ผู้ช่วยศาสตราจารย์ ดร.แสนสด พานิช
Asst.Prof.Dr. Sansot Panich
sansot.p@eng.kmutnb.ac.th
Scopus Author ID: –
Research Gate: –
ข้อมูลทั่วไป
งานสอน และงานวิจัย
ผลงานทางวิชาการ
ข้อมูลทั่วไป
Education/ประวัติการศึกษา
- Doctor of Engineering Metal Forming Technology King Mongkut’s University of Technology Thonburi (KMUTT) – 2015
- Master of Engineering Production Engineering King Mongkut’s University of Technology North Bangkok (KMUTNB) – 2004
- Bachelor of Engineering Production Engineering King Mongkut’s University of Technology North Bangkok (KMUTNB) -1999
Profiles
Areas of Research
- 2015-2016: Post-Doctoral Researcher, Institute for Metal Forming Technology (IFU), University of Stuttgart, Republic of Germany.
- 2012-2013: Doctoral Researcher, Graduate Institute of Ferrous Technology (GIFT), POSTECH, South Korea. (Under the supervision of Prof. Frederic Barlat)
- Project leader of Development and application an anisotropic fracture criteria for formability prediction of aluminum alloy sheet AA2024-T3 in aerospace part manufacturing process, Sponsored by National Science, Research and Innovation Fund (NSRF), and King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Formability analysis of advanced high strength steel sheet using new Forming Limit Diagram based on stress and strain, Sponsored by RRI-Thailand Research Fund (TRF).
- Project leader of Development of Damage Criteria at high strain rate for sheet-bulk metal materials, Sponsored by RRI-Thailand Research Fund (TRF).
- Project leader of Development of fracture criteria for formability prediction of materials employed in aerospace part manufacturing sector. Sponsored by RRI-Thailand Research Fund (TRF).
- Project leader of Formability improvement of aluminum alloy sheet by fine shot peening treatment for bending parts manufacturing, Sponsored by National Research Council of Thailand (NRCT) and King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of A hybrid method for determination of wrinkling limit curves and its application to prediction wrinkling initiation in deep drawing process of aluminum alloy sheet, Research Grant for New Scholar, Sponsored by Thailand Research Fund (TRF).
- Project leader of Development of new failure criteria in sheet metal forming, Sponsored by National Research Council of Thailand (NRCT).
- Project leader of Development of Bending Limit Diagram for evaluation of bendability of sheet metal, Sponsored by National Science of Technology Development Agency.
- Project leader of Formability prediction of sheet metal in microscopic and macroscopic by experiments and numerical simulation. Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Influence of material and sheet thickness on wrinkling limit curves by using experimental and numerical simulation, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Formability prediction of aluminum alloy sheet by experimental and theoretical approaches based on fracture limit, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Development of fracture criteria for formability evaluation of aluminum alloy sheet in aerospace part forming process, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Development of anisotropic failure criteria for aluminum alloy sheets by using experimental and numerical investigation, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Development of forming limit diagram using hemispherical dome tester with diameter 50 mm, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Development for wrinkles limits curve of conical cup drawing by experiment and numerical simulation, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Prediction of anisotropic plastic deformation of advanced high strength steel by experimental and numerical simulation, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Investigation of anisotropic plastic deformation behavior for aluminum alloy sheet by experimental and numerical simulation, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
- Project leader of Fracture prediction using finite element simulation coupled with fracture criteria, Sponsored by King Mongkut’s University of Technology North Bangkok (KMUTNB).
Project leader of Development of fracture criteria based on theoretical approaches and its application, Sponsored by King Mongkut’s University of Technology North Bangkok
งานสอน และงานวิจัย
Teaching & Professional Activities / งานสอน
– Mechanics of Materials for Engineers
– Manufacturing Planning and Control for Engineer
– Management Information System for Engineer
– Sensor and Transducer Technology
Current Research / งานวิจัยปัจจุบัน
– Tool Condition Monitoring in Machining Processes
– Non–destructive Evaluation Using Barkhausen Noise Technique
– Process Monitoring by Acoustic Emission Technique
Academic Service / บริการวิชาการ
Industrial Consultant Projects,
- Manufacturing Development to Improve Competitiveness Program (MDICP)
- Entrepreneurs Development for Innovative Productivity Program (EDIPP) Cooperation between KMUTNB and Ministry of Industry Thailand
ผลงานทางวิชาการ
Publication
- Sawangpan, J., Panich, S., Jantarasricha, T., and Khantachawana, A. (2023). “Investigation of surface hardness and roughness on formability of aluminum alloy sheet AA2024-T3 subjected to the shot peening process by silica shots”. Journal of Metals, Materials and Minerals, Vol. 33(1): 56-64.
- Panich, S. and Uthaisangsuk, V. (2023). “Wrinkling limit curves with consideration of anisotropic behavior for deep drawing of aluminum sheet alloys”. Proceedings of Institution Mechanical Engineers. Part L. Journal of Materials: Design and Applications, Vol. 237(3): 592–615.
- Jantarasricha, T., Chongbunwatana, K. and Panich, S. (2023). “Fracture analysis of sheet aluminum alloy AA2024-T3 through a complex-loading cross-die test”, International Journal of Applied Mechanics, Vol. 15(1): 2250093.
