| Name | Fang-Sung Cheng |
|---|---|
| Job Title | Associate Professor |
| Tel | +886-5-631-5326 |
| Fax | +886-5-631-5310 |
| Job | Associate Professor, Department of Mechanical and Computer-Aided Engineering |
| Expertise | Micro/Nano-imprinting Process, Metal Forming Analysis, Computer-Aided Mold Design and Manufacturing |
| Courses | ◎Factory Internship ◎Computer-Aided Manufacturing and Practice ◎Statics ◎Materials Laboratory ◎CNC Machine Tools Practice ◎Strength of Materials ◎Aerospace Intelligent Machining Systems ◎Computer-Aided Mold Engineering |
| Education | Ph.D., Department of Mechanical Engineering, National Taiwan University |
| Experience | ◎Assistant Engineer, Power & Biotechnology Division, Hua Rong Wire & Cable Co., Ltd., Jul. 1992 ~ Jun. 1993 ◎Engineer, Mold Design & R&D Division, Riley Corporation, Jul. 1995 ~ Jun. 1999 ◎Lecturer, Department of Mechanical Engineering, Da-Han Institute of Technology, Aug. 1999 ~ Jul. 2007 ◎Assistant Professor, Department of Mechanical Engineering, Da-Han Institute of Technology, Aug. 2007 ~ Jan. 2011 ◎Assistant Professor, Department of Mechanical and Computer-Aided Engineering, National Formosa University (NFU), Feb. 2011 ~ Jan. 2016 ◎Associate Professor, Department of Mechanical and Computer-Aided Engineering, National Formosa University (NFU), Feb. 2016 ~ Present ◎Chair, Department of Mechanical and Computer-Aided Engineering, National Formosa University (NFU), Aug. 2021 ~ Jul. 2024 |
| Banner |  |
- Journal Paper
- Conference Paper
- Project
- Patent
- Industrial Cooperation Project
- Student Project Competition
| Year | Paper Title |
|---|---|
| 2022 | J. H. Chang, F. S. Cheng, C. C. Chao, Y. C. Weng, S. Y. Yang, and L. A. Wang, “Direct imprinting using soft mold and gas pressure for large area and curved surface”, J. Vac. Sci. Technol. A, 23(6), 1687-1690, Oct 2005 [SCI IF= 1.394, Rank 11/56], Jan. 2022 |
| 2022 | Fang-Sung Cheng, S. Y. Yang, Shih-Chih Nian and Lon A. Wang, “Soft mold and gasbag pressure mechanism for patterning submicron patterns onto a large concave substrate”, J. Vac. Sci. Technol. B, 24, 1724-1727 ,May2006. [SCI IF= 1.597], Jan. 2022 |
| 2022 | Sen-Yeu Yang, Fang-Sung Cheng, Sue-Wen Xu, Po-Hsun Huang, and Tzu-Chien Huang, “Fabrication of Microlens Arrays Using UV Micro-Stamping with Soft Roller and Gas-pressurized Platform” Microelectronic Engineering, 85, 603-609 ,March 2008.[SCI IF= 1.398], Jan. 2022 |
| 2022 | Fang-Sung Cheng, Pei-Ying Huang, and Sen-Yeu Yang, “Polymer-ridge waveguide fabrication by gas-assisted UV embossing with soft mold” International Polymer Processing, 3,312-316, July 2008,[SCI IF=0.563], Jan. 2022 |
| 2022 | Fang-Sung Cheng, Sen-Yeu Yang, and Chien-Chang Chen, “Novel hydrostatic pressuring mechanism for soft UV-imprinting processes” J. Vac. Sci. Technol. B, 26, 132-136 ,Jan2008. [SCI IF= 1.419], Jan. 2022 |
