Email: ttkiet@hcmute.edu.vn
Điệnthoại: 0909982935
Học vấn
2014: Tốt nghiệp Tiến sĩ ngành Kỹ thuật xây dựng, Đại Học Sejong (Sejong University)
2002: Tốt nghiệp Thạc sĩ ngành Xây dựng Dân dụng và Công nghiệp,
ĐH Bách Khoa Tp.HCM
1997: Tốt nghiệp Kỹ sư Xây dựng Dân dụng và Công nghiệp, ĐH Bách Khoa Tp.HCM
Các môn giảng dạy chính
- Cơ học kết cấu; Kết cấu bê tông cốt thép; Kết cấu thép; Thí nghiệm công trình
- Kết cấu bê tông cốt thép nâng cao
Hướng nghiên cứu
- Bê tông sợi tính năng cao (high performance fiber reinforced cementitious composite; hybrid ultra high performance fiber reinforced concrete)
- Ứng xử của vật liệu và kết cấu chịu tải trọng tốc độ cao (high strain rate effect on the behavior of material and structure)
- Thiết bị thí nghiệm vật liệu chịu tải trọng tốc độ cao sử dụng năng lượng biến dạng (strain energy impact test system)
Một số công trình nghiên cứu
28. Quang Dang Nguyen, Khoa Tan Nguyen, Tuan Kiet Tran, Kihak Lee, An Thao Huynh. Fracture behaviour assessment of high performance fibre reinforced concrete at high strain rates using interpretable modelling approaches. Heliyon 10(2), 2024
27. Vu Truong Vu, Tuan Kiet Tran, Dong Joo Kim, Duy Liem Nguyen, Ngoc Thanh Tran. Strain rate sensitivity of strain-hardening fiber-reinforced concrete subjected to dynamic direct tensile loading. Structural Concrete, Early View, online December 2023
26. Tuan Kiet Tran, Khoa Tan Nguyen, Ngoc Thanh Tran, Dong Joo Kim. Improving the tensile resistance at high strain rates of high performance fiber reinforced cementitious composite with twisted fibers by modification of twist ratio. Structures , Vol. 39, 2022. pp. 237-248
25. Tuan Kiet Tran, Ngoc Thanh Tran, Duy Liem Nguyen, Dong Joo Kim, Jun Kil Park, Tri Thuong Ngo. Dynamic fracture toughness of ultra high-performance fiber-reinforced concrete under impact tensile loading. Structural Concrete, Vol. 22(3), 2022. pp. 1845-1860
24. Tuan Kiet Tran, Ngoc Thanh Tran, Dong Joo Kim. Enhancing impact resistance of hybrid ultra-high performance fiber reinforced concretes through strategic use of polyamide fibers. Constructi on and Building Materials, Vol. 271, 2021. pp.121562
23. An Thao Huynh, Quang Dang Nguyen, Qui Lieu Xuan, Bryan Magee, TaeChoong Chung, Kiet Tuan Tran, Khoa Tan Nguyen. A Machine Learning Assisted Numerical Predictor for Compressive Strength of Geopolymer Concrete Based on Experimental Data and Sensitivity Analysis. Applied Sciences, Vol.10(21), 2020. pp. 7726
22. Duy-Liem Nguyen, Duc-Kien Thai, Tri Thuong Ngo, Tuan-Kiet Tran, Tri Thong Nguyen. Weibull modulus from size effect of high performance fiber reinforced concrete under compression and flexure. Constructi on and Building Materials, Vol. 226, 2019. pp. 743-758.
21. NT Tran,TK Tran, JK Jeon, JK Park and DJ Kim. Fracture energy of ultra-high-performance fiber-reinforced concrete at high strain rates.Cement and Concrete Research, Vol. 79, January 2016, 169 – 184.
20. TK Tran and DJ Kim, (2016).“Effects of blending fibers on tensile resistance of ultra high performance fiber reinforced concrete under impact”, Journal of Technical Education Science, Special issue, 2016.
19. Park Seung Hun, Park Jun Kil,Tran Tuan Kiet, Kim Dong Joo, (2015a). “Effect of Different Energy Frames on the Impact Velocity of Strain Energy Frame Impact Machine”,콘크리트학회논문집, Vol.27 No.4, 2015.
