This book covers Fused Deposition modeling (FDM) from its fundamentals to research advances including developments in FDM machines, development of polymer materials, novel applications, process modeling, simulation, and optimization backed by case studies and research results.
This book covers Fused Deposition modeling (FDM) from its fundamentals to research advances including developments in FDM machines, development of polymer materials, novel applications, process modeling, simulation, and optimization backed by case studies and research results.
It explains the effect of important FDM parameters on part quality, appropriate methods for testing and characterization of FDM fabricated parts, FDM of composite materials, process monitoring and control. It also covers applications of FDM process in automobile, aerospace, biomedical, pharmaceutical and tissue engineering.
Key features:
- Provides all the necessary fundamental details and advancements in fused deposition modeling (FDM)
- Details novel ways of fabrication of complex and intrinsic parts by using different types of plastics and polymers materials
- Covers fabrication of miniature devices by FDM
- Discusses Finite element analysis, modeling, and optimization, and sustainability rating, for fused deposition modeling
- Includes monitoring and control, intelligent processing, and application of AI and ML based part fabrication
This book is aimed at graduate students and researchers in materials science and manufacturing.
Chapter 1: Exploring Fused Deposition Modelling Processes: Mechanics,
Working Principles, and Applications in Research and Development
Parth Patel, Anuj Rajoriya, Arka Ghosh, Rakesh Roshan, Sally Abdul Hussain
Kadhum
Chapter 2: Design for Manufacturability with Fused Deposition Modeling
Albert E. Patterson, Yong Hoon Lee
Chapter 3: Additive manufacturing of metallic parts using Fused Deposition
Modelling: a quest for new materials
R Durga Prasad Reddy, Mohit Kumar, Aswani Kumar Singh, Ramandeep Singh, Varun
Sharma
Chapter 4: Study of effect of process parameters on mechanical properties of
build parts using fused deposition modelling: Medical Application
Neha Choudhary, Mohit Kumar, Vinod Singh Rajput
Chapter 5: Parametric Optimization of FDM process using Heat transfer search
algorithm
Nikhil Aditya, Siba Sankar Mahapatra
Chapter 6: Parametric optimization of the FDM process parameters: A
MOORA-driven multi-objective decision-support approach
Arpan Paul, Manik Chandra Das, Siba Sankar Mahapatra
Chapter 7: Revolutionizing Application Sectors of Fused Deposition Modeling:
From Rapid Prototyping to Customization
Pankaj Kumar, Sanhita Mandal, Rohit Anand, Ganesh Sahadeo Meshram
Chapter 8: A Rapid Tool Fabrication using Fused Deposition Modeling
Rohit Anand, Pankaj Kumar, Ganesh Sahadeo Meshram
Chapter 9: Study on the effect of Process Parameters on Mechanical Properties
of Nylon 12 Carbon Fiber composite using Fused Deposition Modeling
Pratap Chandra Padhi, Ravindra Reddy N., Karthi S, Arpan Paul
Chapter 10: Effect of build orientation and infill density on mechanical
properties of FDM build ABS parts
Kumar Aviseck Jati, Pradeep Kumar Mishra
Chapter 11: Study on Effect of Process Parameters on Mechanical Properties of
Build Parts Using Fused Deposition Modelling
Borra N. Dhanunjayarao, N. V. Swamy Naidu, Adapa Sateesh, Uzwalkiran Rokkala,
Bommidi Roop Sandeep, G. Santosh Kumar, Ch. Bharath Kumar, Usha Kiran
Sanivada, P. V. N. Sai Kumar
Chapter 12: Short and continuous fibre composites in additive manufacturing:
processability and affinity with structural optimization methods
Afonso Oliveira, Marco Leite
Anshuman Kumar Sahu is a post-doctoral researcher at IDMEC, IST, University of Lisbon, Lisbon, Portugal. His areas of research are additive manufacturing, rapid prototyping and rapid tooling, non-traditional machining, powder metallurgy, and optimization of manufacturing processes. He is presently working on Lean and Green Manufacturing in Industry 4.0.
Siba Sankar Mahapatra is working as a professor (HAG) in the Department of Mechanical Engineering, National Institute of Technology, Rourkela, India. He has more than 30 years of experience in research and teaching. He has published 300 research articles in reputed peer-reviewed international journals. His h-index in Google scholar is 62 with more than 16,068 citations. He has three Indian patents. He has authored four books. His academic interest includes rapid prototyping, non-traditional machining, modeling and simulation. He is busy carrying out many projects with national and international partners on additive manufacturing, modern machining, and manufacturing optimization.
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