Do Tho Truong, PhD.
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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.
Recent Submissions
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Mechanical properties of polyjet 3d-printed composites inspired by space-filling peano curves
(2021-10-02)This paper proposes a design of novel composite materials inspired by the Peano curve and manufactured using PolyJet 3D printing technology with Agilus30 (flexible phase) and VeroMagentaV (rigid phase) materials. Mechanical ... -
From nature to additive manufacturing: Biomimicry of porcupine quill
(2021-08-13)A porcupine’s quill is an extraordinary natural armor capable of withstanding high compression load. By unraveling the unique properties of the porcupine quill design, the bioinspired structures can be applied in engineering ... -
Semi-supervised machine learning of optical in-situ monitoring data for anomaly detection in laser powder bed fusion
(2023)Laser powder bed fusion (L-PBF) is one of the most widely used metal additive manufacturing technology for fabrication of functional and structural components. However, inconsistency in quality and reliability of L-PBF ... -
Concurrent multiscale topology optimisation towards design and additive manufacturing of bio-mimicking porous structures
(2023)This paper presents a novel multiscale explicit topology optimisation approach for concurrently optimizing the structure at the macro level and the bio-mimicking porous infillings at the micro level. Solid bar components ... -
Semi-supervised machine learning of optical in-situ monitoring data for anomaly detection in laser powder bed fusion
(2022)Laser powder bed fusion (L-PBF) is one of the most widely used metal additive manufacturing technology for fabrication of functional and structural components. However, inconsistency in quality and reliability of L-PBF ... -
Development of a novel direct powder screw extruder for 3D scaffold printing of PCL‐based composites
(2023-08-16)Polycaprolactone (PCL) has emerged as a prominent biomaterial for fabricating scaffolds in tissue engineering applications via 3D printing. However, the common commercial form of PCL is typically observed in powder or ... -
Development of a fuzzy‐AHP system to select the printing method for polycaprolactone (PCL)‐based scaffolds
(2022-07-23)Polycaprolactone (PCL)-based scaffolds have great potential in various tissue engineering applications because of their biodegradability, high mechanical strength, and easy fabrication using different 3D printing methods. ... -
Concurrent multiscale topology optimisation towards design and additive manufacturing of bio-mimicking porous structures
(2022-11-16)This paper presents a novel multiscale explicit topology optimisation approach for concurrently optimizing the structure at the macro level and the bio-mimicking porous infillings at the micro level. Solid bar components ... -
Mechanical Properties of PolyJet 3D-Printed Composites Inspired by Space-Filling Peano Curves
(2021-10-13)This paper presents a novel design for composite materials inspired by the Peano curve and manufactured using PolyJet 3D printing technology with Agilus30 (flexible phase) and VeroMagentaV (rigid phase). The mechanical ... -
FDM-Based 3D Printing of Polymer and Associated Composite: A Review on Mechanical Properties, Defects and Treatments
(2020-07-10)Fused deposition modelling (FDM) is one of the fastest-growing additive manufacturing methods used in printing fibre-reinforced composites (FRC). The performances of the resulting printed parts are limited compared to those ...
