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Assoc Prof Canh-Dung Tran

Assoc Prof Canh-Dung Tran
Name Canh-Dung Tran
Position Associate Professor (Mechanical and Mechatronic Engineering)
Section School of Engineering
Office Z408
Location Toowoomba Campus
Phone +61 7 4687 5804
Extension 5804
Email
Qualifications PGDip EngProcessesTextile&Para-textileMaterials Haute Alsace , MEng HoChiMinhUT , PhD USQ
Languages French (non accredited translator)
Vietnamese (accredited translator)
Homepage https://scholar.google.com.au/citations?user=tMMsyacAAAAJ&hl=en
The views expressed on staff homepages may not reflect the views of the University.

Fields of Research (FoR)

  • Materials Engineering ( 091200 )
  • Nanotechnology ( 100700 )
  • Interdisciplinary Engineering not elsewhere classified ( 091599 )
  • Applied Mathematics not elsewhere classified ( 010299 )
  • Mechanical Engineering not elsewhere classified ( 091399 )
  • Materials Engineering not elsewhere classified ( 091299 )
  • Numerical and Computational Mathematics not elsewhere classified ( 010399 )
  • Applied Mathematics not elsewhere classified ( 490199 )
  • Other Engineering not elsewhere classified ( 409999 )
  • Nanotechnology ( 401800 )
  • Numerical And Computational Mathematics not elsewhere classified ( 490399 )
  • Materials Engineering not elsewhere classified ( 401699 )
  • Mechanical Engineering not elsewhere classified ( 401799 )
  • Materials Engineering ( 401600 )
  • Applied Mathematics ( 490100 )
  • Other Engineering ( 409900 )
  • Numerical And Computational Mathematics ( 490300 )
  • Mechanical Engineering ( 401700 )

Research interests
Computational Mechanics.
-Computational solid and fluid mechanics
- Element Methods
- Meshfree Methods
- Particle based methods
Materials Engineering
-CNTs and Nanotechnology
-Advanced fibrous materials
-Textile materials
Microfluidics
MEMS

Professional memberships
International Fiber Society (IFS).
Society of Rheology (SOR, USA).
American Nano Society (USA).

Industry affiliations
Member of Australian Society of Rheology (ASR).

USQ Research affiliations

  • Centre for Future Materials (CFM)
  • Institute for Advanced Engineering and Space Sciences (IAESS)

Currently teaching courses/programs
MEC2401 - Dynamics 1 (examiner)
MEC3903 - Mechanical Practice 3 (examiner)
MEC2405 - Machine Dynamics (examiner)
MEC3403 - Dynamics 2 - Vibration (examiner)

Previously Teaching Courses
MEC2301 - Design of Machine Elements
MEC2902 - Mechanical Practice 2
ENG1002 - Introduction to Engineering and Built Environment Applications (SF)
MEC3403 - Dynamics 2
MEC3904 - Mechanical Practice 4
ENG4104 - Engineering Problem Solving 4

Teaching experience(Tertiary)
30 Years

Teaching experience(Other)
30 Years

Research most recent
Tran, CD; Le-Cao, K; Bui TT; Dau, TV (2019) Dielectrophoresis can control the density of CNT membranes as confirmed by experiment and dissipative particle simulation, Carbon, Vol. 155, 279-286, ISSN 0008-6223

Dinh, T; Dau, V; Tran, CD; Nguyen, TK; Phan, HP; Nguyen, NT; Dao, DV (2019) Polyacrylonitrile-carbon nanotube-polyacrylonitrile: a versatile robust platform for flexible multifunctional electronic devices in medical applications. Macromolecular Materials and Engineering, 304 (6). pp. 19000141-19000148. ISSN 1465-8011

Tran, CD; Pham, PH; Nguyen, TK; Phan, HP; Dinh, T; Nguyen, TV; Bui, TT; Trinh, CD ; Nguyen, NT; Dao, DV and Dau, VT (2020) A new structure of Tesla coupled nozzle in synthetic jet micro-pump. Sensors and Actuators A: Physical, 315:112296. pp. 1-7. ISSN 0924-4247


Research most notable
Tran CD (Project Leader), Smith S, Martin P, Preston E (2008-2009), Carbon Nano-tube Yarn: Properties and application, Project R-0306-01, CSIRO National Research Flagships, Future Manufacturing.

Tran CD, Humphries W, Smith SM, Huynh C and Lucas S (2009). Improving the Tensile Strength of Carbon Nano-tube Spun Yarns using a modified spinning process, Carbon, Vol. 47(11), 2662-2670.

