Professor

Đỗ Thọ Trường

Affiliation: VinUniversity, Hanoi, Viet Nam

[email protected]

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Scopus ID: 56400339600

Introduction

Upon graduation from the University of Science and Technology, Dr. Truong worked as a lecturer at the University of Transport and Communications. He completed his master’s degree in France and Spain and received his PhD in Mechanical Engineering from Michigan State University, United States. Truong also worked for a NASA funded project “Empirical Optimization of Additive Manufacturing” at the Additive Manufacturing Center, University of Louisville. In this project, machine learning used for defect detection was based on in-situ monitoring signals from multiple types of sensors mounted on the Selective Laser Melting (SLM) system. He also worked on other projects funded by the US Air Force Research Lab, and the National Institutes of Health.

Affiliation: VinUniversity, Hanoi, Viet Nam

Research Output

Multi-sensor monitoring for optimising printing parameters of laser powder bed fusion (L-PBF) processes

Wee Allen Hum Jun, Lu Qing Yang, Do Truong, Nguyen Ngoc Vu, Tran Tuan
  • Virtual and Physical Prototyping
DOI: 10.1080/17452759.2025.2511118
  • anomaly detection
  • in-process monitoring
  • Powder bed fusion
  • thermal imaging
  • visible-light imaging

Mechanical and dynamic performance of 3D-printed continuous carbon fibre Onyx composites

Nguyen-Van Vuong, Peng Chenxi, Tran Phuong, Wickramasinghe Sachini, Do Truong, Ruan Dong
  • Thin Walled Structures
DOI: 10.1016/j.tws.2024.111979
  • Carbon fibre-reinforced composite
  • Fused deposition modelling (FDM)
  • Impact resistance
  • Scanning electron microscopy (SEM)
  • X-ray micro-computed tomography

The development of a modular and open-source multi-head 3D bioprinter for fabricating complex structures

Phung Lan Xuan, Ta Tuan Quang, Pham Vuong-Hung, Nguyen Minh Thi Hong, Do Truong, Nguyen Trung Kien
  • Bioprinting
DOI: 10.1016/j.bprint.2024.e00339
  • Alginate-based bioink
  • Extrusion bioprinting
  • Modular multi-printheads
  • Screw-based deposition

A comparative study on mechanical properties of fully dense 420 stainless steel parts produced by modified binder jet printing

Shin Chang-Seop, Do Truong, Lee Dohoon, So Tae-Yeong, Ko Se-Hyun, Chung Haseung, Kwon Patrick
  • Materials and Design
DOI: 10.1016/j.matdes.2022.111343
  • Binder jet printing
  • Stainless steel 420
  • Static and fatigue strength

From nature to additive manufacturing: Biomimicry of porcupine quill

Tee Yun Lu, Maconachie Tobias, Pille Philip, Leary Martin, Do Truong, Tran Phuong
  • Materials and Design
DOI: 10.1016/j.matdes.2021.110041
  • 3D Printing
  • Additive manufacturing
  • Bioinspired design
  • Biomimicry
  • Lattice structure
  • Porcupine quill
  • Voronoi structure

Mechanical properties of polyjet 3d-printed composites inspired by space-filling peano curves

Wu Changlang, Do Truong Tho, Tran Phuong
  • Polymers
DOI: 10.3390/polym13203516
  • Additive manufacturing
  • Composite
  • Multi-material printing
  • Peano curve
  • PolyJet 3D printing
  • Rule of mixture

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Keyphrases

  • anomaly detection
  • in-process monitoring
  • Powder bed fusion
  • thermal imaging
  • visible-light imaging
  • Carbon fibre-reinforced composite
  • Fused deposition modelling (FDM)
  • Impact resistance
  • Scanning electron microscopy (SEM)
  • X-ray micro-computed tomography
  • Alginate-based bioink
  • Extrusion bioprinting
  • Modular multi-printheads
  • Screw-based deposition
  • Binder jet printing
  • Stainless steel 420
  • Static and fatigue strength
  • 3D Printing
  • Additive manufacturing
  • Bioinspired design
  • Biomimicry
  • Lattice structure
  • Porcupine quill
  • Voronoi structure
  • Composite
  • Multi-material printing
  • Peano curve
  • PolyJet 3D printing
  • Rule of mixture

Computer Science

  • Signal Processing

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