This book focuses on applications of 4D imaging and 4D printing for development of low-cost, indigenous lab-scale solutions for various biomedical applications. It is based on a selection of benchmark open-source 4D imaging solutions including the effect of different stimulus (such as light, electric field, magnetic field, mechanical load, thermal, hydro, and so forth) to better understand 4D capabilities of printed components. The material is covered across nine chapters dedicated to 4D imaging, 4D printing, and their specific biomedical applications illustrated via case studies related to orthopaedic and dental requirements of veterinary patients.
The book:
•Presents exclusive material on the integration of 4D imaging and 4D printing
•Demonstrates the industrial applications of 4D imaging in 4D printing using multiple case studies
•Discusses use of open-source 4D imaging tools for biomedical applications
•Includes in-house development of smart materials for 4D printing
•Reviews low-cost, indigenous lab-scale solutions for various veterinary applications.
This book is aimed at graduate students and researchers in Additive Manufacturing, Manufacturing Engineering, Production Engineering, Mechanical Engineering, and Materials Engineering.
Author(s): Rupinder Singh
Series: Emerging Materials and Technologies
Publisher: CRC Press
Year: 2022
Language: English
Pages: 167
City: Boca Raton
Cover
Half Title
Series Page
Title Page
Copyright Page
Table of Contents
Editor Biography
List of Contributors
Preface
Chapter 1 Integration of 4D Imaging with 4D Printing
1.1 Introduction
1.2 4D Imaging
1.3 Integration of 4D Imaging with 4D Printing
1.4 Future Trends of 4D Imaging
1.4.1 Agriculture 4.0
1.4.2 Identification of Crop Size and Grading
1.4.3 Industry 4.0
1.4.4 Quality Control in Industry by Imaging
1.4.5 Health 4.0
1.4.6 Advanced Driver-Assistance Systems
1.4.7 4D Imaging in Material Microscopy
1.4.8 4D Imaging in Disaster Management
1.5 Case Study on Ascertaining the Surface Properties of Recycled Thermoplastics after Wear
1.6 Summary and Outlook
References
Chapter 2 Use of Open-Source 4D Imaging Tools for Biomedical Applications
2.1 Introduction
2.2 Medical Imaging
2.3 Case Study on Using Open-Source Software for Virtual Model Reconstruction and Making Ready-To-Print Orthopedic Anatomy Models
2.4 Summary and Outlook
References
Chapter 3 Orthopedic and Dental 4D Requirements for Veterinary Patients
3.1 Introduction
3.2 Background of the Study
3.3 4D Imaging for 4D Printing
3.4 Case Study for the Development of Hap-CS-Based PLA
3.5 Summary
3.6 Acknowledgment
References
Chapter 4 A Case Study for Dentistry Application Using Medical Imaging
4.1 Introduction
4.2 Methodology for Tooth Data Extraction from Medical Imaging Software
4.3 Summary and Future Outlook
References
Chapter 5 Low-Cost, Indigenous, Lab-Scale Solutions for Various Biomedical Applications of Veterinary Patients: Clinical Dentistry and Orthopedics
5.1 Introduction
5.2 Methodology
5.2.1 Step 1: Selection of Fracture Tooth
5.2.2 Step 2: 3D Scanning
5.2.3 Step 3: Standard Triangulation Language (STL) File Generation
5.2.4 Step 4: Measurement of Dimensions
5.2.5 Step 5: Implant Design
5.2.6 Step 6: Analysis
5.3 Experimentation
5.3.1 Fabrication of Implant Parts on DMLS
5.4 Fabrication of Tibia Bone from Medical Imaging Data to a 3D Printed Anatomical Model
5.5 Summary
References
Chapter 6 In-house Development of Smart Materials for 4D Printing
6.1 Introduction
6.2 Literature Gap
6.3 Role of 3D Technology in THA
6.4 Conventional Methods of THA
6.4.1 Step 1: Femoral Canal Fabrication
6.4.2 Step 2: Femoral Broaching
6.4.3 Step 3: Calcar Preparation
6.5 4D Printed Customized Solution for THA
6.6 Role of Smart Thermoplastic Composites in 4D Applications
6.7 Fabrication of Multi-Material 3D Printed Smart Broach Tool
6.8 Summary
6.9 References
Chapter 7 A Case Study on the Use of In-house Prepared Filaments for 4D Printing Applications in Orthopedics
7.1 Introduction
7.2 Methodology
7.3 Material Selection
7.4 Experimentation
7.4.1 Flow Characteristics
7.4.2 Preparation of Feedstock Filaments
7.4.3 Tensile Testing
7.4.4 Scanning Electron Microscopy (SEM)
7.4.5 Shape-Memory Behavior
7.4.6 Electrical Properties
7.5 Results and Discussion
7.5.1 Melt-Flow Behavior
7.5.2 Mechanical Characteristics
7.5.3 Surface Characteristics
7.5.4 V-I and V-R Characteristics
7.5.5 Shape-Memory Effect
7.6 Summary
References
Chapter 8 A Case Study of 4D-Imaging-Assisted 4D Printing for Clinical Dentistry for Canines
8.1 Introduction
8.2 Material and Methods for 4D Printing in Dentistry
8.3 Case Study
8.4 Summary
References
Chapter 9 A Case Study of 4D-Imaging-Assisted 4D Printing for an Efficient Drug-Delivery System for Veterinary Cancer Patients
9.1 Introduction
9.2 Research Gap
9.3 Case Study: Drug-Loaded 3D Printed Polymer for Treatment of Cancer Cells
9.4 Summary
References
Index
