faculty

師資介紹

林派臣
  • 姓名

    林派臣

  • 職稱

    專任教授兼系主任

  • 學歷

    密西根大學 / 美國 / 機械工程 / 博士

  • 專長

    摩擦攪拌點銲(FSSW)、超音波銲接(UW)、擠壓扣件(Clinching)、雷射銲接(LW)、破壞力學、疲勞分析

  • 研究室

    工B 532室 R532

  • 聯絡電話

    TEL:(05)272-0411 ext.33325
    FAX:(05)272-0589

  • Email

    imepcl@ccu.edu.tw

  • 網頁

    個人網頁連結

 

1.          Wang, D.-A., Lin, P.-C., and Pan, J.*, 2005. Geometric Functions of Stress Intensity Factor Solutions for Spot Welds in Lap-Shear Specimens. International Journal of Solids and Structures, Vol. 42, pp. 6299-6318. (SCI, Rank:30/136, Q1)

2.          Lin, P.-C., Lin, S.-H., and Pan, J.*, 2006. Modeling of Failure near Spot Welds in Lap-Shear Specimens by a Two-Dimensional Plane Stress Analysis. Engineering Fracture Mechanics, Vol. 73, pp. 2226-2249. (SCI, Rank:27/136, Q1)

3.          Pan, J.* and Lin, P.-C., 2006. Analytical Solutions for Crack-Tip Sectors in Perfectly Plastic Mises Materials under Mixed In-plane and Out-of-plane Shear Loading Conditions. Engineering Fracture Mechanics, Vol.73, pp. 1797-1813. (SCI, Rank:27/136, Q1)

4.          Pan, J.* and Lin, P.-C., 2007. Asymptotic crack-tip fields in perfectly plastic solids under mixed mode II/III loading conditions. Journal of Pressure Vessel Technology, Transactions of the ASME, Vol. 129, pp. 664-669. (SCI, Rank:108/130, Q4) (The Sam Y. Zamrik Literature Award)

5.          Lin, P.-C., Wang, D.-A. and Pan, J.*, 2007, Mode I Stress Intensity Factor Solutions for Spot Welds in Lap-Shear Specimens. International Journal of Solids and Structures, Vol. 44, pp. 1013-1037. (SCI, Rank:30/136, Q1)

6.          Lin, P.-C., Pan, J.* and Pan, T., 2008. Failure Modes and Fatigue Life Estimations of Spot Friction Welds in Lap-Shear Specimens of Aluminum 6111-T4 Sheets, Part 1: Welds Made by a Concave Tool. International Journal of Fatigue, Vol. 30, pp. 74-89. (SCI, Rank:16/130, Q1) Times Cited: 79 (ISI)

7.          Lin, P.-C., Pan, J.* and Pan, T., 2008. Failure Modes and Fatigue Life Estimations of Spot Friction Welds in Lap-Shear Specimens of Aluminum 6111-T4 Sheets, Part 2: Welds Made by a Flat Tool. International Journal of Fatigue, Vol. 30, pp. 90-105. (SCI, Rank:16/130, Q1) Times Cited: 50 (ISI)

8.          Lin, P.-C. and Pan, J.*, 2008. Closed-Form Structural Stress and Stress Intensity Factor Solutions for Spot Welds under Various Types of Loading Conditions. International Journal of Solids and Structures, Vol. 45, pp. 3996-4020. (SCI, Rank:30/136, Q1)

9.          Lin, P.-C. and Pan, J.*, 2008. Closed-Form Structural Stress and Stress Intensity Factor Solutions for Spot Welds in Commonly Used Specimens. Engineering Fracture Mechanics Vol. 75, pp. 5187-5206. (SCI, Rank:27/136, Q1)

10.      Lin, P.-C.* and Wang, D.-A., 2010. Geometric Functions of Stress Intensity Factor Solutions for Spot Welds in U-shape Specimens. International Journal of Solids and Structures, Vol. 47, pp. 691-704. (SCI, Rank:30/136, Q1)

11.      Wang, D.-A.*, Chao, C.-W., Lin, P.-C., and Uan, J.-Y., 2010. Mechanical Characterization of Friction Stir Spot Microwelds. Journal of Materials Processing Technology, Vol. 210, pp. 1942-1948. (SCI, Rank:9/50, Q1)