Tran, CD; Le-Cao, K; Bui TT; Dau, TV (2019) Dielectrophoresis can control the density of CNT membranes as confirmed by experiment and dissipative particle simulation, Carbon, Vol. 155, 279-286, ISSN 0008-6223

Dau, VT; Dinh, TX; Tran, CD; Bui, PN; Dinh, VD; Phan, HT (2018) Fluidic mechanism for dual-axis gyroscope. Mechanical Systems and Signal Processing, 108. pp. 73-87. ISSN 0888-3270


Publications in ePrints

Vu, Trung-Hieu and Nguyen, Hang Thu and Fastier-Wooller, Jarred W. and Tran, Dang D. H. and Nguyen, Tuan-Hung and Nguyen, ThanhORCID: https://orcid.org/0000-0002-3213-6178 and Nguyen, Tuan-Khoa and Tran, Canh-DungORCID: https://orcid.org/0000-0002-1011-4226 and Abbasi, Naghmeh and Bui, Tung T. and Dao, Dzung V. and Dau, Van Thanh (2022) Electric Field-Enhanced Electrohydrodynamic Process For Fabrication of Highly Sensitive Piezoelectric Sensor. In: 35th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2022), 9 Jan - 13 Jan 2022, Tokyo, Japan.

Vu, Trung-Hieu and Nguyen, Hang Thu and Fastier-Wooller, Jarred W. and Tran, Canh-DungORCID: https://orcid.org/0000-0002-1011-4226 and Nguyen, Tuan-Hung and Nguyen, Hong-Quan and Nguyen, ThanhORCID: https://orcid.org/0000-0002-3213-6178 and Nguyen, Tuan-Khoa and Dinh, ToanORCID: https://orcid.org/0000-0002-7489-9640 and Bui, Tung T. and Zhong, Yulin and Phan, Hoang-Phuong and Nguyen, Nam-Trung and Dao, Dzung V. and Dau, Van Thanh (2022) Enhanced electro-hydrodynamics for electrospinning a highly sensitive flexible fiber-based piezoelectric sensor. ACS Applied Electronic Materials, 4 (3). pp. 1301-1310.

Nguyen, Hung Quoc and Tran, Canh‑DungORCID: https://orcid.org/0000-0002-1011-4226 (2022) Simulation of non‑dilute fibre suspensions using RBF‑based macro–micro multiscale method. Korea-Australia Rheology Journal, 34 (1). pp. 1-15. ISSN 1226-119X

Nguyen, Thanh ORCID: https://orcid.org/0000-0002-3213-6178 and Dinh, ToanORCID: https://orcid.org/0000-0002-7489-9640 and Dau, Van Thanh and Nguyen, Hung and Vu, Trung Hieu and Tran, Canh-DungORCID: https://orcid.org/0000-0002-1011-4226 and Song, PinganORCID: https://orcid.org/0000-0003-1082-652X and Bell, John and Nguyen, Nam-Trung and Dao, Dzung Viet (2022) The concept of light-harvesting, self-powered mechanical sensors using a monolithic structure. Nano Energy, 96:107030. pp. 1-9. ISSN 2211-2855

Nguyen, Thanh ORCID: https://orcid.org/0000-0002-3213-6178 and Dinh, ToanORCID: https://orcid.org/0000-0002-7489-9640 and Dau, Van Thanh and Tran, Canh-DungORCID: https://orcid.org/0000-0002-1011-4226 and Phan, Hoang-Phuong and Nguyen, Tuan-Khoa and Nguyen, Hong Khac and Riduan, Foisal Abu and Guzman, Pablo and Nguyen, Nam-Trung and Dao, Dzung Viet (2021) A Wearable, Bending-Insensitive Respiration Sensor Using Highly Oriented Carbon Nanotube Film. IEEE Sensors Journal, 21 (6). pp. 7308-7315. ISSN 1530-437X

View full listing in ePrints

Research supervisor in the area of:

  • Interdisciplinary Engineering not elsewhere classified ( 091599 )
  • Applied Mathematics not elsewhere classified ( 010299 )
  • Mechanical Engineering not elsewhere classified ( 091399 )
  • Materials Engineering not elsewhere classified ( 091299 )
  • Numerical and Computational Mathematics not elsewhere classified ( 010399 )
  • Applied Mathematics not elsewhere classified ( 490199 )
  • Other Engineering not elsewhere classified ( 409999 )
  • Nanotechnology ( 401800 )
  • Numerical And Computational Mathematics not elsewhere classified ( 490399 )
  • Materials Engineering not elsewhere classified ( 401699 )
  • Mechanical Engineering not elsewhere classified ( 401799 )
  • Materials Engineering ( 401600 )
  • Applied Mathematics ( 490100 )
  • Other Engineering ( 409900 )
  • Numerical And Computational Mathematics ( 490300 )
  • Mechanical Engineering ( 401700 )


Research topics