18. NT Tran,TK Tran and DJ Kim. High rate response of ultra-high-performance fiber reinforced concretes under direct tension.Cement and Concrete Research, Vol. 69, March 2015, pp. 72-87
17. TK Tran and DJ Kim, (2014b). “Notch effects on direct tensile strength of steel fiber reinforced concretes under impact.” In:Proceedings of the Korea Concrete Institute, 2014 Spring Conference, May 14-16, Jeju, Korea.
16. TK Tran, DJ Kim, and E Choi. Behavior of double-edge-notched specimens made of high performance fiber reinforced cementitious composites subjected to direct tensile loading with high strain rates.Cement and Concrete Research, Vol. 63, 2014, pp. 54-56.
15. TK Tran and DJ Kim. High strain rate effects on direct tensile behavior of high performance fiber reinforced cementitious composites.Cement and Concrete Composites, Vol. 45, January 2014, pp. 186-200.
14. DJ Kim, NT Tran, and TK Tran, (2014a). “Direct tensile behavior of ultra-high-performance fiber-reinforced concrete under impact.”In: Proceedings of 16th Conference on experimental mechanics, Cambridge, UK, July 7-11, 2014
13. TK Tran and DJ Kim, (2013a). “The source of strain rate sensitivity of high performance fiber reinforced cementitious composites.” In: Proceedings of the Institute for Structural Maintenance Inspection, 2013 KSMI Conference, April 11-13, Korea.
12. TK Tran and DJ Kim, (2013b). “The role of fiber type, fiber content and matrix type of direct tensile impact behavior of high performance fiber reinforced cementitious composites.” In: Proceedings of the KSCE Conference & Civil Expo 2013, October 23-25, Korea
11. TK Tran and DJ Kim. Investigating direct tensile behavior of high performance fiber reinforced cementitious composites at high strain rates,Cement and Concrete Research, Vol. 50, August 2013, pp. 62-73.
10. TK Tran and DJ Kim. Strain energy impact test machine (SEFIM).Journal of Advanced Concrete Technology, Vol. 10, March 2012, pp. 126-136.
9. DJ. Kim,TK Tran, S. El-Tawil and A.E Naaman, (2012a). “Innovative impact test system using elastic strain energy.” In: Proceedings of the 4thinternational conference on design and analysis of protective structures, June 19-22, Jeju, South Korea.
8. TK Tran and DJ Kim, (2012b). “The formation of multiple cracks of high performance fiber reinforced cementitious composites in sequence and crack velocity at high strain rates .” In:Proceedings of the Korea Concrete Institute, 2012 Fall Conference, November 7-9, Muju, Korea.
7. TK Tran and DJ Kim, (2011a). “Impact test system for tension behavior of high performance fiber reinforced cementitious composites.” In: Proceedings of the Japan Concrete Institute Annual Conference, July 12-14, Osaka, Japan.
6. TK Tran and DJ Kim, (2011b). “Influence of strain rates on high performance fiber reinforced cement composites under dynamic tensile load.” In: Proceedings of the 12thconference on science and technology, Hochiminh city university of technology, October 26-28, Vietnam.
5. TK Tran and DJ Kim, (2011c). “Impact testing of high performance fiber reinforced cementitious composites.” In: Proceedings of the Korea Concrete Institute, 2011 Fall Conference, November 9-11, Pyeong Chang, Korea.
4. Kim Jang Ho, Li Jing,Tran Tuan Kiet, Hong Jong Suk, Kim Yun Ho, (2006a). “3D Numerical Simulation of Pullout Behavior of FRP Embedded in Concrete using RBSN Method.”한국콘크리트학회학술대회논문집, Vol.2006, No.11.
3. Kim Jang Ho, Phan Duc Hung, Li Jing,Tran Tuan Kiet(2006b). “Development of Performance Based Design Method based on Application of Fragility Method.” 2006년도대한토목학회정기학술대회, Vol.2006, No.10.
2. Tran Tuan Kiet & Bui Cong Thanh, (2003a). “Plane steel frame analysis with semi-rigid connections. Part 1: Connection Modelling”, Science and Technology Development, VietnamNational University-HoChiMinh City, pp.66-73, Vol. 6, No 9&10, 2003.
1. Tran Tuan Kiet and Bui Cong Thanh, (2003b). “Plane steel frame analysis with semi-rigid connections. Part 2: Programming and Analyzing”, Science and Technology Development, Vietnam National University-HoChiMinh City, pp.74-85, Vol. 6, No 9&10, 2003.