Advances in Production Technology.

By: Brecher, ChristianMaterial type: TextTextSeries: Lecture Notes in Production Engineering SeriesPublisher: Cham : Springer International Publishing AG, 2014Copyright date: �2015Edition: 1st edDescription: 1 online resource (212 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9783319123042Genre/Form: Electronic books.Additional physical formats: Print version:: Advances in Production TechnologyLOC classification: TS1-2301Online resources: Click to View
Contents:
Intro -- Preface -- Contents -- 1 Introduction -- 1.1 The Cluster of Excellence ``Integrative Production Technology for High-Wage Countries'' -- 1.2 Scientific Roadmap -- Acknowledgment -- References -- Part ITowards a New Theory of Production -- 2 Hypotheses for a Theory of Production in the Context of Industrie 4.0 -- Abstract -- 2.1 Introduction -- 2.2 Collaboration Productivity Due to Industrie 4.0-Enablers -- 2.3 Mechanisms and Target States Due to Increased Productivity -- 2.3.1 Revolutionary Product Lifecycles -- 2.3.2 Virtual Engineering of Complete Value Chains -- 2.3.3 Revolutionary Short Value Chains -- 2.3.4 Better Performing Than Engineered -- 2.4 Conclusion -- Acknowledgments -- References -- 3 The Production Logistic Theory as an Integral Part of a Theory of Production Technology -- 3.1 Motivation -- 3.2 Theory Development in the Context of Production Technology -- 3.3 Production Logistic Theory -- 3.4 Towards a Theory of Production Technology -- 3.5 Summary and Outlook -- References -- Part IIIndividualised Production -- 4 Business Models with Additive Manufacturing---Opportunities and Challenges from the Perspective of Economics and Management -- Abstract -- 4.1 Introduction -- 4.2 Technological Characteristics Driving AM's Economic Impact -- 4.3 AM Ecosystem -- 4.4 Examples of Existing AM Businesses -- 4.5 How AM Facilitates User Innovation and Entrepreneurship -- 4.5.1 Local Manufacturing and 3D Printing at Home -- 4.5.2 User Innovation and AM -- 4.5.3 User Entrepreneurship and AM -- 4.6 Conclusions -- Acknowledgment -- References -- 5 SLM Production Systems: Recent Developments in Process Development, Machine Concepts and Component Design -- Abstract -- 5.1 Introduction -- 5.2 SLM Machine Concepts -- 5.2.1 Valuation Method for SLM Machine Concepts -- 5.2.2 SLM Machine Concept Parallelization -- 5.3 Process Development.
5.4 Functional Adapted Component Design -- 5.4.1 Topology Optimisation and SLM -- 5.4.2 Functional Adapted Lattice Structures and SLM -- Acknowledgment -- References -- Part IIIVirtual Production Systems -- 6 Meta-Modelling Techniques Towards Virtual Production Intelligence -- Abstract -- 6.1 Introduction -- 6.2 Meta-Modelling Methods -- 6.2.1 Sampling -- 6.2.2 Interpolation -- 6.2.3 Exploration -- 6.3 Applications -- 6.3.1 Sheet Metal Cutting with Laser Radiation -- 6.3.2 Laser Epoxy Cut -- 6.3.3 Sheet Metal Drilling -- 6.3.4 Ablation of Glass -- 6.4 Conclusion and Outlook -- Acknowledgments -- References -- 7 Designing New Forging Steels by ICMPE -- Abstract -- 7.1 Introduction -- 7.2 Interplay of Various Modelling Approaches -- 7.3 Microalloyed Forging Steels -- 7.4 Microalloyed Gear Steel for HT-Carburizing -- 7.5 Bainitic Steels -- 7.6 Al-Free Gear Steel -- 7.7 Conclusions -- Acknowledgments -- References -- Part IVIntegrated Technologies -- 8 Productivity Improvement Through the Application of Hybrid Processes -- Abstract -- 8.1 Introduction -- 8.2 Classification of Hybrid Processes -- 8.3 Assisted Hybrid Processes -- 8.3.1 Reduction of Process Force -- 8.3.2 Higher Material Removal Rate -- 8.3.3 Reduced Tool Wear -- 8.3.4 Excellent Surface Quality -- 8.3.5 High Precision -- 8.4 Mixed Processes and Process Mechanisms -- 8.4.1 Combinations with EDM -- 8.4.2 Combinations with Grinding -- 8.4.3 Process Combinations with Hardening -- 8.4.4 Combination of Forming Processes -- 8.5 Conclusions -- Acknowledgments -- References -- 9 The Development of Incremental Sheet Forming from Flexible Forming to Fully Integrated Production of Sheet Metal Parts -- Abstract -- 9.1 Introduction to Incremental Sheet Metal Forming -- 9.2 Design of a Machine for Hybrid ISF -- 9.2.1 Basic Set-up for Stretch-Forming and ISF -- 9.2.2 Basic Set-up for Laser-Assisted ISF.
