Post-Processing Techniques for Metal-Based Additive Manufacturing: Towards Precision Fabrication
暫譯: 金屬基增材製造的後處理技術：邁向精密製造

本書分享了為了實現增材製造金屬的精密級表面而採用的後處理技術的見解，包括材料特性技術和識別的材料性質。

後處理過程涵蓋了支撐結構的移除、熱處理以及材料移除過程，包括混合製造。還討論了增材製造金屬的獨特應用案例，作為後處理設計和選擇過程中考量的範例。

- 關注金屬增材製造的後處理關鍵方面
- 系統性介紹相關材料
- 通過對材料特性方法和評估的深入理解，展示後處理技術的選擇
- 包含超精密加工技術的深入驗證
- 回顧工業級鈦合金、鋼材和鋁合金的精密製造，結合增材製造技術

本書的目標讀者為高級製造、增材製造、加工和材料處理領域的研究人員、專業人士和研究生。

Hao Wang (PhD, MSME, MASME) is an Alexander von Humboldt fellow, and Assistant Professor at the Department of Mechanical Engineering in National University of Singapore. He was awarded the Japan Society for the Promotion of Science (JSPS) fellowship in 2020. He has a persistent dedication to the research in micro-cutting theory and the physics of machining processes. His research covers system and process development, design and implementation of machining and polishing systems, material characterisation, etc. His research themes are centralized on bridging the gap between additive manufacturing and ultra-precision machining technology. He has published over 110 peer-reviewed journal articles. He is currently serving as an Associate Editor for the Journal of Intelligent Manufacturing.

Yan Jin Lee is a Research Fellow in the Department of Mechanical Engineering at the National University of Singapore. His research focuses on novel solutions to augment the ultra-precision machining process to produce optical-grade surface finishing with nanoscopic roughness. His PhD research revealed novel physical effects of coatings on the ultra-precision machining of brittle single crystals, which had earned him the NUS President's Graduate Fellowship and the Heidenhain Scholarship recognized by the European Society for Precision Engineering and Nanotechnology. He currently sits on the International Scientific Committee for the European Society for Precision Engineering and Nanotechnology. Presently, he characterizes the machinability of anisotropic brittle materials and aerospace metals by incorporating nano-/microscopic surface effects in micro-cutting and the finite element method numerical modelling. His experience in assessing the machinability of various metals, such as maraging steels and aluminium alloys, is beneficial to provide a perspective from conventional approaches when compared with post-processes for additive manufacturing.

Bai Yuchao is a Senior Research Fellow at the Department of Mechanical Engineering in National University of Singapore. He received his Bachelor's degree and PhD from South China University of Technology in 2013 and 2018, respectively. He has been engaged in the development of additive manufacturing technology and manufacturing process since 2013. His main research interest includes laser metal additive manufacturing and post-processing, multi-material manufacturing, ultra-precision post-processing, and hybrid manufacturing processing for comprehensive research in the field. He is the topic editor of the journal Coating, and the author of more than 40 peer-reviewed scientific papers on metal additive manufacturing and post-processing. He has co-authored a book "Powder-bed laser melting additive manufacturing technology" (Associate Editor, Chinese Edition). His expertise and innovation in the development of additive manufacturing machines and additive/subtractive hybrid machine process designs have yielded a number of patents, where 50 were successfully patented by China and Japan, and four are pending Patent Cooperation Treaty (PCT). Several successful patents have been applied in commercial 3D printers. His patent on additive/milling hybrid manufacturing technology obtained the Silver Patent Award and the national Invention-Entrepreneurship Gold Award. Currently, he is serving as a reviewer for more than a dozen international SCI-indexed journals.

Zhang Jiong is a research fellow at Department of Mechanical Engineering, National University of Singapore (NUS). He obtained his PhD from the Department of Mechanical Engineering at NUS and an M.S. (mechanical engineering) from Shanghai Jiao Tong University and a B.A. (mechanical engineering) from Zhejiang University. His research focuses on post-processing for additive manufacturing, internal polishing, and ultraprecision machining. He is particularly interested in developing and modelling post-processing techniques for additively manufactured components, including support removal and surface quality enhancement. He has published more than 23 peer-reviewed journal papers in top-tiered journals such as Additive Manufacturing, Rapid Prototyping Journal, International Journal of Machine Tools and Manufacture, Materials and Design, Precision Engineering, etc. He has also published nine conference papers and one book chapter. In addition, he is a member of euspen's International Scientific Committee since 2021 and has been serving as an active reviewer for several SCI-indexed journals.

王浩（博士，機械工程碩士，機械工程學會會員）是亞歷山大·馮·洪堡獎學金獲得者，並擔任新加坡國立大學機械工程系的助理教授。他於2020年獲得日本學術振興會（JSPS）獎學金。他對微切削理論和加工過程物理學的研究持續投入。他的研究涵蓋系統和過程開發、加工和拋光系統的設計與實施、材料特性分析等。他的研究主題集中於彌合增材製造與超精密加工技術之間的差距。他已發表超過110篇經過同行評審的期刊文章。目前，他擔任《智能製造期刊》的副編輯。

李彥進是新加坡國立大學機械工程系的研究員。他的研究專注於增強超精密加工過程的新解決方案，以生產具有納米級粗糙度的光學級表面處理。他的博士研究揭示了塗層對脆性單晶超精密加工的新物理效應，這使他獲得了新加坡國立大學校長研究生獎學金和由歐洲精密工程與納米技術學會認可的海登海因獎學金。他目前是歐洲精密工程與納米技術學會的國際科學委員會成員。目前，他通過在微切削和有限元素法數值建模中納入納米/微觀表面效應，來表徵各向異性脆性材料和航空航天金屬的可加工性。他在評估各種金屬（如馬氏體鋼和鋁合金）的可加工性方面的經驗，對於提供與增材製造後處理相比的傳統方法的視角是有益的。

白宇超是新加坡國立大學機械工程系的高級研究員。他於2013年和2018年分別獲得華南理工大學的學士學位和博士學位。他自2013年以來一直從事增材製造技術和製造過程的開發。他的主要研究興趣包括激光金屬增材製造及後處理、多材料製造、超精密後處理以及混合製造過程，以進行該領域的綜合研究。他是期刊《塗層》的主題編輯，並在金屬增材製造和後處理方面發表了超過40篇經過同行評審的科學論文。他共同編著了《粉床激光熔化增材製造技術》（副編輯，中譯本）。他在增材製造機器和增材/減材混合機器過程設計的開發方面的專業知識和創新，獲得了多項專利，其中50項已成功在中國和日本獲得專利，四項正在等待專利合作條約（PCT）。幾項成功的專利已應用於商業3D打印機。他的增材/銑削混合製造技術專利獲得了銀獎專利和國家發明創業金獎。目前，他擔任十多本國際SCI索引期刊的審稿人。

張炯是新加坡國立大學（NUS）機械工程系的研究員。他在NUS機械工程系獲得博士學位，並在上海交通大學獲得機械工程碩士學位，在浙江大學獲得機械工程學士學位。他的研究專注於增材製造的後處理、內部拋光和超精密加工。他特別感興趣於為增材製造的組件開發和建模後處理技術，包括支撐去除和表面質量提升。他在《增材製造》、《快速原型製作期刊》、《國際機械工具與製造期刊》、《材料與設計》、《精密工程》等頂級期刊上發表了超過23篇經過同行評審的期刊論文。他還發表了九篇會議論文和一章書籍。此外，自2021年以來，他是歐洲精密工程與納米技術學會的國際科學委員會成員，並一直擔任多本SCI索引期刊的活躍審稿人。