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A. Quá trình đào tạo
B. Công tác
C. Đề tài Nghiên cứu khoa học
1. Đánh giá nguy cơ hóa lỏng của nền đất ở thành phố Hồ Chí Minh dưới tác động của tải trọng động đất. Đề tài cấp trường, (03/2022-05/2024). Chủ nhiệm
D. Công trình tiêu biểu
1. Application of newly proposed hardening laws for structural steel rods. Vietnam Journal of Mechanics, ISSN 0866-7136, pp. 93-103. (2024-06-04)
2. Liquefaction assessment using alternative approaches: a case study of Ho Chi Minh City stratigraphy. Geosciences Journal, ISSN 1226-4806, pp. 1-21. (2024-03-27)
3. Seismic deformation analysis of earth dams subject to liquefaction using UBCSAND2 model. Soil Dynamics and Earthquake Engineering, ISSN 0267-7261, Vol. 172, pp. 108003-1-12. (2023-05-14)
4. Performance of different CNN-based models on classification of steel sheet surface defects. Journal of Engineering Science and Technology (JESTEC), ISSN 1823-4690, Vol. Vol. 18, No. 1, pp. 554 - 562. (2023-02-02)
5. Prediction of axial load bearing capacity of PHC nodular pile using Bayesian regularization artificial neural network. Soils and Foundations, ISSN 0038-0806, Vol. 62(5), pp. 101203. (2022-08-17)
6. Finite Element Analysis of Deformation Behavior of Deep Excavation Retained by Diagram Wall in Ho Chi Minh City. Indian Geotechnical Journal, ISSN 0971-9555, Vol. 52, pp. 989–999. (2022-04-04)
7. Constitutive modeling of principal stress rotation associated with sand under simple shear loading. International Journal for Numerical and Analytical Methods in Geomechanics, ISSN 03639061,10969853, Vol. 46/8, pp. 1494-1524. (2022-03-07)
8. Evaluation of Damage Level for Ground Settlement Using the Convolutional Neural Network. Lecture Notes in Civil Engineering, ISBN 978-981-16-7159-3 (SCOPUS), Vol. LNCE, volume 203, pp. 1261-1268. (2022-01-01)
9. Prediction of axial load bearing capacity of PHC nodular pile using Bayesian regularization artificial neural network. Soils and Foundations, ISSN 00380806, Vol. 62/5, pp. 1-26. (2022-01-01)
10. Numerical Simulation of the Effect of Void Direction and Volume on the Strength of Cemented Soil. International Journal of Geomechanics, ISSN 1532-3641 (ISI), Vol. 22(3). (2022-01-01)
11. Numerical prediction of settlement due to the Pohang earthquake. Earthquake Spectra, ISSN 87552930 (ISI), Vol. 37(2), pp. 652-685. (2021-01-01)
12. A consolidation solution of soft soil deposits improved with prefabricated vertical drains and deep cement mixing columns. In Proceedings of the 3rd International Conference on Sustainability in Civil Engineering (3rd ICSCE 2020), Hanoi, Vietnam in November 2020, ISBN 978-981-16-0052-4 (SCOPUS), Vol. LNCE, volume 145, pp. 79-85. (2021-01-01)
13. Vertical stress distribution on stiffened deep cement mixing column under embankment load. In Proceedings of the 16th International Association for Computer Methods and Advances in Geomechanics (16th IACMAG), Torino, Italy in May, 2021, ISBN 978-3-030-64517-5 (SCOPUS), Vol. LNCE, volume 126, pp. 825-832. (2021-01-01)
14. Finite Element Simulation of Water Content-Influenced Progressive Failure of Sensitive Clays. Proceedings of the CIGOS 2019 Conference: Innovation for Sustainable Infrastructure, Hanoi, Vietnam in September 2019. Springer, Singapore, ISBN 978-981-15-0801-1 (SCOPUS), Vol. LNCE, volume 54, pp. 841-846. (2020-01-01)
15. Assessment of Pohang EarthquakeInduced Liquefaction at Youngil-Man Port Using the UBCSAND2 Model. Applied Sciences, ISSN 2076-3417 (ISI), Vol. 10(16), pp. 5424. (2020-01-01)
16. Numerical simulation of water content dependent undrained shear strength of clays. Marine Georesources & Geotechnology, ISSN 1064119X (ISI), Vol. 38(5), pp. 621-632. (2020-01-01)
17. Large-strain consolidation analysis of PVD-installed soft soil considering the discharge capacity variation according to depth and time. Engineering Computations, ISSN 0264-4401 (ISI), Vol. 38(4), pp. 1652-1676. (2020-01-01)
18. Numerical Simulation of Water Content Effect on the Undrained Shear Strength of Clays by Torvane Test. orean Society of Civil Engineers Conference, Gyeongju, in October, 2018, Vol. 2018.10, pp. 13-14. (2018-01-01)
E. Thông tin khác
| 2014 | Đại học , Đại học Kiến Trúc TP.HCM |
| 2016 | Thạc sĩ , Đại học Bách Khoa TP.HCM |
| 2021 | Tiến sĩ, Đại học Quốc gia Kyungpook |
| 09/2017-02/2021 | Nghiên cứu sinh, Phòng thí nghiệm Địa kỹ thuật - Khoa Kỹ thuật Xây dựng. Đại học Quốc gia Kyungpook |
