Additive, subtractive, and hybrid technologies : recent innovations in manufacturing / edited by Chander Prakash, Sunpreet Singh, and Seeram Ramakrishna.

Format:

Book

Contributor:

Prakash, Chander, editor.

Singh, Sunpreet, editor.

Ramakrishna, Seeram, editor.

Series:

Mechanical Engineering

Language:

English

Subjects (All):

Manufacturing processes.

Physical Description:

1 online resource (195 pages)

Place of Publication:

Cham, Switzerland : Springer, [2022]

Summary:

This book provides readers with the comprehensive insights of the recent research breakthroughs in additive, subtractive, and hybrid technologies. Further, the book examines incomparable design and manufacturing independences, as well as strategies to upgrade the product performance characteristics through collaborating additive and subtractive technologies. Indeed, the intrinsic benefits and limitations of both additive and subtractive manufacturing technologies could be merged to obtain appreciable hybridizations. The editorial team members and contributors to Additive, Subtractive, and Hybrid Technologies are highly motivated experts committed to and the advance of hybrid manufacturing technologies.

Contents:

Intro

Preface

Contents

Contributors

Experimental Study on Machinability of AISI 4340 Steel During Hard Turning by CBN Tool

1 Introduction

2 Methodology

2.1 Taguchi's L9 Orthogonal Array

2.2 Optimization of Turning Process by VIKOR Method

3 Experimental Details

4 Results and Discussion

4.1 Optimization of Turning Process by VIKOR Method

4.2 Tool Wear

5 Conclusion

References

An Experimental Study on Major Process Parameters Effecting the Type of Burrs in Drilling Operation for Mild Steel ASTM A-36

1.1 Formation of Burrs

1.2 Parameters that Influence the Drilling of Burr

1.3 Drilling Burr Learning Mechanism

1.4 Characterization of Burr

2 Boiling Burr Types

2.1 Drill Cap Standard Burr

2.2 Cap-Less Dress Burr

2.3 Burr Crown

2.4 Temporary or Transient Burr

3 Burrs in Drilling-Associated Issues

4 Drilling Burr Replacement Techniques

5 Core Remarks/Discussion

6 Context for Analysis

7 Strategies to Raising Drilling Burrs

7.1 Method Optimization to Reduce Burrs

8 Important Significance of Burr Formation

9 Conclusion and Remarks

Investigations on Mechanical Properties of Reinforced Secondary Recycled ABS as Filament for 3D Printing Applications

2 Materials Selection and Experimentation

3 Results and Discussion

4 Conclusion

Mechanical and Morphological Properties Correlation of PLA-PVC-Wood Powder-Fe3O4 Composite Matrix for 3D Printing

2 Material and Methods

3 Development of Correlation Matrix and Discussions

4 Conclusions

Analysis of Machining Parameters in Drilling of Biocompatible Composite: HAp-HDPE and HAp-UHMWPE

2 Experimental Analysis

2.1 Preparation of Composites and Characterization.

2.2 Drilling of Composites

3 Multi-response Optimization Using Principal Component Analysis

4 Results and Discussions

4.1 Principal Component Analysis

4.2 Estimation of Optimum Performance of Parameters

4.3 Confirmation Experiment

5 Conclusions

A Framework for Magnetic Field-Assisted Electrical Discharge Machining (MFA-EDM) of Inconel-625 Using Bio-oil Dielectric

2 Hybrid Machining Process (HMP)

3 Framework for Future Research

4 Studies on Hybrid EDM Process

5 Mechanism of Magnetic Field-Assisted EDM (MFA-EDM) Process

6 Studies on MFA-EDM Process

7 Inferences from Literature

8 Research Gaps

9 Steps to Be Followed

10 Conclusions

Investigation of Mechanical Properties in Friction Stir Welded Mg AZ 31 Alloy Workpieces

1 Introduction: Background and Driving Forces

2 Research Methods

3 Welded Joint Characterization

3.1 Tensile Strength

3.2 Flexural Strength

3.3 Impact Toughness

4.1 Tensile Strength

4.2 Flexural Strength

4.3 Impact Toughness

Correlation of Mechanical and Rheological Properties of Al-Al2O3-Nylon 6 Composite Feedstock Filament for Rapid Tooling

1 Introduction: Background

2 Materials and Methods

A Framework on Electrochemical Machining of ABS-15% Al Composite

2 Research Approach

Cost-Effective Design of Soft Robotic Prosthetic Arm Based on 3D Printing

1.1 Need and Significance of the Prosthetic Arm Design

1.2 Problem Statement

1.3 Present Study Design Objective

3 Conceptualization and a Basic Idea

3.1 Material Selection

3.2 Design.

3.3 Muscle Design

3.4 Structure Design

3.5 Control and Electronics

3.6 Actuator Fabrication Process

3.7 Utilization of Additive Manufacturing

Macro-Mechanical Modeling of 3D Printed Material

2 Three-Dimensional (3D) Printing

3 Fused Deposition Modeling

3.1 Principle and Working of Fused Deposition Modeling

3.2 Governing Parameters

4 Constitutive Modeling

4.1 Orthotropic Composite Lamina Approach

4.2 Transversely Isotropic Composite Lamina Approach

5 Macro-Mechanical Modeling and Analysis of FDM Parts

5.1 Specimen Fabrication

5.2 Mathematical Modeling

5.3 Classical Laminate Theory (CLT)

5.4 Modified Classical Laminate Theory (MCLT)

5.5 Analytical Modeling for Monotonic Loading

5.6 Constants

5.7 Finite Element Analysis

6 Results and Discussion

6.1 Analytical Results of CLT

6.2 Analytical Results of MCLT

6.3 Finite Element Analysis of CLT

6.4 Finite Element Analysis of CLT

7 Conclusions

Exploration on Doped TiO2 Nanostructures for Application in Optoelectronics and Additive Manufacturing of Functional Prototypes

2 Semiconductor (TiO2) Nanowires

3 Applications of TiO2 Nanowire

4 TiO2 Crystal Structure

5 Synthesis of Semiconductor Nanowires

6 Synthesis of TiO2 Nanoparticles

7 TiO2 Composite and Its Applications

8 Framework for Additive Manufacturing of TiO2-Reinforced Functional Prototypes

9 Summary

Welding-Based Additive Manufacturing for Biomedical Applications: From Concept to Technology

2 Welding-Based Additive Manufacturing (WBAM) Systems

2.1 Benefits of WBAM Techniques

2.2 Robotic WBAM System

2.3 Fabrication Process Using WBAM System

3 Variants of WBAM Process

3.1 GMAW-Based AM System.

Cold Metal Transfers GMAW AM System

Tandem GMAW AM System

3.2 GTAW-Based AM System

3.3 PAW-Based AM Systems

3.4 Solid State Additive Manufacturing

4 Methodologies Used for Quality Improvement in the WBAM System

4.1 Cold Metalworking-Based Method

4.2 Post-Process Heat Treatment

4.3 Interpass Heat Reduction/Interpass Cooling

5 Problems and Defects Associated with Welding-Based Additive Manufacturing

5.1 Deformation and Residual Stress

5.2 Porosity and Lack of Fusion

5.3 Accuracy and Surface Finish

5.4 Cracking and Delamination

6 Applications of WBAM Processes for Biomedical Sector

7 Conclusions and Future Scope

Index.

Notes:

Includes bibliographical references and index.

Description based on print version record.

Other Format:

Print version: Prakash, Chander Additive, Subtractive, and Hybrid Technologies

ISBN:

3-030-99569-0