+966555864528
mjamil@pmu.edu.sa
MEEN, S024
Dr MUHAMMAD JAMIL is an Associate Professor at the Department of Mechanical Engineering. He is a Mechanical Engineer with specialization in Mechanical Manufacturing and Automation Engineering. He earned his PhD in HighSpeed Machining of Aerospace Materials from Nanjing University of Aeronautics and Astronautics (NUAA), China , focusing on the Precision Machining of Ti6al4V alloy for aerospace applications in collaboration with Chendu corporation China. During the Postdoctoral Research, Dr JAMIL pioneered the development of hybrid lubri-coolant for cryogenic cooling and sustainable vegetable oil for aerospace component machining applications. Dr. JAMIL was awarded the prestigious NAWA POLAND Experienced Research Fellowship at the Opole University of Technology, Poland in the field of Measurements and Metrology for Additive Manufacturing (AM) of superalloys and advanced materials. His work was related to experimental validation and qualification of superalloys and advanced materials to develop a DEFORM model, in collaboration with KEREN company. Dr JAMIL has extensive experience in research and development in cooling system, cryogenic cooling, machining, and manufacturing engineering. His research focuses on cooling/lubrication applications and process optimization for machining processes, Machine Learning (ML) and AI in AM, sustainable machining of aerospace materials, optimizing of conventional manufacturing processes, and post-processing of AM Ti6Al4V.
Dr JAMIL has supervised 5 MS students as the primary supervisor and co-supervisor. He has published over 100 impact factor journal publications and 15+ peer reviewed conference publications. His SCOPUS h index is 48 with more than 7948 citations and Google scholar h index of 78 with more than 9800 citations.
Dr. JAMIL is a Registered Engineer with Pakistan Engineering Council. He is listed in Top 2% World Scientists by Stanford University between 2021-2025. He is a member of the American Society for Testing and Materials (ASTM) committee F42 on the development of standards for Additive Manufacturing (AM) processes. Over the years, Dr. JAMIL has held several administrative positions, including the undergraduate program coordinator, team member of the curriculum development committee.
He has collaborated with researchers from Imperial College London (IPL), Ontario Tech Institute of Technology, Canada, Opole University of Technology, Poland, United Arab Emirates University (UAEU), Sinop University Turkey, Shandong University, China, University of Brunei Darussalam, University of Bahrain. He is an Associate Editor of a Journal, Editorial board member of the Journals, and Guest Editor of several special issues. He is reviewer of many prestigious journals, such as Journal of Manufacturing Processes, International Journal of Advanced Manufacturing Technology, Machining Science and Technology, Sustainable Material and Technologies, Materials, Metals, Sustainability MDPI Journals.
AWARDS
Dr. JAMIL has won one NSFC Research Fund for International Scientists (RFIS-1), as PI, and participated in a number of national, provincial and ministerial research projects, including the National Natural Science Foundation of China. Dr. JAMIL was awarded the prestigious NAWA Research Award, NSFC Research Fund for International Scientists (RFIS-1), provincial and ministerial research projects as PI. Dr JAMIL has received multiple awards, including the Best Researcher award, Excellent foreigner student award, Best Thesis Award, Jiangsu Excellent Postdoctoral Researcher award, highly cited research paper award, NAWA research award, and MDPI student award and won PhD fully funded CSC scholarship.
Student Supervision
05 PhD MS students supervised.
Post-doctorate: Development of hybrid dryice blasting system to improve the machining of aerospace alloys) (Mechanical Engineering-Nanjing University of Aeronautics and Astronautics, Nanjing China)
PhD: Fundamental Research on hybrid lubri-cooling for improving machiningability of Ti6Al4V (Mechanical Engineering-Nanjing University of Aeronautics and Astronautics, Nanjing China)
MS: Industrial Engineering – specialization in Manufacturing Engineering (UET TAXILA, Pakistan)
BSc: Industrial Engineering – specialization in Manufacturing Engineering (UET Taxila, Pakistan)
1. Development of surface textured designs on PCD tools and their performance evaluation in precision hard turning of bearing rings under cryogenic cooling. 2026
2. Sustainability-oriented machining of additively manufactured SS316L: Impact of laser powder bed fusing process parameters under MQL milling. 2026
3. A state-of-the-art review on decarbonizing aerospace manufacturing with life cycle sustainability assessment. 2026
4. Precision fabrication of high aspect ratio microgroove on 2343 mold steel by laser-induced oxidation assisted micro milling. 2026
5. An economical model for predicting machine tool energy consumption using machine learning. 2026
6. A comparative study on microstructural, mechanical and cryogenic machinability of Ti6Al4V fabricated via SLM and EBM additive manufacturing technologies. 2026
7. Sustainability assessment for machining processes based on progressive analysis of critical sources. 2026
8. The defect-postprocessing-lifecycle nexus: a critical review of interdependencies in metal additive-subtractive manufacturing. 2026
9. The Recent Advancements in Minimum Quantity Lubrication (MQL) and Its Application in Mechanical Machining—A State-of-the-Art Review. 2026.