12.      Lin, P.-C.* and Lin, Z.-L., 2011. Geometric Functions of Stress Intensity Factor Solutions for Spot Welds in Cross-Tension Specimens. Engineering Fracture Mechanics, Vol. 78, pp. 3270-3288. (SCI, Rank:27/136, Q1)

13.      Liu, D.-S.*, Zhuang, Z.-W., Chung, C.-L., and Lin, P.-C., 2011. Modeling of Moisture Diffusion in Permeable Fiber-Reinforced Polymer Composites Using Heterogeneous Hybrid Moisture Element Method. CMC-Computers, materials & Continua, Vol. 26, pp. 111-136. (SCI, Rank:21/156, Q1)

14.      Lin, P.-C.*, Su, Z.-M., He, R.-Y., and Lin, Z.-L., 2012. Failure Modes and Fatigue Life Estimations of Spot Friction Welds in Cross-Tension Specimens of Aluminum 6061-T6 Sheets. International Journal of Fatigue, Vol. 38, pp. 25-35. (SCI, Rank:16/130, Q1)

15.      Zeng, K.-W., Su, Z.-M., Luo, S.-M., Lin, P.-C.*, Dong, M.-T., Tang, T., and Huang, B., 2013. Removing Approach for Flashes of Friction Stir Spot Welds. Journal of Materials Processing Technology, Vol. 213, pp. 1725-33. (SCI, Rank:9/50, Q1)

 

16.      Su, Z.-M., He, R.-Y., Lin, P.-C.*, and Dong, K., 2014. Fatigue Analyses for Swept Friction Stir Spot Welds in Lap-Shear Specimens of Alclad 2024-T3 Aluminum Sheets. International Journal of Fatigue, Vol. 61, pp. 129-140. (SCI, Rank:16/130, Q1)

17.      Su, Z.-M., Lin, P.-C.*, Lai, W.-J., Pan, J., 2015. Fatigue Analyses of Self-Piercing Rivets and Clinch Joints in Lap-Shear Specimens of Aluminum Sheets. International Journal of Fatigue, Vol.72, pp. 53-65. (SCI, Rank:16/130, Q1)

18.      Lin, Z.-L., Lin, P.-C.*, 2016. Geometric Functions of Stress Intensity Factor Solutions for Spot Welds in Coach-Peel Specimens. Engineering Fracture Mechanics, Vol. 156, pp. 141-160. (SCI, Rank: 27/136, Q1)

19.      Su, Z.-M., He, R.-Y., Lin, P.-C.*, Dong K., 2016. Fatigue of Alclad AA2024-T3 Swept Friction Stir Spot Welds in Cross-Tension Specimens. Journal of Materials Processing Technology, Vol. 236, pp. 162-175. (SCI, Rank:9/50, Q1)

20.      Su., Z.-M., Qiu, Q.-H., Lin, P.-C.*, 2016. Design of Friction Stir Spot Welding Tools by Using a Novel Thermal-Mechanical Approach. Materials, Vol. 9, pp. 677-692. (SCI, Rank:132/314, Q2)

21.      Sampath, U. G. T. M., Ching, Y. C.*, Chuah, C. H., Sabariah, J. J., Lin, P.-C., 2016. Fabrication of Porous Materials from Natural/Synthetic Biopolymers and Their Composites. Materials, Vol. 9, pp. 991-1023. (SCI, Rank:132/314, Q2)

22.      Sampath, U. G. T. M., Ching, Y. C.*, Chuah, C. H., Singh, R., Lin, P.-C., 2017. Preparation and Characterization of Nanocellulose Reinforced Semi-Interpenetrating Polymer Network of Chitosan Hydrogel, Cellulose, Vol. 24, pp. 2215-2228. (SCI, Rank:1/21, Q1)

23.      Lin, P.-C.*, Lo, S.-M., 2017. Friction stir clinching of alclad AA2024-T3 sheets. The International Journal of Advanced Manufacturing Technology, Vol. 92, pp. 2425-2437. (SCI, Rank:25/50, Q2)

24.      Lin, P.-C.*, Lo, S.-M., Wu, S.-P., 2018. Fatigue life estimations of alclad AA2024-T3 friction stir clinch joints. International Journal of Fatigue, Vol.107, pp. 13-26. (SCI, Rank:16/130, Q1)

