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Table of Contents
Intro
Preface
Contents
Part I Overview Lectures
1 Composite Mechanics
1.1 Preliminary Remarks
1.2 Definitions, Classifications and Applications
1.3 Laminated Plates
1.3.1 Description of Material Behaviour
1.3.2 Modelling Levels
1.3.3 Modelling Based on Volume and Mass Fraction
1.3.4 Combination of Both Approaches
1.3.5 Elementary Mixture Rules
1.3.6 Effective Properties of a Single Layer
1.3.7 Improved Formulas for Effective Moduli
1.4 Particle-Reinforced Composites
1.4.1 Short-fibre-Reinforced Plastics
1.4.2 Spherical Inhomogeneity with Interphase
1.5 Functionally Graded Materials
1.6 Anti-Sandwich and Nanomaterials
1.7 Summary and Outlook
References
2 Aspects in the Modelling of Heterogeneous Thermo-Oxidative Ageing Using the Example of a Rubber Buffer
2.1 Introduction
2.2 Chemo-Thermo-Mechanical Simulation of a Rubber Buffer
2.2.1 Overview of the Quantities and Equations of the Material Model
2.2.2 Results and Discussion
2.3 Experimental Investigation on Self-heating in Connection with Ageing of a Rubber Buffer
2.4 Conclusion
References
3 Digital Product Development by Additive Manufacturing
3.1 Introduction
3.2 AM-Process Within Digital Product Development and Manufacturing
References
4 Theory of Three-Dimensional Plasticity
4.1 Comments on the Stress Matrix
4.2 Graphical Representation of Yield Conditions
4.3 Yield Conditions
4.3.1 Mises Yield Condition
4.3.2 Tresca Yield Condition
4.3.3 Drucker-Prager Yield Condition
4.4 Flow Rule
4.5 Hardening Rule
4.5.1 Isotropic Hardening
4.5.2 Kinematic Hardening
References
Part II Specialized Lectures
5 Influence of Silicon Content on the Mechanical Properties of Additively Manufactured Al-Si Alloys
5.1 Introduction
5.2 Experimental Methods
5.2.1 Sample Preparation
5.2.2 Chemical Analysis
5.2.3 Flowability
5.2.4 Particle Size Distribution
5.2.5 Hardness
5.2.6 Tensile Tests
5.3 Results and Discussion
5.3.1 Chemical Analysis
5.3.2 Flowability
5.3.3 Particle Size Distribution
5.3.4 Hardness
5.3.5 Tensile Properties
5.4 Conclusions
References
6 Multi-step Additive Manufacturing Technologies Utilizing the Powder Metallurgical Manufacturing Route
6.1 Introduction
6.2 Metal Additive Manufacturing
6.2.1 Single-Step AM Technologies
6.2.2 Multi-step AM Technologies
6.3 Summary
References
7 A Strategy to Extend the Limits of Unsupported Printing in Laser Powder Bed Fusion by Optimized Process Parameters Selection
7.1 Introduction and Motivation
7.2 Laser Powder Bed Fusion Process
7.3 Support Structure
7.4 Methods for Minimizing Support Structure
7.5 Selecting Process Parameters in LPBF
7.5.1 State-of-the-Art Parameter Selection
7.5.2 Parameter-Based Strategy to Minimize Support
7.6 Conclusion
Preface
Contents
Part I Overview Lectures
1 Composite Mechanics
1.1 Preliminary Remarks
1.2 Definitions, Classifications and Applications
1.3 Laminated Plates
1.3.1 Description of Material Behaviour
1.3.2 Modelling Levels
1.3.3 Modelling Based on Volume and Mass Fraction
1.3.4 Combination of Both Approaches
1.3.5 Elementary Mixture Rules
1.3.6 Effective Properties of a Single Layer
1.3.7 Improved Formulas for Effective Moduli
1.4 Particle-Reinforced Composites
1.4.1 Short-fibre-Reinforced Plastics
1.4.2 Spherical Inhomogeneity with Interphase
1.5 Functionally Graded Materials
1.6 Anti-Sandwich and Nanomaterials
1.7 Summary and Outlook
References
2 Aspects in the Modelling of Heterogeneous Thermo-Oxidative Ageing Using the Example of a Rubber Buffer
2.1 Introduction
2.2 Chemo-Thermo-Mechanical Simulation of a Rubber Buffer
2.2.1 Overview of the Quantities and Equations of the Material Model
2.2.2 Results and Discussion
2.3 Experimental Investigation on Self-heating in Connection with Ageing of a Rubber Buffer
2.4 Conclusion
References
3 Digital Product Development by Additive Manufacturing
3.1 Introduction
3.2 AM-Process Within Digital Product Development and Manufacturing
References
4 Theory of Three-Dimensional Plasticity
4.1 Comments on the Stress Matrix
4.2 Graphical Representation of Yield Conditions
4.3 Yield Conditions
4.3.1 Mises Yield Condition
4.3.2 Tresca Yield Condition
4.3.3 Drucker-Prager Yield Condition
4.4 Flow Rule
4.5 Hardening Rule
4.5.1 Isotropic Hardening
4.5.2 Kinematic Hardening
References
Part II Specialized Lectures
5 Influence of Silicon Content on the Mechanical Properties of Additively Manufactured Al-Si Alloys
5.1 Introduction
5.2 Experimental Methods
5.2.1 Sample Preparation
5.2.2 Chemical Analysis
5.2.3 Flowability
5.2.4 Particle Size Distribution
5.2.5 Hardness
5.2.6 Tensile Tests
5.3 Results and Discussion
5.3.1 Chemical Analysis
5.3.2 Flowability
5.3.3 Particle Size Distribution
5.3.4 Hardness
5.3.5 Tensile Properties
5.4 Conclusions
References
6 Multi-step Additive Manufacturing Technologies Utilizing the Powder Metallurgical Manufacturing Route
6.1 Introduction
6.2 Metal Additive Manufacturing
6.2.1 Single-Step AM Technologies
6.2.2 Multi-step AM Technologies
6.3 Summary
References
7 A Strategy to Extend the Limits of Unsupported Printing in Laser Powder Bed Fusion by Optimized Process Parameters Selection
7.1 Introduction and Motivation
7.2 Laser Powder Bed Fusion Process
7.3 Support Structure
7.4 Methods for Minimizing Support Structure
7.5 Selecting Process Parameters in LPBF
7.5.1 State-of-the-Art Parameter Selection
7.5.2 Parameter-Based Strategy to Minimize Support
7.6 Conclusion