Member American Society for Testing and Materials (ASTM) Membership: committee F42 on “Additive Manufacturing Technologies”
Volunteer member of Institute of industrial engineers Uettaxila Chapter.
Pakistan Engineering Council (PEC), Registered Engineer Pakistan Engineering Council (PEC).
Program Evaluator OBE Accreditation Washington Accord.
Research:
Dr JAMIL has extensive experience in research and development in machining, materials, cooling/lubrications, and manufacturing engineering. His research focuses on:
· Sustainability in AM
· AI and ML in AM
· Material qualification
· Optimization for AM
· Laser Direct Energy Deposition (LDED) of various coatings
· Laser welding of dissimilar materials
· Laser micromachining of super alloys
· sustainable materials and manufacturing
· optimizing conventional manufacturing processes for advanced materials and superalloys
· developing functionally graded materials through AM and
· simulation of manufacturing processes.
Associate Professor, [Faculty of Mechanical Engineering], Prince Mohammed Bin Fahd University, Saudi Arabia – (04/2026 – date)
Ø Research Areas: Additive Manufacturing.
Ø Undergraduate/Graduate Courses: (1) Advanced Manufacturing, (2) Mechanics and Dynamics;
Ø Lab Courses: (1) Advanced Manufacturing Processes
Ø Administration: Faculty level Labs-Coordinator; Member (Faculty Research Committee);
Associate Professor, [Faculty of Mechanical Manufacturing and Automation], Nanjing University of Aeronautics and Astronautics (NUAA), China – (07/2023 – date)
Ø Research Areas: Sustainable Machining Processes; Hybrid Lubro-Cooling in Machining; High-speed machining; Subtractive-Additive Hybrid Manufacturing.
Ø Graduate Courses: (1) Curriculum developed and instructed Metal Cutting Principles (MCP); (2) Curriculum developed and instructed Research Methodology and Design of Experiments (RM&DOE); (3) Contemporary Engineering Economics.
Ø Undergraduate Courses: (1) Curriculum developed for Green Manufacturing (2) Curriculum developed and instructed Advanced Manufacturing Processes; (3) Curriculum developed for ‘Intelligent Manufacturing; (4) Power Plants.
Ø Lab Courses: (1) Industrial Simulation; (2) Advanced Manufacturing Processes
Ø Administration: Faculty level Labs-Coordinator; Member (Faculty Research Committee);
NAWA International Researcher, [Department of Mechanical Engineering], Opole University of Technology, Poland – (10/2024 – date)
Ø Project: Modelling Metrology characteristics of post-machined multi-material additive manufacturing (MMAM) under novel hybrid MQL-dry ice blasting.
Ø Responsibilities: Lead and participate in joint research activities regarding sustainable machining; Draft proposals for research funding from NAWA.
Postdoctoral Fellow, [Faculty of Aerospace Manufacturing], Nanjing University of Aeronautics and Astronautics (NUAA), China – (07/2021 – 06/2023)
Ø Research Areas (Development of hybrid dry ice blasting system; Sustainable Manufacturing Processes)
Ø Other responsibilities: (1) Co-supervisor of two MSc students in research
Ø Supervisor: Prof Huang Xiang
Senior Lecturer, [Faculty of Mechanical Engineering], Swedish College of Engineering and Technology (SCET), WahCantt, Pakistan – (08/2016 – 09/2017)
Ø Research Areas (Machining Processes; Sustainability in Manufacturing;)
Ø Undergraduate Courses: Instructing (1) Advanced Manufacturing Processes; (2) Power Plants.
Ø Member (Board of Undergraduate Studies – Mechanical Engineering)
Ø Coordinator: Final year projects (undergrad)
Teacher Assistant, [Faculty of Mechanical Manufacturing and Automation], Nanjing University of Aeronautics and Astronautics (NUAA), China – (02/2023 – 06/2023).
Ø MS Theses Co-supervised: (1) Helped two MSc students in their research thesis
Ø Teacher assistant: I worked as teacher assistant for ‘Contemporary Engineering Economics’ Course.
Lab Assistant, [Department of Industrial Engineering], University of Engineering & Technology (UET), Taxila, Pakistan. (08/ 2014 – 06/2016)
Ø Conducted Labs Courses: (a) ARENA Simulations, and (b) Design of Experiments
Ø Teacher assistant.
Additive Manufacturing (AM),
Manufacturing Processes
Metal Cutting Principles
Green Manufacturing
Solid Mechanics
Engineering Economics
Intelligent Manufacturing
Engineering Materials,
Dr. JAMIL is mainly engaged in the research of additive manufacturing of superalloys, microstructure analysis, material characterisations, Inconel alloys, composite alloys, high strength steel alloys, high-speed machining of Ti-alloys, additive manufacturing of superalloys, microstructure analysis, material characterisations, Inconel alloys, composite alloys, high strength steel alloys, development of new cooling/lubrication technologies to improve the machinability of difficult-to-cut materials, sustainable manufacturing, Sustainability evaluation, Simulation of cutting process, etc.