9.2.3 CAX Environment -- 9.3 Case Study: Stretch Forming and ISF -- 9.4 Case Study: Heat-Assisted ISF -- 9.5 Improvements by the Hybrid ISF Variants -- Acknowledgments -- References -- 10 IMKS and IMMS---Two Integrated Methods for the One-Step-Production of Plastic/Metal Hybrid Parts -- Abstract -- 10.1 Introduction -- 10.2 Integrated Metal/Plastics Injection Moulding (IMKS) -- 10.2.1 Device for the Processing of Low-Melting Metal Alloys -- 10.2.2 IMKS Mould Technology -- 10.2.3 Influence of Variothermal Mould Temperature Control on the Achievable Conductive Track Length -- 10.3 In-Mould-Metal-Spraying (IMMS) -- 10.3.1 Selection of Materials and Thermal Spraying Process -- 10.4 Conclusion and Outlook -- Acknowledgments -- References -- Part VSelf-Optimising Production Systems -- 11 A Symbolic Approach to Self-optimisation in Production System Analysis and Control -- 11.1 Introduction -- 11.2 Cognitive Automation -- 11.2.1 Cognitive Automation of Assembly Tasks -- 11.2.2 Adaptive Planning for Human-Robot Interaction -- 11.3 Embedding the Cognitive Control Unit into an Architecture for Self-optimising Production Systems -- 11.4 System Validation -- 11.5 Summary and Outlook -- Acknowledgments -- References -- 12 Approaches of Self-optimising Systems in Manufacturing -- Abstract -- 12.1 Self-optimising Systems in Manufacturing -- 12.2 Autonomous Generation of Technological Models -- 12.2.1 Interactive Human Machine Interface -- 12.2.2 Planning and Organisation of Milling Tests -- 12.2.3 Automated Execution of Milling Tests -- 12.2.4 Modelling and Evaluation -- 12.3 Self-optimised Injection Moulding -- 12.4 Summary and Outlook -- Acknowledgment -- References -- 13 Adaptive Workplace Design Based on Biomechanical Stress Curves -- Abstract -- 13.1 Introduction.
13.2 Capabilities of Existing Methods of Workplace Design in Context of Self-optimizing Production Systems -- 13.3 Use of Biomechanical Human Models for Workplace Design -- 13.4 Approach for Body Part-Oriented Indication of Physiological Strain in Real Time -- 13.5 Use of Biomechanical Stress Curves in Context of Adaptive Workplace Design -- 13.6 Conclusion and Outlook -- References -- Part VIHuman Factors in Production Technology -- 14 Human Factors in Production Systems -- Abstract -- 14.1 Motives for Integrating Human Factors in Production Engineering---the Challenge -- 14.1.1 The Contribution of the Social Sciences -- 14.2 Methods for Understanding and Quantifying Human Factors---the Potential -- 14.2.1 Metrics, Procedures and Empirical Approaches -- 14.2.2 Case Studies---Examples of the Potential of Exploring Human Factors -- 14.3 Beyond---How to Amend Productivity with Quality of (Work)Life---the Vision -- 14.3.1 Enabling Communication in Interdisciplinary Teams -- 14.3.2 Motivators for High Performance Cultures -- Acknowledgments -- References -- 15 Human Factors in Product Development and Design -- 15.1 Introduction -- 15.2 The Human Perception of Quality -- 15.3 The Manifestation of Human Perception and Cognition -- 15.4 Human Oriented Product Development Processes -- Acknowledgment -- References.