| 2022 | C. K. Huang, F. S. Cheng “Study on Kneading and Molding of PP/TiO2 Nanocomposite”, International Polymer Processing, 3, 267-271, July 2009 [SCI IF=0.563], Jan. 2022 |
| 2022 | Albert W.-J. Hsue, M.-T. Yan, Fang-Sung Cheng, “Effective Pulses Discriminator and Control Strategy for High Speed Direct-Drive Electrical Discharge Machining” Journal of the Chinese Society of Mechanical Engineers (2010), 3, 267-271 (SCI), Jan. 2022 |
| 2022 | Fang-Sung Cheng and Shih-Chih Nian, “Soft UV-imprinting Using Gasbag Pressure Mechanism for Side-direction and Non-planar Substrate”, Advanced Materials Research,Vols. 189-193, 4068-4072 Feb 2011 (EI), Jan. 2022 |
| 2022 | Fang-Sung Cheng, Albert Wen-Jeng Hsue. “Sub-wavelength structures (SWSs) on the PC film for antireflection by using gas-assisted hot embossing. Advanced Science Letters”, Vol. 5, 1-5. Feb 2012 [SCI, IF=0.356], Jan. 2022 |
| 2022 | F. S. Cheng and Y. S. Cheng, “Using Soft Material as Die during Hot Forging”, Applied Mechanics and Materials ,Vols. 479-480,PP30-34 , Mar 2014(EI), Jan. 2022 |
| 2022 | F. S. Cheng and Y. S. Cheng, “Direct Heating Billet within Die during Hot Forging Process”, Applied Mechanics and Materials Vols. 479-480,PP 25-29 , Mar 2014 (EI), Jan. 2022 |
| 2022 | F. S. Cheng, K. K. Hsu and Y. S. Cheng, “The study of hot forging process by using lower strength material as die”, Materials Research Innovations, Vol. 18, No. S3, May 2014 [SCI, IF=0.356], Jan. 2022 |
| 2022 | F. S. Cheng and Y. S. Cheng, “The study of direct heating billet within the forging dies using resistance method”, Materials Research Innovations, Vol. 18, No. S3, May 2014 [SCI, IF=0.356], Jan. 2022 |
| 2022 | F. S. Cheng, “ A study of one-step-gradual forging process with the progressive heating method”, J Materials and Manufacturing Processes,2015[SCI,IF=1.483], Jan. 2022 |
| Year | Paper Title |
|---|---|
| 2022 | 鄭芳松, 陳永彬, 王倫, 楊申語, “奈米壓印製造技術發展簡介”, 台灣奈米會刊 No7, Dec. 2006, pp15-26, Jan. 2022 |
| 2022 | 鄭芳松, 張哲豪, 張致遠, 楊申語, 陳永彬及王倫, “氣體輔助微奈米壓印技術及其應用”, 機械月刊, May 2007, Jan. 2022 |
| 2022 | Sen-Yeu Yang, Fang-Sung Cheng, Yung-Bin Chen, and Lon A. Wang, ” An Innovative Process Using Soft Mold and Gas-bag Pressuring Mechanism for Replicating Micro/Nano-features Onto Convex Curves Surfaces”, Great Lakes Photonics symposium 2006, 12-16 Jun. 2006, Dayton, Ohio, USA, Jan. 2022 |
| 2022 | S. Y. Yang, F. S. Cheng, T. C. Huang, J. K. Ciou, and J. G. Loeser, “CO2-assisted embossing process for replication at lower-than-Tg”, The 51st International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication (EIBPN 2007), 29 May.–1 Jun. 2007, Denver, Colorado, USA, Jan. 2022 |
| 2022 | F. S. Cheng and S. Y. Yang, “A novel hydrostatic pressuring mechanism for soft UV-imprinting process”, Proceedings, 33rd International Conference on Micro- and Nano-Engineering (MNE 2007), 23-26 Sep. 2007, Copenhagen, Denmark, Jan. 2022 |