25.      Lin, P.-C.*, Lin, J.-W., Li, G.-X., 2018. Clinching process for aluminum alloy and carbon fiber-reinforced thermoplastic sheets. The International Journal of Advanced Manufacturing Technology, Vol. 97, pp. 529-541. (SCI, Rank:25/50, Q2)

26.      Lui, D.-S.*, Lin, P.-C., Lin, J.-J., Wang, C.-R., Shiau, T.-N., 2019. Effect of environmental temperature on dynamic behavior of an adjustable preload double-nut ball screw. The International Journal of Advanced Manufacturing Technology, Vol. 101, pp. 2761-2770. (SCI, Rank:25/50, Q2)

27.      Su, Z.-M., Lin, P.-C.*, Lai, W.-J., Pan, J., Cheng, G.-J., Yen, H.-W., 2020. Fatigue analyses and life predictions of laser-welded lap-shear specimens made of low carbon and high strength low alloy steels. International Journal of Fatigue, Vol.140, 105849. (SCI, Rank:16/130, Q1)

28.      Huang, S.-J., Subramani, M.*, Ali, A. N., Alemayehu, D. B., Aoh, J.-N., Lin, P.-C., 2020. The Effect of Micro-SiCp Content on the Tensile and Fatigue Behavior of AZ61 Magnesium Alloy Matrix Composites. International Journal of Metalcasting. Accept. (SCI, Rank:42/79, Q3)

29.      Lin, P.-C.*, Fang, J.-C., Lin, J.-W., Tran, V.-X., Ching, Y.-C., 2020. Preheated (Heat-Assisted) Clinching Process for Al/CFRP Cross-Tension Specimens. Materials, Vol. 13(18), 4170. (SCI, Rank:132/314, Q2)

 

1. Lin, P.-C., Lin, S.-H., Pan, J.*, Pan, T., Nicholson, J. M., and Garman, M. A., 2004. Microstructures and Failure Mechanisms of Spot Friction Welds in Lap-Shear Specimens of Aluminum 6111-T4 Sheets. SAE Technical Paper no. 2004-01-1330, SAE 2004 World Congress, Detroit, Michigan, USA, March 8-11, 2004.

2. Lin, P.-C., Lin, S.-H., and Pan, J.*, 2004. Modeling of Plastic Deformation and Failure near Spot Welds in Lap-Shear Specimens. SAE Technical Paper no. 2004-01-0817, SAE 2004 World Congress, Detroit, Michigan, USA, March 8-11, 2004.

3. Lin, P.-C., Pan, J.*, and Pan, T., 2005. Fracture and Fatigue Mechanisms of Spot Friction Welds in Lap-Shear Specimens of Aluminum Alloy 6111-T4. SAE Technical Paper no. 2005-01-1247, SAE 2005 World Congress, Detroit, Michigan, USA, April 11-15, 2005.

4. Lin, P.-C., Pan, J.*, and Pan, T., 2005. Investigations of Fatigue lives of Spot Friction Welds in Lap-Shear Specimens of Aluminum 6111-T4 Based on Fracture Mechanics. SAE Technical Paper no. 2005-01-1250, SAE 2005 World Congress, Detroit, Michigan, USA, April 11-15, 2005.

5. Pan, J.* and Lin, P.-C., 2005. Asymptotic Crack-Tip Fields in Perfectly Plastic Solids under Mixed Mode II/III Loading Conditions. PVP2005-71201, 2005 ASME Pressure Vessels and Piping Conference, Denver, Colorado, July 17-21, 2005.

6. Lin, P.-C., Wang, D.-A. and Pan, J.*, 2006. Analytic Solution of Mode I Stress Intensity Factor for Spot Welds in Lap-Shear Specimens. SAE Technical Paper no. 2006-01-0535, SAE 2006 World Congress, Detroit, Michigan, USA, April 3-6, 2006.

7. Lin, P.-C., Pan, J.*, and Pan, T., 2006. Fatigue Failures of Spot Friction Welds in Aluminum 6111-T4 Sheets under Cyclic Loading Conditions. SAE Technical Paper no. 2006-01-1207, SAE 2006 World Congress, Detroit, Michigan, USA, April 3-6, 2006.

8. Lin, P.-C., Pan, J.*, and Pan, T., 2006. A Fatigue Crack Growth Model of Spot Friction Welds in Lap-Shear Specimens of Aluminum 6111-T4 Sheets based on Fracture Mechanics. 9th International Fatigue Congress, Atlanta, Georgia, USA, May 14-19, 2006.