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Intro -- Preface -- Contents -- 1 Introduction -- 1.1 The Cluster of Excellence ``Integrative Production Technology for High-Wage Countries'' -- 1.2 Scientific Roadmap -- Acknowledgment -- References -- Part ITowards a New Theory of Production -- 2 Hypotheses for a Theory of Production in the Context of Industrie 4.0 -- Abstract -- 2.1 Introduction -- 2.2 Collaboration Productivity Due to Industrie 4.0-Enablers -- 2.3 Mechanisms and Target States Due to Increased Productivity -- 2.3.1 Revolutionary Product Lifecycles -- 2.3.2 Virtual Engineering of Complete Value Chains -- 2.3.3 Revolutionary Short Value Chains -- 2.3.4 Better Performing Than Engineered -- 2.4 Conclusion -- Acknowledgments -- References -- 3 The Production Logistic Theory as an Integral Part of a Theory of Production Technology -- 3.1 Motivation -- 3.2 Theory Development in the Context of Production Technology -- 3.3 Production Logistic Theory -- 3.4 Towards a Theory of Production Technology -- 3.5 Summary and Outlook -- References -- Part IIIndividualised Production -- 4 Business Models with Additive Manufacturing---Opportunities and Challenges from the Perspective of Economics and Management -- Abstract -- 4.1 Introduction -- 4.2 Technological Characteristics Driving AM's Economic Impact -- 4.3 AM Ecosystem -- 4.4 Examples of Existing AM Businesses -- 4.5 How AM Facilitates User Innovation and Entrepreneurship -- 4.5.1 Local Manufacturing and 3D Printing at Home -- 4.5.2 User Innovation and AM -- 4.5.3 User Entrepreneurship and AM -- 4.6 Conclusions -- Acknowledgment -- References -- 5 SLM Production Systems: Recent Developments in Process Development, Machine Concepts and Component Design -- Abstract -- 5.1 Introduction -- 5.2 SLM Machine Concepts -- 5.2.1 Valuation Method for SLM Machine Concepts -- 5.2.2 SLM Machine Concept Parallelization -- 5.3 Process Development.

5.4 Functional Adapted Component Design -- 5.4.1 Topology Optimisation and SLM -- 5.4.2 Functional Adapted Lattice Structures and SLM -- Acknowledgment -- References -- Part IIIVirtual Production Systems -- 6 Meta-Modelling Techniques Towards Virtual Production Intelligence -- Abstract -- 6.1 Introduction -- 6.2 Meta-Modelling Methods -- 6.2.1 Sampling -- 6.2.2 Interpolation -- 6.2.3 Exploration -- 6.3 Applications -- 6.3.1 Sheet Metal Cutting with Laser Radiation -- 6.3.2 Laser Epoxy Cut -- 6.3.3 Sheet Metal Drilling -- 6.3.4 Ablation of Glass -- 6.4 Conclusion and Outlook -- Acknowledgments -- References -- 7 Designing New Forging Steels by ICMPE -- Abstract -- 7.1 Introduction -- 7.2 Interplay of Various Modelling Approaches -- 7.3 Microalloyed Forging Steels -- 7.4 Microalloyed Gear Steel for HT-Carburizing -- 7.5 Bainitic Steels -- 7.6 Al-Free Gear Steel -- 7.7 Conclusions -- Acknowledgments -- References -- Part IVIntegrated Technologies -- 8 Productivity Improvement Through the Application of Hybrid Processes -- Abstract -- 8.1 Introduction -- 8.2 Classification of Hybrid Processes -- 8.3 Assisted Hybrid Processes -- 8.3.1 Reduction of Process Force -- 8.3.2 Higher Material Removal Rate -- 8.3.3 Reduced Tool Wear -- 8.3.4 Excellent Surface Quality -- 8.3.5 High Precision -- 8.4 Mixed Processes and Process Mechanisms -- 8.4.1 Combinations with EDM -- 8.4.2 Combinations with Grinding -- 8.4.3 Process Combinations with Hardening -- 8.4.4 Combination of Forming Processes -- 8.5 Conclusions -- Acknowledgments -- References -- 9 The Development of Incremental Sheet Forming from Flexible Forming to Fully Integrated Production of Sheet Metal Parts -- Abstract -- 9.1 Introduction to Incremental Sheet Metal Forming -- 9.2 Design of a Machine for Hybrid ISF -- 9.2.1 Basic Set-up for Stretch-Forming and ISF -- 9.2.2 Basic Set-up for Laser-Assisted ISF.

