Email: duongnn@hcmute.edu.vn

Phone: 0979 892 937

Học vấn

2020:   Tốt nghiệp Tiến sỹ ngành Cơ kỹ thuật, ĐH Sư phạm Kỹ thuật Tp. HCM

2009:  Tốt nghiệp Thạc sỹ ngành Công trình Dân dụng và Công nghiệp, ĐH Bách Khoa Tp.HCM

2006:   Tốt nghiệp Kỹ sư Xây dựng ngành Công trình Dân dụng và Công nghiệp, ĐH Bách Khoa Tp.HCM

Các môn giảng dạy chính

Kết cấu thép (Đại học)

Kết cấu công trình thép (Đại học)

Thực tập vật liệu xây dựng (Đại học)

Thực tập ứng dụng tin học trong xây dựng (Đại học)

Cơ học vật liệu nâng cao (Sau đại học)

Các hướng nghiên cứu chính

Phương pháp Ritz trong phân tích kết cấu

Kết cấu vật liệu nâng cao

Kết cấu thành mỏng

Một số công trình nghiên cứu

1.         [47] Nguyen, N.-D., A Gegenbauer shear deformation theory and a modified couple stress theory for size-effect analysis of functionally graded triply periodic minimal surface microbeams. Acta Mechanica, 2026 (SCIE - Q1).

           [46] Pham, S.D., N.-D. Nguyen, A. Karamanli, and T.P. Vo, Transient analysis of bio-inspired helicoidal laminated composite beams under moving loads. Mechanics Based Design of Structures and Machines, 2026: p. 1-27 (SCIE - Q2).

2.        [45] Nguyen, T.-N., T.-K. Nguyen, N.-D. Nguyen, and T.P. Vo, A Bézier polynomials-based shear deformation theory for bending and vibration of honeycomb core sandwich thin-walled box beam. Engineering Structures, 2026. 350: p. 121968 (SCIE - Q1).

3.        [44] Nguyen, N.-D., V.-T. Bui, S. Lee, and T.P. Vo, A Gegenbauer-Ritz method for functionally graded triply periodic minimal surface beams resting on viscoelastic foundation. International Journal of Mechanics and Materials in Design, 2026. 22(2): p. 76 (SCIE - Q1).

4.        [43] Pham, S.D., A. Karamanli, N.-D. Nguyen, and T.P. Vo, Vibration and buckling analysis of laminated and bio-inspired helicoidal composite curved beams. Structures, 2025. 82: p. 110480 (SCIE - Q1).

5.        [42] Nguyen, T.-N. and N.-D. Nguyen, A Ritz-type solution for free vibration and buckling analysis of functionally graded beams under hygro-thermal environment. Structures, 2025. 73: p. 108392 (SCIE - Q1).

6.        [41] Nguyen, N.-D., V.-T. Bui, L.C. Trinh, and T.-K. Nguyen, Static and Free Vibration Behaviors of Bio-Inspired Helicoidal Composite Curved Beams. International Journal of Structural Stability and Dynamics, 2025: p. 2750071 (SCIE - Q1).

7.        [40] Nguyen, N.-D., V.-T. Bui, V.-H. Nguyen, and T.P. Vo, An analytical solution for comprehensive analysis of bio-inspired helicoidal laminated composite beams. Journal of Reinforced Plastics and Composites, 2025: p. 07316844251356337 (SCIE - Q2).

8.        [39] Nguyen, N.-D., V.-T. Bui, T.-K. Nguyen, and T.P. Vo, Two-variables shear theory for bio-inspired helicoidal composite and carbon nanotube-reinforced composite beams resting on a general viscoelastic Winkler-Pasternak foundation. Structures, 2025. 82: p. 110444 (SCIE - Q1).

9.        [38] Nguyen, N.-D., V.-T. Bui, T.-K. Nguyen, and T.P. Vo, Higher-order shear deformation theory and Ritz method for analysis of functionally graded sandwich curved beams. Mechanics of Advanced Materials and Structures, 2025: p. 1-18 (SCIE - Q1).

10.      [37] Nguyen, N.-D., V.-T. Bui, A. Karamanli, and T.P. Vo, Analytical study of free vibration, buckling, and bending behaviors of functionally graded triply periodic minimal surface beams using higher-order shear deformation theory. Mechanics Based Design of Structures and Machines, 2025: p. 1-27 (SCIE - Q2).

11.      [36] Nguyen, N.-D., A Chebyshev shear deformation theory for mechanical analysis of axially loaded functionally graded curved beams. Continuum Mechanics and Thermodynamics, 2025. 37(6): p. 81 (SCIE - Q2).

12.      [35] Nguyen, N.-D., Analysis of functionally graded porous curved beams with various boundary conditions. International Journal of Mechanics and Materials in Design, 2025: p. 1-24 (SCIE - Q1).

