior in 80 Structural optimization 117 supports defining 64 fixed 86f floating 70 86f importance in modal analysis 94 pin 70 point 38 Surface, solution domain represented as 6 Surface geometry 125 Swelling 88 89f Symmetry, taking advantage of 65 165Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Symmetry boundary conditions in modal analysis 97 in thermal analysis 79 T 2-D analysis 13 166 2-D plane strain 20 2-D plane stress 13 15 20 3-D analysis 14f 20 Temperature 6 10 11 77 Tensile stress 88 97 Tetrahedral elements 21 128 153 Thermal analysis 1 77 modeling considerations in 79 steady-state 137 Time response analysis 102 Topological optimization 117 118f Torsion 68f 88 Training, personnel 133 Translation 13 69 Triangular elements 13 21 U Uncertainties, relative 65 Units of measurement, selecting 62 V Vertex, mesh control applied to 49f Vibration 135 modes of 92Index Terms Links This page has been reformatted by Knovel to provide easier navigation. Vibration analysis 101 Volume loads 64 Volume, solution domain represented as 5 W Weak spots 96 Wire-frame geometry 125 Y Yield stress 81
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