Powder-Based 3D Printing for the Fabrication of Device with Micro and Mesoscale Features

被引:67
作者
Chin, Seow Yong [1 ]
Dikshit, Vishwesh [1 ]
Priyadarshini, Balasankar Meera [1 ]
Zhang, Yi [1 ,2 ]
机构
[1] Nanyang Technol Univ, HP NTU Digital Mfg Corp Lab, 50 Nanyang Ave, Singapore 639798, Singapore
[2] Nanyang Technol Univ, Sch Mech & Aerosp Engn, 50 Nanyang Ave, Singapore 639798, Singapore
来源
MICROMACHINES | 2020年 / 11卷 / 07期
关键词
3D printing; 3D-printed devices; powder bed fusion technologies; micro and mesoscale 3D printing; minimum feature size; 3D-printed scaffold; MULTI JET FUSION; ADDITIVE MANUFACTURING TECHNOLOGIES; OF-THE-ART; MECHANICAL-PROPERTIES; BED FUSION; LATTICE STRUCTURES; PROCESS PARAMETERS; SURFACE-ROUGHNESS; MESH STRUCTURE; DRUG-DELIVERY;
D O I
10.3390/mi11070658
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
Customized manufacturing of a miniaturized device with micro and mesoscale features is a key requirement of mechanical, electrical, electronic and medical devices. Powder-based 3D-printing processes offer a strong candidate for micromanufacturing due to the wide range of materials, fast production and high accuracy. This study presents a comprehensive review of the powder-based three-dimensional (3D)-printing processes and how these processes impact the creation of devices with micro and mesoscale features. This review also focuses on applications of devices with micro and mesoscale size features that are created by powder-based 3D-printing technology.
引用
收藏
页数:32
相关论文
共 239 条
[1]   Direct metal fabrication in rapid prototyping: A review [J].
Ahmed, Naveed .
JOURNAL OF MANUFACTURING PROCESSES, 2019, 42 :167-191
[2]   Helical 3D-Printed Metal Electrodes as Custom-Shaped 3D Platform for Electrochemical Devices [J].
Ambrosi, Adriano ;
Moo, James Guo Sheng ;
Pumera, Martin .
ADVANCED FUNCTIONAL MATERIALS, 2016, 26 (05) :698-703
[3]   Manufacturability of Overhanging Holes Using Electron Beam Melting [J].
Ameen, Wadea ;
Al-Ahmari, Abdulrahman ;
Mohammed, Muneer Khan ;
Mian, Syed Hammad .
METALS, 2018, 8 (06)
[4]   3D-printed microfluidic devices [J].
Amin, Reza ;
Knowlton, Stephanie ;
Hart, Alexander ;
Yenilmez, Bekir ;
Ghaderinezhad, Fariba ;
Katebifar, Sara ;
Messina, Michael ;
Khademhosseini, Ali ;
Tasoglu, Savas .
BIOFABRICATION, 2016, 8 (02)
[5]  
[Anonymous], 2014, LIBR HI TECH NEWS, DOI DOI 10.1108/LHTN-05-2014-0035
[6]   Anisotropic Ti-6Al-4V gyroid scaffolds manufactured by electron beam melting (EBM) for bone implant applications [J].
Ataee, Arash ;
Li, Yuncang ;
Fraser, Darren ;
Song, Guangsheng ;
Wen, Cuie .
MATERIALS & DESIGN, 2018, 137 :345-354
[7]   Binder-jet powder-bed additive manufacturing (3D printing) of thick graphene-based electrodes [J].
Azhari, Amir ;
Marzbanrad, Ehsan ;
Yilman, Dilara ;
Toyserkani, Ehsan ;
Pope, Michael A. .
CARBON, 2017, 119 :257-266
[8]   Additive Manufacturing of Graphene-Hydroxyapatite Nanocomposite Structures [J].
Azhari, Amir ;
Toyserkani, Ehsan ;
Villain, Carole .
INTERNATIONAL JOURNAL OF APPLIED CERAMIC TECHNOLOGY, 2015, 12 (01) :8-17
[9]  
Bain ED., 2019, Polymer-Based Additive Manufacturing: Recent Developments, in ACS Symposium Series, V1315, P7, DOI DOI 10.1021/BK-2019-1315.CH002
[10]   Rapid prototyping or rapid production? 3D printing processes move industry towards the latter [J].
Bak, D .
ASSEMBLY AUTOMATION, 2003, 23 (04) :340-345
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