13.      [34] Karamanli, A., N.-D. Nguyen, S. Lee, and T.P. Vo, Improved FSDT for forced vibration analysis of nanobeams under moving concentrated loads via doublet mechanics. Mechanics Based Design of Structures and Machines, 2025: p. 1-24 (SCIE - Q2).

14.      [33] Nhan, N.T., N.N. Duong, and N.T. Kien, Free vibration analysis of laminated composite shallow curved beam with various boundary conditions. Journal of Science and Technology in Civil Engineering (JSTCE)-HUCE, 2024. 18(3): p. 1-18. 

           [32] Nguyen, N.-D., V.-T. Bui, L.C. Trinh, and Q.-C. Le, Elastic foundation effect on the small-scale analysis of functionally graded porous microbeams using a modified strain gradient theory. International Journal of Mechanics and Materials in Design, 2024 (SCIE - Q1).

           [31] Nguyen, N.-D., V.-T. Bui, and T.-K. Nguyen, A modified strain gradient theory for buckling, bending and free vibration behaviors of metal foam microbeams. Structures, 2024. 64: p. 106533 (SCIE - Q1).

17.      [30] Nguyen, N.D. and T.N. Nguyen, Chebyshev polynomial-based Ritz method for thermal buckling and free vibration behaviors of metal foam beams. Applied Mathematics and Mechanics, 2024. 45(5): p. 891-910 (SCIE - Q1).

18.      [29] Le, Q.-C., N.-D. Nguyen, and T.P. Vo, A novel hybrid function-based Ritz method for static and free vibration of axially loaded bi-directional functionally graded porous beams. Mechanics Based Design of Structures and Machines, 2024: p. 1-29 (SCIE - Q1).

           [28] Hiếu, P. T. and N.N. Dương, Nghiên cứu ổn định dầm hộp sandwich FGM theo lý thuyết biến dạng cắt bậc nhất. Tạp chí Khoa học Công nghệ Xây dựng (TCKHCNXD)-ĐHXDHN, 2024. 18(1V): p. 92-105.

[27] Nguyen, Q.-K. and N.-D. Nguyen, Legendre–Ritz Solution for Free Vibration and Buckling Analysis of Porous Microbeams. Journal of Vibration Engineering & Technologies, 2023 (SCIE-Q2)

[26] Nguyen, N.-D., T.-N. Nguyen, L.C. Trinh, and T.-K. Nguyen, A higher-order shear deformation theory and modified couple stress theory for size-dependent analysis of porous microbeams resting on the foundation. International Journal of Structural Stability and Dynamics, 2023 (SCIE-Q1)

[25] Nguyen, N.-D., T.-N. Nguyen, T.-K. Nguyen, and T.P. Vo, A Chebyshev–Ritz solution for size-dependent analysis of the porous microbeams with various boundary conditions. International Journal of Mechanics and Materials in Design, 2023. 19(4): p. 861-881 (SCIE-Q1)

[24] Nguyen, N.-D., A new higher-order beam theory for buckling and free vibration responses of laminated composite and functionally graded porous beams. The Journal of Strain Analysis for Engineering Design, 2023 (SCIE-Q2)

[23] Bui, X.-B., Nguyen, A.-C, Nguyen, N.-D, Do. T.-T,Nguyen, T.-K, Buckling analysis of laminated composite thin-walled I-beam under mechanical and thermal loads, Vietnam Journal of Mechanics, 45(1), 75–90, 3/2023. (ACI)

[22] Nguyen, N.-D., T.-N. Nguyen, T.-K. Nguyen, and T.P. Vo. A Legendre-Ritz solution for bending, buckling and free vibration behaviours of porous beams resting on the elastic foundation. in Structures. (2023) (SCIE-Q1)

[21] Bui, X. B., Nguyen, T. K., Ngoc-Duong Nguyen, & Vo, T. P., A general higher-order shear deformation theory for buckling and free vibration analysis of laminated thin-walled composite I-beams. Composite Structures, 115775 (2022) (SCIE-Q1)

[20]. Lieu B. Nguyen, Chien Thai Hoang, Ngoc-Duong Nguyen, H. Nguyen-Xuan, A size-dependent isogeometric approach for vibration analysis of FG piezoelectric porous microplates using modified strain gradient theory - Engineering with Computers (2021) (SCIE-Q1)

[19]. Ngoc-Duong Nguyen, Thien-Nhan Nguyen, Trung-Kien Nguyen, Thuc P. Vo, A new two-variable shear deformation theory bending, free vibration and buckling analysis of functionally graded porous beams - Composite structure (2021) (SCIE-Q1)