9. Lin, P.-C., Pan, J.*, and Pan, T., 2006. A Comparison of Fracture and Fatigue Behaviors of Spot Friction Welds Made by Different Tools. Proceedings of 2006 NSF Design, Service, and Manufacturing Grantees and Research Conference, St. Louis, Missouri, July 24-27, 2006.

10. Tran, V.-X., Lin, P.-C., Pan, J.*, Pan, T., and Tyan, T., 2007. Failure Loads of Spot Friction Welds in Aluminum 6111-T4 Sheets under Quasi-Static and Dynamic Loading Conditions. SAE Technical Paper no. 2007-01-1207, SAE 2007 World Congress, Detroit, Michigan, USA, April 3-6, 2007.

11. Sripichai, K., Lin, P.-C., Pan, J.*, 2007. A Fatigue Crack Growth Model for Spot Welds in Square-Cup and Lap-Shear Specimens under Cyclic Loading Conditions. SAE Technical Paper no. 2007-01-1373, SAE 2007 World Congress, Detroit, Michigan, USA, April 3-6, 2007.

12. Lin, P.-C.* and Pan, J., 2008. Theoretical Framework for Modeling Spot Welds under Various Types of Loading Conditions. SAE Technical Paper no. 2008-01-1136, SAE 2008 World Congress, Detroit, Michigan, USA, April 14-17, 2008. (NSC 96-2221-E-194-047) (Arch T. Colwell Merit Award)

13. Lin, P.-C.* and Pan, J., 2008. Closed-Form Stress Intensity Factor Solutions for Spot Welds in Various Types of Specimens. SAE Technical Paper no. 2008-01-1141, SAE 2008 World Congress, Detroit, Michigan, USA, April 14-17, 2008. (NSC 96-2221-E-194-047)

14. Lin, P.-C.* and Wang, D.-A., 2009. Effects of Specimen Width and Specimen Length on Stress Intensity Factor Solutions for Spot Welds in U-Shape Specimens. SAE Technical Paper no. 2009-01-0029, SAE 2009 World Congress, Detroit, Michigan, USA, April 20-23, 2009. (NSC 97-2221-E-194-014)

15. Lin, P.-C.*, Qiu, Q.-H., Su, Z.-M., Aoh, J.-N., Yen, A.-C., Tang, T., Dong, M.-T., and Huang, B., 2010. Tool Geometry Effects on Mechanical Properties of Spot Friction Welds in Lap-Shear Specimens of 6061-T6 Aluminum Sheets. SAE Technical Paper no. 2010-01-0972, SAE 2010 World Congress, Detroit, Michigan, USA, April 13-15, 2010. (NSC 98-2221-E-194-007-MY3)

16. Lin, P.-C.*, He, R.-Y., Su, Z.-M., and Lin, Z.-L., 2011. Fatigue Behavior of Spot Friction Welds in Cross-Tension Specimens of Aluminum 6061-T6 Sheets. SAE Technical Paper no. 2011-01-0470, SAE 2011 World Congress, Detroit, Michigan, USA, April 12-14, 2011. (NSC 98-2221-E-194-007-MY3)

17. Su, Z.-M.*, He, R.-Y., Lin, P.-C., Aoh, J.-N., Chiou, Y.-C., Dong, K., Tang, T., and Huang, B., 2012. Fatigue Behavior of Swept Spot Friction Welds in Lap-Shear Specimens of Alclad 2024-T3 Aluminum Sheets. International Conference on Advanced Manufacturing, Yilan, Taiwan, March 4-8, 2012. (NSC 98-2221-E-194-007-MY3)

18. Lin, P.-C.*, Su, Z.-M., He, R.-Y., Chiou, Y.-C., Dong, M.-T., Tang, T., and Huang, B., 2012. Fracture and Fatigue Behaviors of Swept-FSSW's in Lap-Shear Specimens of Alclad 2024-T4 Aluminum Sheets. International Trends in Welding Research conference, Chicago, Illinois, USA, June 4-8, 2012. (NSC 98-2221-E-194-007-MY3)

19. Lin, P.-C.*, Su, Z.-M., Lai, W.-J. and Pan, J., 2013. Fatigue Behavior of Self-Piercing Rivets and Clinch Joints in Lap-Shear Specimens of Aluminum Sheets. SAE Technical Paper no. 2013-01-1024, SAE 2013 World Congress, Detroit, Michigan, USA, April 16-18, 2013. (NSC 101-2221-E-194-013-MY3)

