Assoc. Prof. PhD. Nhu-Tung Nguyen

Assoc. Prof. PhD. Nhu-Tung Nguyen

  • Position:  Senior Lecturer
  • Title: Associate Professor
  • Email:;
  • Working offices:Nguy Nhu Kon Tum Campus: Faculty of Applied Sciences, Room 408, Building C, HACINCO Student Village, 99-Nguy Nhu Kon Tum Street, Thanh Xuan District, HanoiTrinh Van Bo Campus: Faculty of Applied Sciences, Room 509, Building ADMI, No. 1, Trinh Van Bo Street, Nam Tu Liem District, Hanoi

Academic Degrees

  • Engineer: Industrial and Development of Rural, Vietnam Forestry University (VFU), (2005).
  • Master: Engineering Machinery and Equipment Mechanization of Agriculture and Forestry, Vietnam Forestry University (VFU), (2010).
  • Doctor: Mechanical Engineering and Precision Manufacturing, National Kaohsiung University of Applied Sciences (KUAS), Taiwan, (2015).

Research Areas

  • Research interests:
  1. Modeling and Simulation of Dynamics Processes Based on the Physical, Mechanical, and Geometric Phenomena
  2. Prediction and Optimization of Manufacturing Processes Based on the Experimental Method
  3. Industrial System Design, Simulation, and Manufacturing
  • Teaching subjects:
  1. CNC Technology
  2. CAD/CAM Technology
  3. Technical Drawing and CAD
  4. Theoretical Mechanical
  5. Applied Mechanical
  6. Hydraulic and Pneumatic Transmission
  7. Applied Information Technology in Engineering
  8. Planning and Processing the Experimental Data
  9. Automation of Production Processes
  10. Product Research and Development
  11. Manufacturing Technology Project
  12. Engineering Materials


