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Advances in Production Technology / edited by Christian Brecher.

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Format:
Book
Author/Creator:
Brecher, Christian.
Contributor:
Brecher, Christian, editor.
Series:
Lecture Notes in Production Engineering, 2194-0533
Language:
English
Subjects (All):
Manufactures.
Production management.
Machinery.
Machines, Tools, Processes.
Operations Management.
Machinery and Machine Elements.
Local Subjects:
Machines, Tools, Processes.
Operations Management.
Machinery and Machine Elements.
Physical Description:
1 online resource (ix, 211 pages) : illustrations; digital, PDF file(s).
Edition:
1st ed. 2015.
Place of Publication:
Cham : Springer International Publishing : Imprint: Springer, 2015.
Language Note:
English
System Details:
text file
Summary:
This edited volume contains the selected papers presented at the scientific board meeting of the German Cluster of Excellence on “Integrative Production Technology for High-Wage Countries”, held in November 2014. The topical structure of the book is clustered in six sessions: Integrative Production Technology, Individualised Production, Virtual Production Systems, Integrated Technologies, Self-Optimising Production Systems and Human Factors in Production Technology. The Aachen perspective on a holistic theory of production is complemented by conference papers from external leading researchers in the fields of production, materials science and bordering disciplines. The target audience primarily comprises research experts and practitioners in the field but the book may also be beneficial for graduate students.
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
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
Part IIIndividualised Production
4 Business Models with Additive Manufacturing
-Opportunities and Challenges from the Perspective of Economics and Management
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
5 SLM Production Systems: Recent Developments in Process Development, Machine Concepts and Component Design
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
Part IIIVirtual Production Systems
6 Meta-Modelling Techniques Towards Virtual Production Intelligence
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
7 Designing New Forging Steels by ICMPE
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
Part IVIntegrated Technologies
8 Productivity Improvement Through the Application of Hybrid Processes
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
9 The Development of Incremental Sheet Forming from Flexible Forming to Fully Integrated Production of Sheet Metal Parts
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
10 IMKS and IMMS
-Two Integrated Methods for the One-Step-Production of Plastic/Metal Hybrid Parts
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
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
12 Approaches of Self-optimising Systems in Manufacturing
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
13 Adaptive Workplace Design Based on Biomechanical Stress Curves
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
Part VIHuman Factors in Production Technology
14 Human Factors in Production Systems
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
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
References.
Notes:
Bibliographic Level Mode of Issuance: Monograph
Includes bibliographical references.
CC BY-NC
Other Format:
Print version:
ISBN:
9783319123042
OCLC:
1231607722
Access Restriction:
Open access Unrestricted online access

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