Dr. Ankit Gupta

Ankit Gupta
College of Engineering, Computer Science, and Technology
Department of Engineering and Technology
Office ETA 328


Ankit Gupta is an Assistant Professor in Engineering and Technology Department at California State University Los Angeles with expertise in advanced manufacturing processes and advanced materials. During the course of his studies, he has gained solid and hands-on experiences in continuous and short fiber composite 3D Printing and low-cost metallic printing, their fabrication, characterization, computational modeling, and analysis. He is a member and active participant of the Society of Manufacturing Engineers (SME-S215) student chapter for 3 years.


  1. Conventional and Advanced Manufacturing Processes
  2. Material Science 
  3. Mechanics of Materials
  4. Computer-Aided Drafting/Design (AutoCAD and SolidWorks)
  5. Product Design and Development 
  6. Additive Manufacturing/3D printing
  7. Lean Manufacturing 


1. Additive manufacturing technologies, high-temperature polymer synthesis and characterization, materials fabrication and processing (metals, polymers, and ceramics)

2. Mechanical and thermal property testing of advanced materials like composites

3. Solid and computational modeling of additively manufactured polymer and metal-based composite parts


Book Chapters

2021: A. Gupta, S. Hasanov, F. Alifui-Segbaya, I. Fidan, “Fiber-reinforced additive manufactured polymer composites,” Springer Handbook of Additive Manufacturing

2021: S. Hasanov, A. Gupta, F. Alifui-Segbaya, I. Fidan, “Environmental health and safety in Additive Manufacturing,” Springer Handbook of Additive Manufacturing

Journals and Conferences

2022: A. Gupta, S.Hasanov, I. Fidan., “Thermal characterization of short carbon fiber reinforced high-temperature polymer material produced using the fused filament fabrication process”, Published in Journal - Journal of Manufacturing Processes 

2022: A. Gupta, S.Hasanov, I. Fidan., Z. Zhang, “Homogenized modeling approach for effective property prediction of 3D‑printed short fibers reinforced polymer matrix composite material”, Published in Journal -   Int. J. Adv. Manuf. Technol. 

2021: S.Hasanov, A. Gupta, F. Alifui-Segbaya, I. Fidan.,  “Hierarchical homogenization and experimental evaluation of functionally graded materials manufactured by the fused filament fabrication process”, Published in Journal - Composite Structures

2021: I. Fidan, G. Chitiyo, P. Fidan, A. Gupta, S. Hasanov, Z. Zhang, “Innovative Delivery of 3D Printing,” ASEE 2021Published in 2021 ASEE Virtual Annual Conference Content Access

2021: I. Hussain, M. Hussain, A. Gupta., “Experimental investigation and comparative study of sintering of microcrystalline nickel using microwave and conventional method”, Published in the journal -   Arabian Journal for Science and Engineering 

2021: M. Mohammadizadeh, A. Gupta, I. Fidan., Mechanical benchmarking of additively manufactured continuous and short carbon fiber reinforced nylon”, Published in Journal - Journal of Composite materials 

2020: A. Nasirov, A. Gupta, S.Hasanov, I. Fidan., “Three-scale asymptotic homogenization of short fiber reinforced additively manufactured polymer composites”, Published in Journal -   Composites part B 

2020: M. Mohammadizadeh, H. Lu, I. Fidan, K. Tantawi, A. Gupta, S. Hasanov, Z. Zhang, F. Alifui-Segbaya, A. Rennie, Mechanical and Thermal Analyses of Metal-PLA Components Fabricated by Metal Material Extrusion”, Published in Journal – Inventions 

2020: S.Hasanov, A. Gupta, A. Nasirov, I. Fidan.,  Mechanical characterization of functionally graded materials produced by the fused filament fabrication process”, Published in Journal - Journal of Manufacturing Processes

2020:  A. Gupta, I.Fidan, S.Hasanov, A. Nasirov., “Processing, mechanical characterization, and micrography of 3D printed short carbon fibers reinforced polycarbonate polymer matrix composite material”, Published in Journal -   Int. J. Adv. Manuf. Technol.

2019: A. Gupta, S.Hasanov, I.Fidan., “Processing and characterization of 3D printed polymer matrix composite reinforced with discontinuous fibers”, Published -   Proceedings of Solid Freeform Fabrication Symposium

2019: M. Hussain, A. Gupta., “Experimental analysis of forming titanium alloy sheet through continuous wave fiber laser”, Under Review in the journal -   Laser and Optics Technology 

2019: I.Fidan, A. Imeri, A. Gupta, S.Hasanov, A.Nasirov, A.Elliott, F.Alifui-Segbaya, N.Nanami., “The trends and challenges of fiber reinforced additive manufacturing”, Published in the journal: Int. J. Adv. Manuf. Tech. 

2019: S.Misra, M. Hussain, A. Gupta, V. Kumar, S. Kumar, A. K Das., “Fabrication and characteristic evaluation of direct metal laser sintered SiC particulate reinforced Ti6Al4V metal matrix composites”, Published in the journal: Journal of Laser Applications

2018: A. Gupta, M. Hussain, S. Misra, A.K. Das, A. Mandal., “Processing and Characterization of laser-sintered hybrid boron carbide (B4C)/cubic boron nitride (CBN) reinforced Ti-based metal matrix composite”, Published in the journal: Optics and Laser in Engineering



Ph.D. Mechanical Engineering

  • Tennessee Technological University, Cookeville

M.S. Mechanical Engineering

  • Indian Institute of Technology (Indian School of Mines) Dhanbad, India

B.S. Mechanical Engineering

  • University Institute of Engineering and Technology, Kurukshetra University, India