Please find our recent journal papers here. For more details, use the link provided through the journal paper titles.
You can also find more journals by using the link provided at the end of this page.
![](https://labs.utdallas.edu/caml/files/2024/07/materials-17-03277-g008.jpg)
Exploratory Studies of Mechanical Properties, Residual Stress, and Grain Evolution at the Local Regions near Pores in Additively Manufactured Metals
![](https://labs.utdallas.edu/caml/files/2024/01/DED-31ab5bb08a4318fd.png)
Comprehensive study of the cold-temperature directed energy deposition: Multi-physics modelling and experimental validation
![](https://labs.utdallas.edu/caml/files/2023/08/Top-figure.png)
Processing aluminum alloy with hybrid wire arc additive manufacturing and ultrasonic nanocrystalline surface modification to improve porosity, surface finish, and hardness
![](https://labs.utdallas.edu/caml/files/2023/06/fig.0-1024x453.png)
Experimental Study of Low-Temperature Directed Energy Deposition Near Freezing Point Temperature 0°C
![](https://labs.utdallas.edu/caml/files/2022/12/1-s2.0-S1359646222006674-gr1_lrg-885x1024.jpg)
Porosity evolution under increasing tension in wire-arc additively manufactured aluminum using in-situ micro-computed tomography and convolutional neural network
![](https://labs.utdallas.edu/caml/files/2022/09/Fig3-1024x555.png)
Machinability of partition milling stainless steel/Inconel functionally gradient material printed with directed energy deposition.
![](https://labs.utdallas.edu/caml/files/2022/05/DEDMilling.png)
Experimental studies on fabricating functionally gradient material of stainless steel 316L-Inconel 718 through hybrid manufacturing: directed energy deposition and machining.
![](https://labs.utdallas.edu/caml/files/2022/03/dedunsm-1-1024x526.png)
Multiphysics modeling of in situ integration of directed energy deposition with ultrasonic nanocrystal surface modification.
![](https://labs.utdallas.edu/caml/files/2021/09/1-s2.0-S2213846321000572-ga1_lrg-1-1024x435.jpg)
Multi-physics modeling of powder bed fusion process and thermal stress near porosity
![](https://labs.utdallas.edu/caml/files/2021/09/1-s2.0-S104458032032163X-ga1_lrg-1024x1016.jpg)
![](https://labs.utdallas.edu/caml/files/2021/09/Screenshot-2021-09-07-105056.jpg)
![](https://labs.utdallas.edu/caml/files/2021/09/Screenshot-2021-09-07-105832.jpg)
![](https://labs.utdallas.edu/caml/files/2024/06/cfd-fea-1024x956.jpg)
Conforming mesh modeling of multi-physics effect on residual stress in multi-layer powder bed fusion process
![](https://labs.utdallas.edu/caml/files/2023/11/waamutd-1024x679.png)
Integrating robotic wire arc additive manufacturing and machining: hybrid WAAM machining.
![](https://labs.utdallas.edu/caml/files/2022/12/1-s2.0-S2214860422007473-gr6_lrg-776x1024.jpg)
Comprehensive studies of SS316L/IN718 functionally gradient material fabricated with directed energy deposition: multi-physics & multi-materials modelling and experimental validation.
![](https://labs.utdallas.edu/caml/files/2022/03/1-s2.0-S221384632200013X-gr2_lrg-953x1024-1.jpg)
Molten pool swing in printing the steel/inconel functionally gradient material with laser-based Directed Energy Deposition.
![](https://labs.utdallas.edu/caml/files/2021/11/1-s2.0-S0167577X21017079-ga1_lrg-3-1024x531.jpg)
Modeling study of porosity’s effect on grain evolution during directed energy deposition
![](https://labs.utdallas.edu/caml/files/2021/09/10.1177_0954405420970088-fig4-1024x825.jpeg)
Investigation of significant factors on deformation with powder bed fusion system
![](https://labs.utdallas.edu/caml/files/2021/09/crystals-10-00638-g009-799x1024.png)
![](https://labs.utdallas.edu/caml/files/2021/09/1-s2.0-S0167577X19307268-ga1_lrg-1024x509.jpg)
For more interesting journals, please use the following link
Wei Li