20. Lin, P.-C.*, Su, Z.-M., Lai, W.-J. and Pan, J., 2013. Fatigue Behavior of Dissimilar Laser Welds in Lap-Shear Specimens of Low Carbon Steel and High Strength Low Alloy Steel Sheets. 16th International Conference on Advances in Materials & Processing Technologies, Taipei, Taiwan, September, 22-26, 2013. (NSC 101-2221-E-194-013-MY3)

21. Lin, P.-C.*, Liao, P.-S., Su, Z.-M., Aoh, J.-N., 2014. Mechanical Properties and Failure Modes of Friction Stir Clinch Joints between 6061-T6 Aluminum and S45c Steel Sheets. 10th International Friction Stir Welding Symposium, Beijing, China, May, 20-22. (NSC 101-2221-E-194-013-MY3)

22. Yang, Z.-Y., Liu, H.-D., Lin, P.-C.*, 2014. Study of Contact Stress in Ball Skew by Digital Image Correlation Method. The 5th International Conference on Advanced Manufacturing, Chiayi, Taiwan, September 30-October 3. (NSC 101-2221-E-194-013-MY3)

23. Su, Z.-M., Lin, P.-C.*, Lai, W.-J., Pan, J., 2015. Failure Mode and Fatigue Behavior of Dissimilar Laser Welds in Lap-Shear Specimens of Low Carbon Steel and HSLA Steel Sheets. SAE Technical Paper no. 2015-01-0706, SAE 2015 World Congress, Detroit, Michigan, USA, April 21-23, 2015.

24. Lin, P.-C.*, Lo, S.-M., 2016. Development of Friction Stir Clinching Process for Alclad 2024-T3 Aluminum Sheets. SAE Technical Paper no. 2016-01-0505, SAE 2016 World Congress, Detroit, Michigan, USA, April 12-14, 2016.

25. Lin, P.-C.*, Chen, W.-N., 2017. Fatigue Analysis of Swept Friction Stir Clinch Joints between Aluminum and Steel Sheets. SAE Technical Paper no. 2017-01-0478, SAE 2017 World Congress, Detroit, Michigan, USA, April 4-6, 2017.

26. Lin, P.-C.*, Lin, J.-W., 2017. Process Development of Dissimilar Clinch Joints in Aluminum 5052-H32 and Thermoplastic-CFRP Sheets. SAE Technical Paper no. 2018-01-1232, SAE 2018 World Congress, Detroit, Michigan, USA, April 10-12, 2018.

27. Lin, P.-C.*, Lin, Z.-L., Wang, D.-A., 2019. Three-Dimensional Finite Element Analyses of Local Stress Intensity Factor Solutions for Kinked Cracks of Spot Welds in Commonly Used Specimens. SAE Technical Paper no. 2019-01-1110, SAE 2019 World Congress, Detroit, Michigan, USA, April 9-11, 2019.

28. Lin, P.-C.*, Fang, G., Lin, C.-W., Ching, Y. C., 2019. Process Development of Dissimilar Clinch Joints in Cross-Tension Specimens of AA5052 and TP-CFRP Sheets. SAE Technical Paper no. 2020-01-0225, SAE 2020 World Congress, Detroit, Michigan, USA, April 21-23, 2020.

研究計畫:

計畫名稱

工作

起訖年月

委託機構

重阻點焊之破壞既疲勞分析之研發成果

主持人

94.11~95.12 

工研院

重阻點焊之破壞既疲勞分析之研發成果

主持人

95.12.1~96.3.31 

工研院

鋁合金磨擦攪拌點焊之 破壞分析(II)   

主持人

96.8.1~97.7.31

國科會

鋁合金磨擦攪拌點焊之破壞分析(III)   

主持人

97.8.1~98.7.31

國科會

熱軋製程之變形模擬(Ι)─粗軋camber定量分析及軋輥接觸應力分析 

共同主持人

97.8~98.7

中鋼

摩擦攪拌焊接應用技術研發

共同主持人

98.3~98.12

漢翔

科學工業區固本精進研究計畫~先進超薄晶園之針測技術研發 

共同主持人

98.5~99.4 

國科會

表面處理後鋁合金摩擦攪拌點銲(FSSW)之製程開發與破壞分析 

主持人

98.8~101.7

國科會