Graduate Alumni
We have strongly connected with our graduate alumni and welcome them to recommend candidate to join us
Meet our Alumni @ 2024
Chen 陳哲智 @ July 2024
Development of a Multi-Slurry Three-dimensional Printing System Based on the Top-Down Photopolymerization Method and Fabrication of Dual-ceramic Plate-Lattice Structure
Jach Huang黃品豪@ July 2024
Tech Lead
解翔餘@ July 2024
Product Manager
薛兆恩@ July 2024
Product Designer
陳品筑@ July 2024
Product Designer
鄭僑瑋@ July 2024
Product Designer
Meet Our Alumni @ 2023
Dr. M Fahrur Rozy Hendihu @Feb 2023
Dissertation title: Investigation of Multi-Material Additive Manufacturing Based on VAT Photopolymerization: Application of Multi-Resin and Multi-Slurry
光聚合固化多材料積層製造技術之開發:多樹脂與多漿料之應用
Dr. Alvian Toto Wibisono @Jan 2024
Dissertation title: Printing Parameter Effect on Laser-Powder-Bed Fusion of Stainless Steel 316L for Complex 3D Components and Its Application
雷射粉末床溶融不銹鋼316L之列印參數優化以製作高精度複雜三維形狀與其應用
Chieh-Hsun Wang 王建勳@July 2023
Dissertation title: Development of Dual-resin Photopolymerization 3D Printer and Printing Process Optimization of Soft/Hard Hybrid Auxetic Structure
開發雙樹脂光固化聚合三維列印機暨軟/硬拉脹
結構之列印製程優化
Ting-Lun Song 宋挺綸@July 2023
Dissertation title: Investigation on Combination of Three-Dimensional Printing with Water-Washable Zirconia Photocurable Slurry and Precision Casting for Fabricating Ceramic/metal Interconnected Composite Object
水可洗氧化鋯光固化漿料三維列印技術結合精密鑄造製作互穿複合結構之研究
Yu-Yan Wu 吳宇宴@July 2023
Dissertation title: Development of A Fully Digital Design Process for Customized Mandibular Advancement and Its 3D Printing Devices with High Accuracye
開發全數位客製化下顎前移裝置流程與高精度三維列印製作
Abduh Muhammad Fatih@July 2023
Dissertation title: Optimization of Selective Laser Melting Printing Parameters for Inconel 718 to Fabricate Micro Punch with Complex Shape for Deep Drawing Application
選擇性雷射熔融鉻鎳鐵合金718之列印參數優化應用於複雜型狀深引伸
Masrurotin@July 2023
Dissertation title: Dual-Nozzle Fused Deposition Modelling of Stainless Steel 316l/Inconel 718 Composite and Sintering Parameter Optimization
雙噴嘴熔融擠製列印不鏽鋼316L/鉻鎳鐵合金718複合材料與燒結參數優化