研究計畫 Research Projects

(2017~2021)

    1. 微奈米尺度下的複合材料與塗層的磨潤分析, 台俄國際合作計畫, 主持人.(2017/01/01~2019/12/31)

    2. 不同潤滑境域下考慮磨屑與磨損表面變化效應之磨擦模式建立與實驗驗證及其在鏟花加工的應用, 科技部一般計畫, 主持人.(2018/08/01~2021/07/31)

    3. 智慧潤滑即時診斷技術與其創新裝置開發,及提升傳動與加工效能之實機應用, 教育部產學計畫, 主持人. (2018/08/01~2021/07/31)

    4. 以產業應用與實驗載具為基礎的潤滑學課程之問題導向式學習, 教育部教學計畫, 主持人.(2018/08/01~2019/07/31)

    5. 機台潤滑油性能檢測研發, 公司產學計畫, 主持人. (2019/08/01~2023/07/31)

    6. 水分與固體顆粒污染對潤滑磨耗與接觸溫度交互作用及表面擦損損傷過程的影響,及建立擦損失效預測準則與整合油品與振動分析的預先診斷技術, 科技部一般計畫, 主持人. (2019/08/01~2022/07/31)

    7. 軸承滑脂性能與磨潤特性關連性之先期研究, 公司產學計畫, 主持人. (2020/12/01~2021/11/30)

    8. 以不同尺度分析潮濕環境下磨屑顆粒對摩擦與磨耗的影響, 台俄國際合作計畫, 主持人. (2021/01/01~2023/12/31)

    9. 具軟顆粒之三體微接觸磨潤分析模式建立與驗證及其磨潤性能退化的監控技術與監控裝置開發, 科技部一般計畫, 主持人.(2021/08/01~2024/07/31)

    10. 精密傳動元件潤滑表面的損傷與效率分析及其檢測技術研究計畫, 科技部產學計畫, 主持人. (2021/11/01~2023/10/31)

(2017~2021)

    1. Tribology analysis for coatings and composite materials at micro and nano scales, Taiwan-Russia International Cooperation Project. (2017/01/01~2019/12/31, be funded by NSF, ROC )

    2. The Establishment and Experimental Verification of Lubrication Friction Model in Considering the Wear Debris and Wear Surface Effect under All Lubrication Regimes and Its Application in Scraping Process. (2018/08/01~2021/07/31, be funded by NSF, ROC)

    3. Smart Lubrication Diagnostic Technology and Innovative Device Development, and Its Application in Improve Transmission and Processing Efficiency for Machine Tool Project. (2018/08/01~ 2021/07/31, be funded by Ministry of Education, ROC)

    4. Problem Based Learning of Lubrication Course Based on the Industry Application and Test Machine. (2018/08/01~2019/07/31, be funded by Ministry of Education, ROC)

    5. Research on the Performance Testing of Machine Oils. (2019/08/01~2023/07/31, be funded by Industry, ROC)

    6. The Role of Water and Solid Particle Contaminants in Lubrication in the Interactions of Wear and Contact Temperature and Scuffing Damage Process of Surface and its Failure Criterion and Prediagnostic Technology of Integrating Oil Analysis and Vibration. (2019/08/01~ 2022/07/31, be funded by NSF, ROC)

    7. Preliminary Study on the Relationship between Grease Performance in Bearings and Tribological Characteristics (2020/12/01~2021/11/30, be funded by Industry, ROC)

    8. Effect of wear particles on friction and wear in humid environment at various scale levels. Taiwan-Russia International Cooperation Project. (2021/01/01~2023/12/31, be funded by NSF, ROC)

    9. Establishment and Verification of Analysis Model for Three-body Microcontact Condition with Soft Particles, and Its Detective Technology and Device Development for Performance Degradation of Three-body Tribology System. (2021/08/01~2024/07/31, be funded by NSF, ROC)

    10. Study on Damage and Efficiency Analysis of Lubricated Surface of Precision Transmission Components and Its Detection Technology. (2021/11/01~2023/10/31, be funded by NSF and Industry, ROC)