| 07/2021-Hiện tại | Giảng viên, Bộ môn Kết cấu công trình - Khoa Kỹ thuật Xây Dựng. Đại học Công Nghiệp TP.HCM |
| 11/2014-06/2017 | Kỹ sư thiết kế kết cấu, Phòng thiết kế kết cấu công trình. Công ty Cổ Phần Tư Vấn Đầu Tư IDICO |
| 11/20214-11/2016 | Thí nghiệm viên, Phòng thí nghiệm cơ đất - Khoa Kỹ thuật Xây dựng. Đại học Bách Khoa TP.HCM |
1. Đánh giá nguy cơ hóa lỏng của nền đất ở thành phố Hồ Chí Minh dưới tác động của tải trọng động đất. Đề tài cấp trường, (03/2022-05/2024). Chủ nhiệm
D. Công trình tiêu biểu
1. Application of newly proposed hardening laws for structural steel rods. Vietnam Journal of Mechanics, ISSN 0866-7136, pp. 93-103. (2024-06-04)
2. Liquefaction assessment using alternative approaches: a case study of Ho Chi Minh City stratigraphy. Geosciences Journal, ISSN 1226-4806, pp. 1-21. (2024-03-27)
3. Seismic deformation analysis of earth dams subject to liquefaction using UBCSAND2 model. Soil Dynamics and Earthquake Engineering, ISSN 0267-7261, Vol. 172, pp. 108003-1-12. (2023-05-14)
4. Performance of different CNN-based models on classification of steel sheet surface defects. Journal of Engineering Science and Technology (JESTEC), ISSN 1823-4690, Vol. Vol. 18, No. 1, pp. 554 - 562. (2023-02-02)
5. Prediction of axial load bearing capacity of PHC nodular pile using Bayesian regularization artificial neural network. Soils and Foundations, ISSN 0038-0806, Vol. 62(5), pp. 101203. (2022-08-17)
6. Finite Element Analysis of Deformation Behavior of Deep Excavation Retained by Diagram Wall in Ho Chi Minh City. Indian Geotechnical Journal, ISSN 0971-9555, Vol. 52, pp. 989–999. (2022-04-04)
7. Constitutive modeling of principal stress rotation associated with sand under simple shear loading. International Journal for Numerical and Analytical Methods in Geomechanics, ISSN 03639061,10969853, Vol. 46/8, pp. 1494-1524. (2022-03-07)
8. Evaluation of Damage Level for Ground Settlement Using the Convolutional Neural Network. Lecture Notes in Civil Engineering, ISBN 978-981-16-7159-3 (SCOPUS), Vol. LNCE, volume 203, pp. 1261-1268. (2022-01-01)
9. Prediction of axial load bearing capacity of PHC nodular pile using Bayesian regularization artificial neural network. Soils and Foundations, ISSN 00380806, Vol. 62/5, pp. 1-26. (2022-01-01)
10. Numerical Simulation of the Effect of Void Direction and Volume on the Strength of Cemented Soil. International Journal of Geomechanics, ISSN 1532-3641 (ISI), Vol. 22(3). (2022-01-01)
11. Numerical prediction of settlement due to the Pohang earthquake. Earthquake Spectra, ISSN 87552930 (ISI), Vol. 37(2), pp. 652-685. (2021-01-01)
12. A consolidation solution of soft soil deposits improved with prefabricated vertical drains and deep cement mixing columns. In Proceedings of the 3rd International Conference on Sustainability in Civil Engineering (3rd ICSCE 2020), Hanoi, Vietnam in November 2020, ISBN 978-981-16-0052-4 (SCOPUS), Vol. LNCE, volume 145, pp. 79-85. (2021-01-01)
13. Vertical stress distribution on stiffened deep cement mixing column under embankment load. In Proceedings of the 16th International Association for Computer Methods and Advances in Geomechanics (16th IACMAG), Torino, Italy in May, 2021, ISBN 978-3-030-64517-5 (SCOPUS), Vol. LNCE, volume 126, pp. 825-832. (2021-01-01)
14. Finite Element Simulation of Water Content-Influenced Progressive Failure of Sensitive Clays. Proceedings of the CIGOS 2019 Conference: Innovation for Sustainable Infrastructure, Hanoi, Vietnam in September 2019. Springer, Singapore, ISBN 978-981-15-0801-1 (SCOPUS), Vol. LNCE, volume 54, pp. 841-846. (2020-01-01)
15. Assessment of Pohang EarthquakeInduced Liquefaction at Youngil-Man Port Using the UBCSAND2 Model. Applied Sciences, ISSN 2076-3417 (ISI), Vol. 10(16), pp. 5424. (2020-01-01)
16. Numerical simulation of water content dependent undrained shear strength of clays. Marine Georesources & Geotechnology, ISSN 1064119X (ISI), Vol. 38(5), pp. 621-632. (2020-01-01)
17. Large-strain consolidation analysis of PVD-installed soft soil considering the discharge capacity variation according to depth and time. Engineering Computations, ISSN 0264-4401 (ISI), Vol. 38(4), pp. 1652-1676. (2020-01-01)
18. Numerical Simulation of Water Content Effect on the Undrained Shear Strength of Clays by Torvane Test. orean Society of Civil Engineers Conference, Gyeongju, in October, 2018, Vol. 2018.10, pp. 13-14. (2018-01-01)
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