  • Do, Duc Trung, Van Dua Tran, Van Duc Duong, and Nhu-Tung Nguyen*. “Investigation of the Appropriate data normalization method for combination with preference selection index method in MCDM.” Operational Research in Engineering Sciences: Theory and Applications (2022), doi:, Scopus, Q1.
  • Do, Duc Trung, and Nhu-Tung Nguyen*. “Applying Cocoso, Mabac, Mairca, Eamr, Topsis and weight determination methods for multi-criteria decision making in hole turning process.” Strojnícky časopis-Journal of Mechanical Engineering 72, no. 2 (2022): 15-40. doi:, Scopus, Q3.
  • Nguyen, Nhu-Tung. “A development method of cutting force coefficients in face milling process using parallelogram insert.” EUREKA: Physics and Engineering 5 (2021): 36-52, doi:, Scopus, Q2.
  • Nguyen, Nhu-Tung, Dong Van Pham, Dung Tien Hoang, and Cuong Duc Pham. “Modeling of dynamic cutting forces and cutting characteristics based on the analyzed results of average force-feed rate relationship in milling processing.” Journal of Computational & Applied Research in Mechanical Engineering (JCARME) (2021), doi: 10.22061/JCARME.2021.8011.2070, Scopus, Q3.
  • Nhu-Tung Nguyen, Van Thien Nguyen, Hoang, Tien Dung, Trung Do Duc, “Multi-objective optimization of turning process using a combination of Taguchi and VIKOR methods.” Journal of Applied Engineering Science 19, no. 4 (2021): 868-873, doi:, Scopus Q3.
  • Nguyen, Nhu-Tung, and Do Duc Trung. “Development of Surface Roughness Model in Turning Process of 3X13 Steel Using TiAIN Coated Carbide Insert.” EUREKA: Physics and Engineering, (4) (2021): 113-124, doi:, Scopus, Q2.
  • Nguyen, Nhu-Tung, Dung Hoang Tien, Nguyen Tien Tung, and Nguyen Duc Luan. “Analysis of tool wear and surface roughness in high-speed milling process of aluminum alloy Al6061.” EUREKA: Physics and Engineering, (3) (2021): 71-84, doi:, Scopus, Q2.
  • Nguyen, Nhu-Tung, Do Duc Trung “Combination of Taguchi method, Moora and Copras techniques in multi-objective optimization of surface grinding process.” Journal of Applied Engineering Science 19, no. 2 (2021): 390-398, doi:, Scopus, Q3.
  • Do, Duc Trung, and Nhu-Tung Nguyen*. “Investigation of the surface roughness in infeed centerless grinding of SCM435 steel.” International Journal of Automation Technology 15, no. 1 (2021): 123-130, doi:, ISI, Q2.
  • Nguyen Van Thien, Dung Hoang Tien, Nhu-Tung Nguyen*, Nguyen Van Que, Do Duc Trung, Pham Thi Thieu Thoa, (2020), A prediction of Cutting Force, System Vibration, and Productivity in Five-Axis Milling Process of the Spiral Bevel Gear, Advances in Science, Technology and Engineering Systems Journal (ASTESJ), Volume 5, Issue 6, Page No 1394-1401, 202, doi: 10.25046/aj0506168, , Scopus, Q3.
  • Nhu-Tung Nguyen, Do Duc Trung, (2020), A study on the surface grinding process of the SUJ2 steel using CBN slotted grinding wheel, AIMS Materials Science, 2020, Volume 7, Issue 6: 871-886, doi:10.3934/matersci.2020.6.871,, ISI, Scopus, Q3.
  • Nhu-Tung Nguyen, Do Duc Trung, (2021), Combination of Taguchi Method, MOORA and COPARS Techniques in Multi-Objective Optimization of Surface Grinding Process, The Journal of Applied Engineering Science – JAES, ISSN:1451-4117E-ISSN:1821-3197. doi: 10.5937/jaes0-28702, , Scopus, Q2.
  • Do Duc Trung and Nhu-Tung Nguyen*, “Investigation of the Surface Roughness in Infeed Centerless Grinding of SCM435 Steel,” Int. J. Automation Technol., Vol.15, No.1, pp. 123-130, 2021. doi: , ESCI, Scopus, Q2.
  • Nhu-Tung Nguyen, Dung Hoang Tien, Do Duc Trung*, (2020), Multi-Objective Optimization when Surface Grinding the 3X13 Steel by Combining the General Reduced Gradient Algorithm and Harmonic Mean Method, Advances in Science, Technology and Engineering Systems Journal (ASTESJ), 5(5), 395-400 (2020), ISSN: 2415-6698, doi: , Scopus, Q3.
  • Le Hong Ky, Nhu-Tung Nguyen, Do Duc Trung, Hoang Tien Dung, and Le Hoang Anh, (2020), Modeling the surface roughness in face-end milling process by using general insert at stable cutting conditions, International Journal of Modern Physics B, Vol. 34, No. 22n24, 2040143, ISSN (print): 0217-9849 | ISSN (online): 1793-6640, doi: , SCIE, Scopus, Q3.
  • Tuan-Linh Nguyen, Nhu-Tung Nguyen, and Long Hoang, (2020), A study on the vibrations in the external cylindrical grinding process of the alloy steels, International Journal of Modern Physics B, Vol. 34, No. 22n24, 2040150, ISSN (print): 0217-9849 | ISSN (online): 1793-6640, doi: , SCIE, Scopus, Q3.
  • Tien Dung Hoang, Nguyen, Nhu-Tung*, and Duc Quy Tran, Van Thien Nguyen. (2019). Cutting Forces and Surface Roughness in Face-Milling of SKD61 Hard Steel. Strojniški vestnik – Journal of Mechanical Engineering, 65(6), 375-385, ISSN Print 0039-2480, ISSN 2536-2948 (online), doi: , SCIE, Scopus, Q2.
  • Kao, Y. C., Nguyen, N. T*., Chen, M. S., & Huang, S. C. (2015). A combination method of the theory and experiment in determination of cutting force coefficients in ball-end mill processes. Journal of Computational Design and Engineering, 2(4), 233-247, ISSN: 2288-4300, doi:, SCIE, Scopus, Q1.
  • Kao, Y. C., Nguyen, N. T*., Chen, M. S., & Su, S. T. (2015). A prediction method of cutting force coefficients with the helix angle of flat-end cutter and its application in a virtual three-axis milling simulation system. The International Journal of Advanced Manufacturing Technology, Vol. 77, Issue. 9-12, pp 1793-1809, ISSN: 0268-3768 (Print) 1433-3015 (Online), doi:, SCIE, Scopus, Q1.


