Modern Mechanical Engineering

Volume 10, Issue 3 (August 2020)

ISSN Print: 2164-0165   ISSN Online: 2164-0181

Google-based Impact Factor: 1.11  Citations  

Application and Development of 3D Printing in Medical Field

HTML  XML Download Download as PDF (Size: 776KB)  PP. 25-33  
DOI: 10.4236/mme.2020.103003    2,048 Downloads   9,761 Views  Citations

ABSTRACT

Different from reduction manufacturing and equal manufacturing, 3D printing is an additive manufacturing method, which transforms 3D model into 2D cross-section data to form entity layer by layer. This makes its processing not limited by complexity of the design model and number of the manufacturing products. It is very suitable for the medical field with high customization requirements. In fact, application of 3D printing technology in the medical field is particularly noticeable. In this paper, application and development of 3D printing technology are reviewed in medical model, rehabilitation equipment, tissue engineering, medical hygiene materials, lab-on-chip. Its applications include medical education, surgical planning, prosthesis customization, tissue culture and biosensor manufacturing and so on. Its wide application is due to its digital model, which makes the whole manufacturing process easier to digitize, so it is more conductive to updating and customization of products via 3D printing.

Share and Cite:

Chunhua, S. and Guangqing, S. (2020) Application and Development of 3D Printing in Medical Field. Modern Mechanical Engineering, 10, 25-33. doi: 10.4236/mme.2020.103003.

Cited by

[1] Orbital Prosthesis Rehabilitation in Biomedical Engineering by Means of Computer Vision-Photogrammetry and 3D Prototyping
Journal of Engineering, 2024
[2] Applications of 3D Printing in Medical, Engineering, Agricultural, and Other Sectors
Additive Manufacturing of Bio-implants: Design and …, 2024
[3] Kelayakan Bisnis Finansial Produksi Implan Biomedis Dengan Menggunakan Proses Manufaktur Aditif
Journal of Economic …, 2023
[4] Advancement in Biomaterials in the Form of Implants
… Biomaterials: Synthesis and …, 2023
[5] Robotization and Smart Technologies in the Hospitality Industry
… in Tourism, Hotels, and Food Service, 2023
[6] Next-Generation Technologies in Health Tourism
Global Perspectives on the Opportunities and …, 2023
[7] Artificial bone scaffolds and bone joints by additive manufacturing: A review
Bioprinting, 2023
[8] 3D printing in photocatalysis: Methods and capabilities for the improved performance
Cortés, AI Moral-Rodríguez… - Applied Materials …, 2023
[9] Possibilities, performance and challenges of nitinol alloy fabricated by Directed Energy Deposition and Powder Bed Fusion for biomedical implants
Journal of Manufacturing …, 2023
[10] The Mechanical, Thermal, and Biological Properties of Materials Intended for Dental Implants: A Comparison of Three Types of Poly (aryl-ether-ketones)(PEEK and …
Polymers, 2023
[11] Customized Cost-Effective Cranioplasty for Large Asymmetrical Defects
Processes, 2023
[12] Additive Manufacturing (AM) and Reverse Engineering (RE) in Orthopedic Applications: A Case Study in Total Elbow Arthroplasty (TEA)
2022
[13] A Systematic Design and Analysis Method of Elastic 3D Printed Knee Supportive Orthotic Devices to Meet Individual Needs
2022
[14] Cost Profile of 3D Printing Using Biomaterials on a Lab Scale
bone, 2022
[15] Sustainability in 3D Printing Process: Filament Recycling and Manufacturing Process
VD Virtuoso
[16] РАЗРАБОТКА СПОСОБА РЕКОНСТРУКЦИИ ПОСТТРАВМАТИЧЕСКИХ ДЕФЕКТОВ ВЕРХНЕЙ ЧЕЛЮСТИ В ОБЛАСТИ ОРБИТЫ С ПРИМЕНЕНИЕМ …

Journals Menu
Follow SCIRP
Contact us
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2026 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.