Publications

• 2023

[1]    Po-Kuan Wu, Wei-Ting Lin, Jia-Wei Lin, Hong-Chuong Tran*, Tsung-Yuan Kuo, Chi-Sheng Chien, Vi-Long Vo, and Ru-Li Lin, "Mechanical Properties of Titanium/Nano-Fluorapatite Parts Produced by Laser Powder Bed Fusion," Materials, vol. 16, p. 1502, 2023. (* Corresponding Author) 

[2]    Dac-Phuc Pham and Hong-Chuong Tran*, "預測雷射拋光後雷射粉床熔融零件的表面樣態: 數值和實驗研究," 科儀新知, pp. 88-98, 2023 (*Corresponding Author)

[3]    Tzu-Ching Chuang, Yu-Lung Lo, Hong-Chuong Tran, Yung-An Tsai, Cheng-Yen Chen, and Chi-Pin Chiu, "Optimization of Butt-joint laser welding parameters for elimination of angular distortion using High-fidelity simulations and Machine learning," Optics & Laser Technology, vol. 167, p. 109566, 2023.

•  2022

[1]    Hong-Chuong Tran* and Dac-Phuc Pham, "Integrated computational framework for predicting surface profile of laser powder bed fusion stainless steel SUS420 parts after laser polishing," The International Journal of Advanced Manufacturing Technology, vol. 123, pp. 3613-3631, 2022. (*Corresponding Author)

[2]    Hong-Chuong Tran, Yu-Lung Lo, Haw-Ching Yang, Hung-Chang Hsiao, Fan-Tien Cheng, and Tsung-Han Kuo, "Intelligent Additive Manufacturing Architecture for Enhancing Uniformity of Surface Roughness and Mechanical Properties of Laser Powder Bed Fusion Components," IEEE Transactions on Automation Science and Engineering, 2022.

[3]    Hong-Chuong Tran, Yu-Lung Lo, Trong-Nhan Le, Alan Kin-Tak Lau, and Hong-You Lin, "Multi-scale simulation approach for identifying optimal parameters for fabrication ofhigh-density Inconel 718 parts using selective laser melting," Rapid Prototyping Journal, vol. 28, pp. 109-125, 2022.

[4]    Hong-You Lin, Hong-Chuong Tran, Yu-Lung Lo, Trong-Nhan Le, Kuo-Chi Chiu, and Yuan-Yao Hsu, "Optimization of Surface Roughness and Density of Overhang Structures Fabricated by Laser Powder Bed Fusion," 3D Printing and Additive Manufacturing, 2022.

[5]    You-Cheng Chang, Hong-Chuong Tran, and Yu-Lung Lo, "Optimization of built-part distortion in laser powder bed fusion processing of Inconel 718," Rapid Prototyping Journal, vol. 28, pp. 428-444, 2022.

• 2021

[1]    Hung-Yu Wang, Yu-Lung Lo, Hong-Chuong Tran, M Mohsin Raza, and Trong-Nhan Le, "Systematic approach for reducing micro-crack formation in Inconel 713LC components fabricated by laser powder bed fusion," Rapid Prototyping Journal, vol. 27, pp. 1548-1561, 2021.

[2]    Elham Mirkoohi, Hong-Chuong Tran, Yu-Lung Lo, You-Cheng Chang, Hung-Yu Lin, and Steven Y Liang, "Mechanics modeling of residual stress considering effect of preheating in laser powder bed fusion," Journal of Manufacturing and Materials Processing, vol. 5, p. 46, 2021.

[3]    Trong-Nhan Le, Min-Hsun Lee, Ze-Hong Lin, Hong-Chuong Tran, and Yu-Lung Lo, "Vision-based in-situ monitoring system for melt-pool detection in laser powder bed fusion process," Journal of Manufacturing Processes, vol. 68, pp. 1735-1745, 2021.

[4]    Muhammad Adnan, Haw-Ching Yang, Tsung-Han Kuo, Fan-Tien Cheng, and Hong-Chuong Tran, "MPI-based system 2 for determining LPBF process control thresholds and parameters," IEEE Robotics and Automation Letters, vol. 6, pp. 6553-6560, 2021.

• 2020

[1]    Jen-Hung Wang, Yu-Lung Lo, Hung-Yu Wang, and Hong-Chuong Tran, "Multi-objective optimization framework for five-pass wire-drawing process," The International Journal of Advanced Manufacturing Technology, vol. 107, pp. 3049-3063, 2020.

[2]    Elham Mirkoohi, Hong-Chuong Tran, Yu-Lung Lo, You-Cheng Chang, Hung-Yu Lin, and Steven Y Liang, "Analytical mechanics modeling of residual stress in laser powder bed considering flow hardening and softening," The International Journal of Advanced Manufacturing Technology, vol. 107, pp. 4159-4172, 2020.

[3]    Elham Mirkoohi, Hong-Chuong Tran, Yu-Lung Lo, You-Cheng Chang, Hung-Yu Lin, and Steven Y Liang, "Analytical modeling of residual stress in laser powder bed fusion considering part’s boundary condition," Crystals, vol. 10, p. 337, 2020.

•   2019

[1]    Hong-Chuong Tran and Yu-Lung Lo, "Systematic approach for determining optimal processing parameters to produce parts with high density in selective laser melting process," The International Journal of Advanced Manufacturing Technology, vol. 105, pp. 4443-4460, 2019.

[2]    Chi-Guang Ren, Yu-Lung Lo, Hong-Chuong Tran, and Min-Hsun Lee, "Emissivity calibration method for pyrometer measurement of melting pool temperature in selective laser melting of stainless steel 316L," The International Journal of Advanced Manufacturing Technology, vol. 105, pp. 637-649, 2019.

[3]    Yu-Lung Lo, Bung-Yo Liu, and Hong-Chuong Tran, "Optimized hatch space selection in double-scanning track selective laser melting process," The International Journal of Advanced Manufacturing Technology, vol. 105, pp. 2989-3006, 2019.

•    2018

[1]     Hong-Chuong Tran, and Yu-Lung Lo. "Heat transfer simulations of selective laser melting process based on volumetric heat source with powder size consideration." Journal of Materials Processing Technology 255 (2018): 411-425. 

• 2017

   [1]    Hong-Chuong Tran, Yu-Lung Lo, and Min-Hao Huang. "Analysis of scattering and absorption characteristics of metal powder layer for selective laser               sintering." IEEE/ASME Transactions On Mechatronics 22, no. 4 (2017): 1807-1817.