| 2022 | F. S. Cheng, P. H. Huang, S. W. Xu, and S. Y. Yang, “Fabrication of Microlens Arrays Using Soft Roller Embossing with Gas-Pressurized Platform”, Proceedings, 33rd International Conference on Micro- and Nano-Engineering (MNE 2007), 23-26 Sep. 2007, Copenhagen, Denmark, Jan. 2022 |
| 2022 | 鄭芳松, 劉燕儒, 楊申語, “氣囊式凹曲面壓印成形技術探討及其應用”,中國機械工程學會第二十四屆全國學術研討會論文集(2007),CSME 2007, E02-0039桃園,中原大學, Jan. 2022 |
| 2022 | 鄭芳松, 林書宏, 楊申語, “液靜壓機構於PDMS模具壓印變形控制探討”,中國機械工程學會第二十四屆全國學術研討會論文集(2007),CSME 2007, E02-0027桃園,中原大學, Jan. 2022 |
| 2022 | 鄭芳松, 蘇信政, 陳宗輝, 許文政, “Design of the Plastic Bottle Resource Recovery System.”, Proceedings of the 5th Intelligent Living Technology Conference (ILT2010) June 6, 2010, Taichung, Taiwan, Jan. 2022 |
| 2022 | F. S. Cheng, “Study of SWSs on the PC film for antireflection using gas-assisted hot embossing”, Proceedings,36th International Conference on Micro & Nano Engineering (MNE 2010), 19 to 22 September 2010, Genoa, Italy, Jan. 2022 |
| 2022 | 黃書偉,鄭芳松 (2011, Dec). 影像處理系統輔助連續沖壓模具設計之研究. CSME2011., Jan. 2022 |
| 2022 | 鄭宇順,鄭芳松 (2011, Dec). 鎳基超合金C276鍛造成形製程模擬與分析. CSME2011, Jan. 2022 |
| 2022 | Fang-Sung Cheng and Yu-shun Cheng (2013, Oct). Direct Heating Billet within Die during Hot Forging Process. International Applied Science Precision Engineering Conference (ASPEC 2013)., Jan. 2022 |
| 2022 | Fang-Sung Cheng and Yi-Sheng Chen (2013, Oct). Using Soft Material as Die during Hot forging. nternational Applied Science Precision Engineering Conference (ASPEC 2013)., Jan. 2022 |
| 2022 | 鄭芳松, 鄭宇順, 楊秉儒,(2013年11月)。模內加熱漸進式鍛造成型研究。第一屆塑性加工研討會(TWTP), Jan. 2022 |
| 2022 | 鄭芳松, 陳奕升, 沈信維(2013年11月)。模內直接加熱金屬成型之可行性研第一屆塑性加工研討會(TWTP), Jan. 2022 |
| 2022 | F. S. Cheng* & Y. S. Cheng (2014, Oct). One-step gradual forging process by using direct heating billet within die. International Conference on Engineering and Technology Innovation (ICETI 2014), Jan. 2022 |
| 2022 | 鄭芳松, 黃書偉, 王保強(2014年11月)。鋁合金雙層複合材料A356及6063之半固態鍛造成形探討。第二屆塑性加工研討會(TWTP), Jan. 2022 |
| 2022 | 鄭芳松, 楊秉儒, 王保強(2014年11月)。鋁合金A356及6063在ECAE成形過程之球化及接合性研究。第二屆塑性加工研討會(TWTP), Jan. 2022 |
| 2022 | 鄭芳松, 沈信維, 董建宏(2014年11月)。高張力鋼板模內電阻式局部加熱孔凸緣沖鍛成形研究。第二屆塑性加工研討會(TWTP), Jan. 2022 |
| Year | Project Title | Period |
|---|---|---|
| 2022 | 附有停電裝置之滑道式電動螺桿開發與應用診斷 /身份:主持人 /執行期限:98.06.01~98.11.31 /委託單位:經濟部技術處 /經費:70,000 | 2022.01 ~ Up to today |
| 2022 | 自動鋼筋折彎機結構設計開發診斷計畫 /身份:主持人 /執行期限:98.06.01~98.11.31 /委託單位:經濟部技術處 /經費:70,000 | 2022.01 ~ Up to today |
| 2022 | 電動螺桿週邊設備開發與應用診斷計畫 /身份:主持人 /執行期限:99.07.01~99.12.3 /委託單位:經濟部技術處 /經費:72,000 | 2022.01 ~ Up to today |
| 2022 | 高張力鋼板冷卻急冷技術開發 /身份:主持人 /執行期限:100.07.1~100.12.30 /委託單位:虎尾科大 /經費:18,000 | 2022.01 ~ Up to today |
| 2022 | 氣輔式滾輪壓印抗反射層元件之機台研究與開發 /身份:主持人 /執行期限:100.10.1~101.6.30 /委託單位:虎尾科大 /經費:90,000 | 2022.01 ~ Up to today |
