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USA – Fully Funded PhD in Laser Material Processing at University of Texas Rio G
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USA – Fully Funded PhD in Laser Material Processing at University of Texas Rio Grande Valley
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USA – Fully Funded PhD in Laser Material Processing at University of Texas Rio Grande Valley
role at PhDFinder.
University:
University of Texas Rio Grande Valley Country:
United States Deadline:
Not specified Fields:
Materials Science, Mechanical Engineering, Additive Manufacturing, Artificial Intelligence, Metallurgy
Are you eager to advance your career in the rapidly evolving field of advanced manufacturing, laser material processing, or artificial intelligence applications in engineering? If you are looking to make a significant impact through cutting‑edge research, a fully funded position at the University of Texas Rio Grande Valley (UTRGV) could be your ideal next step.
About the University The University of Texas Rio Grande Valley (UTRGV) is a prominent public research institution located in the southernmost region of Texas, United States. Established in 2013, UTRGV is one of the largest universities in Texas, serving a diverse student body across multiple campuses. The university is recognized for its strong emphasis on research, innovation, and community engagement, particularly in STEM disciplines. UTRGV’s research environment is collaborative and forward‑thinking, offering access to state‑of‑the‑art laboratories, interdisciplinary teams, and strong industry partnerships. The Rio Grande Valley region itself is an emerging hub for technology and manufacturing, providing an excellent backdrop for research that bridges academia and real‑world applications.
Research Topics and Significance
Metal additive manufacturing (AM) techniques such as Directed Energy Deposition (DED), Cold Spray, and Laser Powder Bed Fusion (LPBF)
Laser material processing and micro/nano‑scale applications
Computational modeling and simulation for additive manufacturing
Application of AI/ML for process optimization and monitoring in AM
Microstructure characterization using advanced tools such as SEM, EBSD, and XRD
In‑situ monitoring of additive manufacturing processes
These positions are available for immediate start and will remain open until filled. The research group provides a dynamic and supportive environment, encouraging interdisciplinary collaboration and innovation.
Candidate Profile
Strong interest and motivation in laser material processing, metal additive manufacturing, or AI/ML applications in advanced manufacturing
Expertise in one or more of the following areas: Metal AM methods (e.g., DED, Cold Spray, LPBF); Laser material processing and micro/nano‑scale applications; Computational modeling and simulation for AM; Application of AI/ML for AM; Materials science and metallurgy; Microstructure characterization (SEM, EBSD, XRD); In‑situ process monitoring in AM
For Master’s and PhD applicants: minimum GPA of 3.3/4 and fulfillment of English proficiency requirements
For postdoctoral applicants: a proven track record of publications in metal additive manufacturing
Self‑driven, collaborative, and eager to contribute to high‑impact research projects
Application Process To apply, please prepare the following documents:
Cover letter detailing your research experience and interests
Curriculum Vitae (CV) including a list of publications
Contact information for at least two professional references
Please refer to the official advertisement for application details.
#J-18808-Ljbffr
USA – Fully Funded PhD in Laser Material Processing at University of Texas Rio Grande Valley
role at PhDFinder.
University:
University of Texas Rio Grande Valley Country:
United States Deadline:
Not specified Fields:
Materials Science, Mechanical Engineering, Additive Manufacturing, Artificial Intelligence, Metallurgy
Are you eager to advance your career in the rapidly evolving field of advanced manufacturing, laser material processing, or artificial intelligence applications in engineering? If you are looking to make a significant impact through cutting‑edge research, a fully funded position at the University of Texas Rio Grande Valley (UTRGV) could be your ideal next step.
About the University The University of Texas Rio Grande Valley (UTRGV) is a prominent public research institution located in the southernmost region of Texas, United States. Established in 2013, UTRGV is one of the largest universities in Texas, serving a diverse student body across multiple campuses. The university is recognized for its strong emphasis on research, innovation, and community engagement, particularly in STEM disciplines. UTRGV’s research environment is collaborative and forward‑thinking, offering access to state‑of‑the‑art laboratories, interdisciplinary teams, and strong industry partnerships. The Rio Grande Valley region itself is an emerging hub for technology and manufacturing, providing an excellent backdrop for research that bridges academia and real‑world applications.
Research Topics and Significance
Metal additive manufacturing (AM) techniques such as Directed Energy Deposition (DED), Cold Spray, and Laser Powder Bed Fusion (LPBF)
Laser material processing and micro/nano‑scale applications
Computational modeling and simulation for additive manufacturing
Application of AI/ML for process optimization and monitoring in AM
Microstructure characterization using advanced tools such as SEM, EBSD, and XRD
In‑situ monitoring of additive manufacturing processes
These positions are available for immediate start and will remain open until filled. The research group provides a dynamic and supportive environment, encouraging interdisciplinary collaboration and innovation.
Candidate Profile
Strong interest and motivation in laser material processing, metal additive manufacturing, or AI/ML applications in advanced manufacturing
Expertise in one or more of the following areas: Metal AM methods (e.g., DED, Cold Spray, LPBF); Laser material processing and micro/nano‑scale applications; Computational modeling and simulation for AM; Application of AI/ML for AM; Materials science and metallurgy; Microstructure characterization (SEM, EBSD, XRD); In‑situ process monitoring in AM
For Master’s and PhD applicants: minimum GPA of 3.3/4 and fulfillment of English proficiency requirements
For postdoctoral applicants: a proven track record of publications in metal additive manufacturing
Self‑driven, collaborative, and eager to contribute to high‑impact research projects
Application Process To apply, please prepare the following documents:
Cover letter detailing your research experience and interests
Curriculum Vitae (CV) including a list of publications
Contact information for at least two professional references
Please refer to the official advertisement for application details.
#J-18808-Ljbffr