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Table of Contents
Intro
Research Campus Open Hybrid LabFactory
Contents
Editors and Contributors
1 Introduction
Abstract
1.1 Demand for Automotive Lightweight Body Parts
1.2 Engineering of Automotive Lightweight Body Parts-the MultiMaK2 Approach
1.2.1 Body Part Design
1.2.2 Body Part Manufacturing
1.2.3 Life Cycle Engineering
1.3 Reference Body Parts of the Project
1.4 Contents and Structure of the Book
References
2 Development of Automotive Body Parts in Multi-Material Design-Processes and Tools
Abstract
2.1 Introduction
2.2 Review on Development and Lightweight Design Approaches
2.2.1 Development Processes and Goals
2.2.2 Material Selection and Lightweight Design Approaches
2.3 Developing Approach for Multi-Material Automotive Body Parts
2.3.1 Level 0: Requirements Model
2.3.2 Level 1: Material, Geometry and Design Model
2.3.3 Level 2: Generic Topology Model
2.3.4 Levels 3 and 4: Detailed Concept Model and System Model
2.4 Case Study
2.4.1 Case Study 1: Roof Reinforcement
2.4.2 Case Study 2: Centre Tunnel
2.5 Summary and Outlook
References
3 Knowledge Management
Abstract
3.1 Introduction
3.2 Review on Knowledge Management in Product Development
3.2.1 Approaches to Knowledge Provision
3.3 Providing Knowledge for Multi-Material Designs
3.4 Identifying Relevant Knowledge
3.4.1 Identify Relevant Knowledge from the Literature
3.4.2 Identify Relevant Knowledge Based on Current Applications of Multi-Material Design
3.5 Accessing Relevant Knowledge
3.6 Identifying Similar Design Rules
3.7 Prototypic Knowledge Management System
3.7.1 Case Study
3.7.2 Discussion
References
4 Levers of Cyber Physical Production Systems for Multi-Material Body Parts Manufacturing
Abstract
4.1 Introduction
4.2 Cyber Physical Production Systems
4.3 CPPS-based Architecture
4.3.1 Levers of Data-Based Modelling for the Manufacturing of Multi-Material Body Parts
4.3.2 CPPS-Based Architectural Approach
4.4 Exemplary Use Case: Deriving Product-specific Energy Consumptions through Data-based Modelling
4.5 Summary
References
5 Modeling and Simulation of New Manufacturing Processes for Multi-Material Lightweight Body Parts to Estimate Environmental Impacts
Abstract
5.1 Introduction
5.2 Manufacturing Processes for Multi-Material Lightweight Body Parts
5.3 Determining Environmental Impacts of New Manufacturing Processes via Modelling and Simulation
5.4 Approach and Implementation for Multi-Material Lightweight Body Parts
5.5 Bottom-up Modelling of Processes
5.6 Process Chain Modelling Environment
5.7 Case Study-Modelling and Simulation of Manufacturing Processes at the Open Hybrid LabFactory
5.8 Summary and Outlook
References
Research Campus Open Hybrid LabFactory
Contents
Editors and Contributors
1 Introduction
Abstract
1.1 Demand for Automotive Lightweight Body Parts
1.2 Engineering of Automotive Lightweight Body Parts-the MultiMaK2 Approach
1.2.1 Body Part Design
1.2.2 Body Part Manufacturing
1.2.3 Life Cycle Engineering
1.3 Reference Body Parts of the Project
1.4 Contents and Structure of the Book
References
2 Development of Automotive Body Parts in Multi-Material Design-Processes and Tools
Abstract
2.1 Introduction
2.2 Review on Development and Lightweight Design Approaches
2.2.1 Development Processes and Goals
2.2.2 Material Selection and Lightweight Design Approaches
2.3 Developing Approach for Multi-Material Automotive Body Parts
2.3.1 Level 0: Requirements Model
2.3.2 Level 1: Material, Geometry and Design Model
2.3.3 Level 2: Generic Topology Model
2.3.4 Levels 3 and 4: Detailed Concept Model and System Model
2.4 Case Study
2.4.1 Case Study 1: Roof Reinforcement
2.4.2 Case Study 2: Centre Tunnel
2.5 Summary and Outlook
References
3 Knowledge Management
Abstract
3.1 Introduction
3.2 Review on Knowledge Management in Product Development
3.2.1 Approaches to Knowledge Provision
3.3 Providing Knowledge for Multi-Material Designs
3.4 Identifying Relevant Knowledge
3.4.1 Identify Relevant Knowledge from the Literature
3.4.2 Identify Relevant Knowledge Based on Current Applications of Multi-Material Design
3.5 Accessing Relevant Knowledge
3.6 Identifying Similar Design Rules
3.7 Prototypic Knowledge Management System
3.7.1 Case Study
3.7.2 Discussion
References
4 Levers of Cyber Physical Production Systems for Multi-Material Body Parts Manufacturing
Abstract
4.1 Introduction
4.2 Cyber Physical Production Systems
4.3 CPPS-based Architecture
4.3.1 Levers of Data-Based Modelling for the Manufacturing of Multi-Material Body Parts
4.3.2 CPPS-Based Architectural Approach
4.4 Exemplary Use Case: Deriving Product-specific Energy Consumptions through Data-based Modelling
4.5 Summary
References
5 Modeling and Simulation of New Manufacturing Processes for Multi-Material Lightweight Body Parts to Estimate Environmental Impacts
Abstract
5.1 Introduction
5.2 Manufacturing Processes for Multi-Material Lightweight Body Parts
5.3 Determining Environmental Impacts of New Manufacturing Processes via Modelling and Simulation
5.4 Approach and Implementation for Multi-Material Lightweight Body Parts
5.5 Bottom-up Modelling of Processes
5.6 Process Chain Modelling Environment
5.7 Case Study-Modelling and Simulation of Manufacturing Processes at the Open Hybrid LabFactory
5.8 Summary and Outlook
References