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Table of Contents
Intro
Preface
Acknowledgements
Contents
About the Editors
Introduction to Sustainable Manufacturing
1 Background and Rationale
2 Why Sustainable Manufacturing?
3 Impact of Manufacturing Processes on Environment
3.1 Carbon Footprint Analysis
3.2 The Impact Equation
3.3 Life Cycle Assessment
4 Methods and Tools to Maintain and Assess Sustainability in Manufacturing
5 Degree of Sustainability
6 Conclusion
References
Sustainable Material Selection
1 Introduction
2 Sustainable Material
3 Types of Sustainable Materials
4 Characteristics of Sustainable Materials
5 Method of Selecting Materials
6 Selection Criteria for Sustainable Material
7 Environment Benefits of Using Sustainable Materials
8 Future of Sustainability
9 Conclusion
References
Sustainable Product Design for Electric Vehicles
1 Introduction
2 Electric Vehicles (EVs)
3 Literature Review
3.1 Electric Vehicle
3.2 Sustainable Design
4 Recent Development
4.1 Detailed Analysis of Literature
5 Future Research Directions
6 Conclusion
References
Sustainability Assessment of Organizations Based on the Orientations of Product Sustainability
1 Introduction
2 Literature Review
2.1 Sustainability
2.2 VIKOR
2.3 ECQFD
2.4 LCA
2.5 Literature Gap
3 Methodology
3.1 Sustainability Assessment Model
3.2 Formation of the Evaluation Matrix
3.3 Material Selection Using Fuzzy VIKOR
3.4 Design Modifications Using ECQFD
3.5 Process Sustainability Using Life Cycle Assessment
4 Sustainability Index Calculations
5 Practical Implications
6 Conclusions
References
Sustainability in Manufacturing
1 Introduction
2 Sustainable Manufacturing
2.1 How to Measure the Sustainability
2.2 Sustainable Manufacturing Practices
2.3 Management Integrity
3 Role of Technology
3.1 Technology Use Cases in Manufacturing
4 Automotive Manufacturing
5 Conclusion
References
Experimental Investigation of Machining NIMONIC 80 Alloy by WEDM Process via Multi-objective Optimisation Techniques: A Sustainable Approach
1 Introduction
2 Literature Review
3 Experimentation Methodology
3.1 Selection of Machining Conditions
3.2 Experimental Design
3.3 Methodology for Multi Objective Optimisation by Taguchi-PSI
3.4 Methodology for Multi-objective Optimisation by Grey Relational Analysis (GRA)
4 Results and Discussion
4.1 Taguchi-PSI Approach
4.2 GRA Approach
5 Conclusions
References
Prediction and Optimization of Sustainable Production Processes for Automotive Components
1 Introduction and Literature
2 Methodology
3 Design Specifications of Gears
4 Design of Gearbox
5 Structural Analysis and Optimization of the Components
6 Application of Additive Manufacturing Techniques
7 Materials Selected
Preface
Acknowledgements
Contents
About the Editors
Introduction to Sustainable Manufacturing
1 Background and Rationale
2 Why Sustainable Manufacturing?
3 Impact of Manufacturing Processes on Environment
3.1 Carbon Footprint Analysis
3.2 The Impact Equation
3.3 Life Cycle Assessment
4 Methods and Tools to Maintain and Assess Sustainability in Manufacturing
5 Degree of Sustainability
6 Conclusion
References
Sustainable Material Selection
1 Introduction
2 Sustainable Material
3 Types of Sustainable Materials
4 Characteristics of Sustainable Materials
5 Method of Selecting Materials
6 Selection Criteria for Sustainable Material
7 Environment Benefits of Using Sustainable Materials
8 Future of Sustainability
9 Conclusion
References
Sustainable Product Design for Electric Vehicles
1 Introduction
2 Electric Vehicles (EVs)
3 Literature Review
3.1 Electric Vehicle
3.2 Sustainable Design
4 Recent Development
4.1 Detailed Analysis of Literature
5 Future Research Directions
6 Conclusion
References
Sustainability Assessment of Organizations Based on the Orientations of Product Sustainability
1 Introduction
2 Literature Review
2.1 Sustainability
2.2 VIKOR
2.3 ECQFD
2.4 LCA
2.5 Literature Gap
3 Methodology
3.1 Sustainability Assessment Model
3.2 Formation of the Evaluation Matrix
3.3 Material Selection Using Fuzzy VIKOR
3.4 Design Modifications Using ECQFD
3.5 Process Sustainability Using Life Cycle Assessment
4 Sustainability Index Calculations
5 Practical Implications
6 Conclusions
References
Sustainability in Manufacturing
1 Introduction
2 Sustainable Manufacturing
2.1 How to Measure the Sustainability
2.2 Sustainable Manufacturing Practices
2.3 Management Integrity
3 Role of Technology
3.1 Technology Use Cases in Manufacturing
4 Automotive Manufacturing
5 Conclusion
References
Experimental Investigation of Machining NIMONIC 80 Alloy by WEDM Process via Multi-objective Optimisation Techniques: A Sustainable Approach
1 Introduction
2 Literature Review
3 Experimentation Methodology
3.1 Selection of Machining Conditions
3.2 Experimental Design
3.3 Methodology for Multi Objective Optimisation by Taguchi-PSI
3.4 Methodology for Multi-objective Optimisation by Grey Relational Analysis (GRA)
4 Results and Discussion
4.1 Taguchi-PSI Approach
4.2 GRA Approach
5 Conclusions
References
Prediction and Optimization of Sustainable Production Processes for Automotive Components
1 Introduction and Literature
2 Methodology
3 Design Specifications of Gears
4 Design of Gearbox
5 Structural Analysis and Optimization of the Components
6 Application of Additive Manufacturing Techniques
7 Materials Selected