  • Nguyen Nhu Tung (2020), Modeling of Machining Dynamics: Cutting Forces and Machining Characteristics in Three-Axis Milling Processes, Science and technics publishing House, Ha Noi, Viet Nam, ISBN: 978-604-67-1757-7.
  • Nguyễn Như Tùng, Nguyễn Thị Thanh Vân, Nguyễn Đức Lợi, Phùng Tiến Duy (2020), Giáo trình Cơ học Ứng dụng, Nhà xuất bản Khoa học Kỹ thuật, Hà Nội, Việt Nam, ISBN: 978-604-67-1587-0.
  • Nguyễn Như Tùng, Phạm Thị Kim Huệ, Trần Thị Thu Trang, Nguyễn Văn Quyết, Hà Duy Thái (2017), Giáo trình Cơ sở lý thuyết mạch điện-Tập 1, Nhà xuất bản Đại học Thái Nguyên, Thái Nguyên, Việt Nam, ISBN: 978-604-915-512-3.

Research Projects

  • Development and application of Cermet coating technology by HVOF method to improve the life of press screws in the clean coal production industry, Hanoi City, Vietnam, 2022-2024, Principal investigator.
  • Development of the models to predict the chatter phenomena, to predict and expand the stability region to improve the productivity and quality in the milling process, No. 09-2022-RD/HĐ-ĐHCN, Hanoi University of Industry, Vietnam, 2022-2023, Project manager.
  • Designing and mastering the continuous PU panel production system, No. RD30-20, Ministry of Construction, Vietnam, 2019-2020, Principal investigator.
  • Study on building models to determine the cutting force coefficients and building the cutting force prediction programs in several CNC milling processes with applied in training and research, No. 02-2020-RD/HĐ-ĐHCN, Hanoi University of Industry, Vietnam, 2020-2021, Project manager.
  • Development of the technological process and manufacture the helical bevel gears on 5-axis CNC machine, No. 123.2020.DT.BO/HĐKHCN, Ministry of Industry and Trade, Vietnam, Principal investigator.
  • Research to build the software to predict multi-parameters of surface grinding processes, No. 12-2019-RD/HĐ-ĐHCN, Hanoi University of Industry, Vietnam, 2019-2020, Principal investigator.
  • Research and develop the Rehmannia Glutinosa according to the GACP-WHO guidelines in Phu Tho province and some neighboring provinces, No. ĐTĐL.CN-
  • 03/17, Ministry of Science and Technology (MOST), Vietnam, 2017-2021, Principal investigator with content: Design and Manufacture the Dryer Line in Drying the herbal tubers.
  • Design and Manufacturing the Agricultural – Herbal Drying Equipment using the Solar Energy, Hung Vuong University, Vietnam, 2016-2017, Project manager.
  • Design and manufacture the multi-layered combustion equipment to incinerate the solid waste and contribute to reduce the environmental pollution, Kim Quy Joint Stock Company, Vietnam, 2014-2016, Principal investigator.
  • Research and improve the hole digging machine to plant on the sloping land in Phu Tho province, Vietnam, Hung Vuong University, Vietnam, 2009-2011, Project manager.