9.2.3 CAX Environment -- 9.3 Case Study: Stretch Forming and ISF -- 9.4 Case Study: Heat-Assisted ISF -- 9.5 Improvements by the Hybrid ISF Variants -- Acknowledgments -- References -- 10 IMKS and IMMS---Two Integrated Methods for the One-Step-Production of Plastic/Metal Hybrid Parts -- Abstract -- 10.1 Introduction -- 10.2 Integrated Metal/Plastics Injection Moulding (IMKS) -- 10.2.1 Device for the Processing of Low-Melting Metal Alloys -- 10.2.2 IMKS Mould Technology -- 10.2.3 Influence of Variothermal Mould Temperature Control on the Achievable Conductive Track Length -- 10.3 In-Mould-Metal-Spraying (IMMS) -- 10.3.1 Selection of Materials and Thermal Spraying Process -- 10.4 Conclusion and Outlook -- Acknowledgments -- References -- Part VSelf-Optimising Production Systems -- 11 A Symbolic Approach to Self-optimisation in Production System Analysis and Control -- 11.1 Introduction -- 11.2 Cognitive Automation -- 11.2.1 Cognitive Automation of Assembly Tasks -- 11.2.2 Adaptive Planning for Human-Robot Interaction -- 11.3 Embedding the Cognitive Control Unit into an Architecture for Self-optimising Production Systems -- 11.4 System Validation -- 11.5 Summary and Outlook -- Acknowledgments -- References -- 12 Approaches of Self-optimising Systems in Manufacturing -- Abstract -- 12.1 Self-optimising Systems in Manufacturing -- 12.2 Autonomous Generation of Technological Models -- 12.2.1 Interactive Human Machine Interface -- 12.2.2 Planning and Organisation of Milling Tests -- 12.2.3 Automated Execution of Milling Tests -- 12.2.4 Modelling and Evaluation -- 12.3 Self-optimised Injection Moulding -- 12.4 Summary and Outlook -- Acknowledgment -- References -- 13 Adaptive Workplace Design Based on Biomechanical Stress Curves -- Abstract -- 13.1 Introduction.

13.2 Capabilities of Existing Methods of Workplace Design in Context of Self-optimizing Production Systems -- 13.3 Use of Biomechanical Human Models for Workplace Design -- 13.4 Approach for Body Part-Oriented Indication of Physiological Strain in Real Time -- 13.5 Use of Biomechanical Stress Curves in Context of Adaptive Workplace Design -- 13.6 Conclusion and Outlook -- References -- Part VIHuman Factors in Production Technology -- 14 Human Factors in Production Systems -- Abstract -- 14.1 Motives for Integrating Human Factors in Production Engineering---the Challenge -- 14.1.1 The Contribution of the Social Sciences -- 14.2 Methods for Understanding and Quantifying Human Factors---the Potential -- 14.2.1 Metrics, Procedures and Empirical Approaches -- 14.2.2 Case Studies---Examples of the Potential of Exploring Human Factors -- 14.3 Beyond---How to Amend Productivity with Quality of (Work)Life---the Vision -- 14.3.1 Enabling Communication in Interdisciplinary Teams -- 14.3.2 Motivators for High Performance Cultures -- Acknowledgments -- References -- 15 Human Factors in Product Development and Design -- 15.1 Introduction -- 15.2 The Human Perception of Quality -- 15.3 The Manifestation of Human Perception and Cognition -- 15.4 Human Oriented Product Development Processes -- Acknowledgment -- References.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2023. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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