- Amree, C., Panich, S., and Jantarasricha, T. (2023). “Polar effective plastic strain-forming limit diagram of DP 440 steel sheet with application to two-step forming test”. Materials Today: Proceedings, Vol.77:1039-1044.
- Jantarasricha, T., Chongbunwatana, K. and Panich, S. (2022). “Comparative study of fracture criteria through bona fide experimental–numerical examinations on AA2024-T3”. The International Journal of Advanced Manufacturing Technology, Vol.119: 7685–7710.
- Panich, S. and Kalawong, P. (2022). “Development of bending limit strain and stress curves of bendability prediction for assembling automotive body panels”. Journal of Advanced Mechanical Design, Systems, and Manufacturing, Vol. (16) 1: 1-14.
- Panich, S. and Uthaisangsuk, V. (2022).“Wrinkling limit curves with consideration of anisotropic behavior for deep drawing of aluminum sheet alloys”. Proceedings of Institution Mechanical Engineers. Part L. Journal of Materials: Design and Applications. Accepted manuscript
- Chalermsermsri, K., Panich, S. and Chongbunwatana, K. (2022). “Predictive investigation on earring profiles of aluminum alloy sheet with a cylindrical-cup drawing test”. Materials Today: Proceedings, Vol.52 : 2381-2386.
- Panich, S., Chongbunwatana, K. and Jantarasricha, T. (2021). “Formability evaluation of sheet metal forming on advanced high-strength steel via an integrative experimental – theore- tical approach based on localized necking and fracture limits” Journal of Mechanical Science and Technology, Vol. 35 (12): 5389-5404.
- Chaimongkon, T., Panich, S., and Uthaisangsuk, V. (2021). “Anisotropic fracture forming limit curve and its applications for sheet metal forming with complex strain paths of aluminum sheet”. International Journal of Advanced Manufacturing Technology.Vol.115: 3553–3577.
- Panich, S. and Chongbunwatana, K. (2020). “Influence of anisotropic yield criteria on simu- lation accuracy of the hole-expansion test”. IOP Conf. Ser.: Mater. Sci. Eng. 967 (01) 012037.
- Chongbunwatana, K., Panich, S. and Laokor, K. (2020). “Evolution of a forming limit curve for non-linear strain paths induced on advanced high-strength sheet steel with its proven applicability to a complex deep-drawing process”. IOP Conf. Ser.: Mater. Sci. Eng. 967 (1) 012036
- Nakwattanaset, A., Suranuntchai, S. and Panich, S. (2020). “Strain-and stress-based forming
limit curves of DP440 steel sheet with application to the cross-die forming test”. AIP Conference Proceedings 2279, (1) 050004.
- Chaimongkon, T., Uthaisangsuk, V. and Panich, S. (2020).“Anisotropic fracture forming limit curves of aluminum alloy AA5052-H32 sheet”. AIP Conference Proceedings 2279,(1),050003
- Jantarasricha, T., Panich, S., and Chongbunwatana, K. (2020). “Development of Stress-and Strain-Based Fracture Forming Limit Curves of Sheet Aluminium-Alloy AA2024-T3 through Various Approaches”. Key Engineering Materials Vol. 856: 57-65.
- Bunyan, T., Yiemchaiyaphum, S., and Panich, S. (2020). Wrinkling Prediction of Rectangular Cup Deep Drawing Process for Aluminum Alloy Sheets by Using the Modified Yoshida Buckling Test. Key Engineering Materials. Vol.856:143-151.
- Laokor, K., Chongthairungruang, B. and Panich, S. (April 2019). “Influence of Pre-Stretching Mode on The Forming Limit Strain and Stress Diagram of High strength Steel.” Key Engineering Materials. Vol.751: 167-172.
18.Panich, S., Chongbunwatana, K. and Kamonrattanapisud, M. (February 2019). “Formability Prediction of Advanced High-Strength Steel Sheets by Means of Combined Experimental and Numerical Approaches.” Procedia Manufacturing. Vol.29: 528-535.
19.Charoenprasit, S., Seemuang, N. and Panich, S. (December 2019). “An Investigation of
Noise Characteristic During End Milling Process,” 2019 Research, Invention, and Innovation
Congress (RI2C), Bangkok, Thailand, 2019, pp. 1-5,
20..Panich, S., Liewald, M. and Uthaisangsuk, V. (September 2018). “Stress and strain based
fracture forming limit curves for advanced high strength steel sheet.” International Journal of
Material Forming. Vol.11: 643-661.
21.Kalawong, P., Seemuang, N. and Panich, S. (August 2018). “Influence of Thickness of
AA5052-H32 Aluminum Alloy Sheet on Bendability Using Acoustic Emission Features.” 2nd International Conference on Engineering Innovation (ICEI). IEEE xplore. Vol.18 : 24-29.
22.Jeong, Y.U. and Panich, S. (July 2018). “Forming limits of dual phase steels using crystal plasticity in conjunction with MK approach.” Procedia Manufacturing. Vol.15: 1816-1824.
23.Seemuang, N., Panich, S. and Slatter, T. (July 2018). “Crack Initiation Detection in JAC780Y during Tensile Loading by Using Direct Current Potential Drop and Acoustic Emission Techniques.” International Journal of Mechanical Engineering and Robotics Research. Vol.7 (4) : 348-352.