| 2022 | CNC放電加工及線切割程式設計實務 /身份:主持人 /執行期限:100.07.11~100.07.29 /委託單位:教育部 /經費:1,8000 | 2022.01 ~ Up to today |
| 2022 | 連續沖壓模具於3C產品應用實務設計 /身份:主持人 /執行期限:100.09.02~101.06.30 /委託單位:教育部 /經費:475,000 | 2022.01 ~ Up to today |
| 2022 | 戶外防水連結器之橡膠迫緊品質提昇計畫 /身份:主持人 /執行期限:100.04.21~100.09.20 /委託單位:經濟部工業局 /經費:212,500 | 2022.01 ~ Up to today |
| 2022 | Hastelloy C276鍛造沖孔製程技術開發 /身份:主持人 /執行期限:100.04.21~100.09.20 /委託單位:經濟部工業局 /經費:177,500 | 2022.01 ~ Up to today |
| 2022 | 航太用螺栓頭部差溫及恆溫鍛造成形性輔導計畫 /身份:主持人 /執行期限:101.05.20~101.10.20 /委託單位:經濟部工業局 /經費:180,000 | 2022.01 ~ Up to today |
| 2022 | 捲布機之定額捲取力機構設計即時輔導計畫 /身份:主持人 /執行期限:102.06.08~102.10.31 /委託單位:經濟部工業局 /經費:190,000 | 2022.01 ~ Up to today |
| 2022 | 雲林縣農食產業優化創新加值與紡織產業導入飛機內裝先導輔導計畫 /身份:主持人 /執行期限:103.04.01~103.09.30 /委託單位:經濟部技術處 /經費:1,848,000 | 2022.01 ~ Up to today |
| 2022 | 毛巾織機帶輪設計開發即時輔導計畫 /身份:主持人 /執行期限:103.05.12~103.10.11 /委託單位:經濟部工業局 /經費:205,000 | 2022.01 ~ Up to today |
| 2022 | 氣輔式滾輪壓印技術製作太陽能板抗反射層之研究與開發 /身份:主持人 /執行期限:97.10.01~98.10.31 /委託單位:國科會 /經費:636,000 | 2022.01 ~ Up to today |
| 2022 | 航太用螺栓頭部精密鍛造製程開發與成形分析 /身份:主持人 /執行期限:101.06.01~102.05.31 /委託單位:國科會 /經費:310,000 | 2022.01 ~ Up to today |
| 2022 | 含 A356 雙層結構複合材之鍛型加工成形探討與晶粒細化分析研究 /身份:主持人 /執行期限:102.06.01~103.05.31 /委託單位:國科會 /經費:580,000 | 2022.01 ~ Up to today |
| 2022 | 高張力鋼板模內直接加熱成形及特徵沖鍛技術研究 /身份:主持人 /執行期限:103.08.01~104.07.31 /委託單位:國科會 /經費:722,000 | 2022.01 ~ Up to today |
| Publish Date | Patent Title |
|---|---|
| 2022/01/01 | 附有停電自動復歸裝置之電動螺桿 /專利號碼: M400532 /國別:台灣 |
| 2022/01/01 | 自動收縮式車體防護罩 /專利號碼:M378171 /國別:台灣 |
| 2022/01/01 | 具安全檢測的電源控制裝置 /專利號碼:M372529 /國別:台灣 |
| 2022/01/01 | 特定光固化型壓差式壓印成型設備 /專利號碼:I342270 /國別:台灣 |
| 2022/01/01 | 模具中快速加熱胚料之鍛壓成型裝置及其方法 /專利號碼:102129933(申請號) /國別:台灣 |
| 2022/01/01 | 複合金屬板材及其製造方法 /專利號碼:申請中 /國別:台灣 |
| Year | Research Title | Publish Date | Authors |
|---|---|---|---|
| 2022 | 塑膠射出模具設計與模流分析專案培訓班 /身份:主持人 /執行年份:98年 /備註:教育部 | 2022-01-01 | |
| 2022 | 連續沖壓模具於 3C 產品應用實務設計 /身份:主持人 /執行年份:100 年 /備註:人力扎根 | 2022-01-01 | |
| 2022 | 精密機械加工產學攜手合作 /身份:主持人 /執行年份:101 年 /備註:產學攜手 | 2022-01-01 | |
| 2022 | 精密線性滑軌製作專業產業人才培育計畫 /身份:主持人 /執行年份:102 年 /備註:人力扎根 | 2022-01-01 | |
| 2022 | 精密機械加工產學攜手合作專班 /身份:主持人 /執行年份:102 年 /備註:產學攜手 | 2022-01-01 |
| Activity Name |
|---|
| 年份:103 /主辦單位:教育部產業先進設備人才培育計畫 /比賽項目:模具產業應用與工業設計(創新)製程 /參賽主題:高張力鋼板模內電阻式局部加熱孔凸緣沖鍛成形研究 /獎項:佳作 |
| 年份:103 /主辦單位:第二屆台灣塑性加工研討會論文競賽 /比賽項目:論文競賽 /參賽主題:鋁合金雙層複合材料A356及6063之半固態鍛造成形探討 /獎項:佳作 |
| 年份:103 /主辦單位:第二屆台灣塑性加工研討會論文競賽 /比賽項目:論文競賽 /參賽主題:鋁合金A356及6063在ECAE成形過程之球化及接合性研究 /獎項:佳作 |
| 年份:103 /主辦單位:第二屆台灣塑性加工研討會論文競賽 /比賽項目:論文競賽 /參賽主題:高張力鋼板模內電阻式局部加熱孔凸緣沖鍛成形研究 /獎項:佳作 |
| 年份:102 /主辦單位:教育部產業先進設備人才培育計畫 /比賽項目:專題實作競賽 /參賽主題:模內直接加熱胚料及創新鍛造製程研究 /獎項:入圍 |
| 年份:102 /主辦單位:教育部產業先進設備人才培育計畫 /比賽項目:模具產業應用與工業設計(創新)製程 /參賽主題:模內直接加熱胚料及創新鍛造製程研究 /獎項:亞軍 |
| 年份:101 /主辦單位:全國學生模具實務專題競賽 /比賽項目:模具產業應用與工業設計(創新)製程 /參賽主題:金屬鍛造之模內快速加熱成形研究與開發 /獎項:入圍 |
| 年份:101 /主辦單位:教育部產業先進設備人才培育計畫 /比賽項目:模具產業應用與工業設計(創新)製程 /參賽主題:金屬鍛造之模內快速加熱成形研究與開發 /獎項:佳作 101 |