[18]. Ngoc-Duong Nguyen,  Trung-Kien Nguyen, Thuc P. Vo, Lieu B. Nguyen, Bending, buckling and free vibration behaviours of thin-walled functionally graded sandwich and composite channel-section beams - Mechanics Based Design of Structures and Machines, An International Journal (SCIE-Q2)

[17]. Ngoc-Duong Nguyen, Thuc P. Vo, Trung-Kien Nguyen, An improved shear deformable theory for bending and buckling response of thin-walled FG sandwich I-beams resting on the elastic foundation - Composite structure (2020) (SCIE-Q1)

[16]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Thuc P. Vo, Thien-Nhan Nguyen, Seunghye Lee.Vibration and buckling behaviours of thin-walled composite and funtionally graded sandwich I-beams-Composite Part B 166 (2019) 414-427 (SCI-Q1)

[15]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Huu-Tai Thai, Thuc P. Vo. Ritz-based analytical solutions for bending, buckling and vibration behaviors of laminated composite beams-International Journal of Structural Stability and Dynamics-1850130-(SCIE-Q1)

[14]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Huu-Tai Thai, Thuc P. Vo. A Ritz type solution with exponential trial functions for laminated composite beams based on the modified couple stress theory-Composite structure 191 (2018) 154-167 (SCIE-Q1)

[13]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Thien-Nhan Nguyen, Huu-Tai Thai. New Ritz-solution shape functions for analysis of thermo-mechanical buckling and vibration of laminated composite beams-Composite structure 184 (2018) 452-460 (SCIE-Q1)

[12]. Trung-Kien Nguyen, Ngoc-Duong Nguyen, Thuc P. Vo, Huu-Tai Thai, Trigonometric-series solution for analysis of laminated composite beams-Composite Structures 160 (2017) 142-151  (SCIE-Q1)

[11]. Nguyễn Thiện Nhân, Nguyễn Ngọc Dương, Nguyễn Trung Kiên, Phát triển phương pháp Chebyshev-Ritz phân tích dao động tự do dầm cơ tính biến thiên - Tạp chí Khoa học Công nghệ Xây dựng, NUCE 2021 

[10]. Nguyễn Thiện Nhân, Nguyễn Ngọc Dương, Nguyễn Trung Kiên, Phân tích tĩnh dầm composite sử dụng lý thuyết biến dạng cắt bậc cao hai biến - Tạp chí Khoa học Công nghệ Xây dựng, NUCE 2020, 14 (4V): 54-66.

[9]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Thien-Nhan Nguyen. Ritz solution for buckling analysis of thin-walled composite channel beams based on a classical beam theory - Journal of Science and Technology in Civil Engineering (STCE)-NUCE 13(3): 34-44 (2019)

[8]. Trung-Kien Nguyen, Ngoc-Duong Nguyen. Effects of transverse normal strain on bending of laminated composite beams-Vietnam Journal of Mechanics 40-3 (2018): 217-232

[7]. Đặng Xuân Hiếu, Nguyễn Ngọc Dương, Nguyễn Trung Kiên. Phân tích động lực học dầm composite trên nền đàn hồi dưới tác dụng tải trọng di động. Tạp chí Xây dựng Việt Nam, 8/2017.

[6]. Tuan-Binh Phan, Ngoc-Duong Nguyen, Buckling and free vibration analysis of functionally graded porous beams using a two-variable shear deformation theory - Proceeding of 2022 6th International conference on Green Technology and Sustainable Development (GTSD) 

[5]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Ritz solution for static analysis of thin-walled laminated composite I-beams based on first-order beam theory - Proceeding of 2020 5th International conference on Green Technology and Sustainable Development (GTSD) 

[4]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Thuc P. Vo. Hybrid-shape functions for free vibration analysis of thin-walled laminated composite I-beams with different boundary conditions. Hội nghị Cơ học toàn quốc lần thứ X, Hà Nội, 8-9/12/2017

[3]. Ngoc-Duong Nguyen, Trung-Kien Nguyen, Thien-Nhan Nguyen, Thuc P. Vo. Bending analysis of laminated composite beams using hybrid shape functions. The international conference on advances in computational mechanics (ACOME) 2017, August 2-4, Phu Quoc, Viet Nam

[2]. Nguyễn Ngọc Dương, Nguyễn Trung Kiên. Free vibration analysis of laminated composite beams based on higher order shear deformation theory. Hội nghị khoa học Toàn quốc Vật liệu và Kết cấu Composite Cơ học, công nghệ và ứng dụng, Nha Trang 7/2016

[1]. Đỗ Kiến Quốc, Nguyễn Ngọc Dương. Phân tích động lực học khung thép liên kết nửa cứng dùng hàm dạng siêu việt. Hội nghị Toàn quốc Cơ học vật rắn biến dạng (2013): 968-978