MD Ahasan Habib
Assistant Professor
MD Ahasan Habib
Assistant Professor
Bio
Dr. Habib achieved his Bachelor's, Master's, and Doctoral degrees in the field of Industrial and Manufacturing Engineering. His research revolves around digital intelligent manufacturing, particularly focusing on Additive Manufacturing (AM). He has put forth numerous methods to enhance the efficiency of resource usage within the AM technique using his industrial and manufacturing background. His primary interest lies in the application of this manufacturing approach to bio-manufacturing. To achieve the advanced manufacturing systems capable of producing large-scale functional tissue scaffolds, he is investigating suitable biomaterials and related process parameters to ensure seamless coordination between interconnected manufacturing steps using mechatronics, robotics, and automation. Additionally, he is actively incorporating machine learning principles to identify optimal digital manufacturing parameters and materials.
Education
- Ph.D. in Industrial and Manufacturing Engineering (IME), North Dakota State University, USA.
- B.Sc. and M.Sc. in Industrial and Production Engineering (IPE), Bangladesh University of Engineering and Technology (BUET).
Select Scholarship
US Patent
- Khoda, Bashir, Nazmul Ahsan, Md Habib, and X. I. E. Ruinan. "Automatic metal wire bending (AMWB) apparatus to manufacture shape conforming lattice structure with continuum design for manufacturable topology." U.S. Patent 11,752,534, issued September 12, 2023.
Journal Articles
- Habib, M. D., Sarah, R., Tuladhar, S., Khoda, B., & Limon, S. M., 2024. Modulating Rheological Characteristics of Bio-Ink with Component Weight and Shear Rate for Enhanced Bioprinted Scaffold Fidelity. Bioprinting, 38, e00332. https://doi.org/10.1016/j.bprint.2024.e00332
- Limon, S. M., Quigley, C., Sarah, R., & Habib, M. D., 2024. Advancing Scaffold Porosity through A Machine Learning Framework in Extrusion Based 3D Bioprinting. Frontiers in Materials, 10, 1337485. https://doi.org/10.3389/fmats.2023.1337485
- Quigley, C., Limon, S., Sarah, R., & Habib, M. A. 2023. Factorial Design of Experiment Method to Characterize Bioprinting Process Parameters to Obtain the Targeted Scaffold Porosity. Journal of 3D Printing and Additive Manufacturing.
- Quigley, C., Sarah, R., Hurd, W., Clark, S., & Habib, M. A. 2023. Design and Fabrication of In-house Nozzle System to Extrude Multi-Hydrogels for 3D Bioprinting Process. Journal of Manufacturing Science and Engineering.
- Mankowsky,J., Quigley, C., Clark, S., & Habib, M. A. 2023. Identifying Suitable 3D Bio-Printed Scaffold Architectures to Incubate in a Perfusion Bioreactor: Simulation and Experimental Approaches. Journal of Medical Devices.
- Tuladhar, S.; Clark, S.; Habib, A. 2023, Tuning Shear Thinning Factors of 3D Bio-Printable Hydrogels Using Short Fiber. Materials, 16, 572. https://doi.org/10.3390/ma16020572
- Nelson, C., Tuladhar, S., & Habib, M.A., 2022. Physical Modification of Hybrid Hydrogels to Fabricate Full-Scale Construct Using 3D Bio-Printing Process, Journal of Micro and Nano-Manufacturing.
- Quigley, C., Tuladhar, S., & Habib, M.A., 2022. A Roadmap to Fabricate Geometrically Accurate Three-Dimensional Scaffolds Co-Printed by Natural and Synthetic Polymers. Journal of Micro and Nano-Manufacturing.
- Nelson, C., Tuladhar, S., & Habib, M. A. 2022. Designing an Interchangeable Multi-Material Nozzle System for the 3D Bioprinting Process. Journal of Medical Devices.
- Habib, M. A., & Khoda, B., 2022, Rheological analysis of bio-ink for 3D bio-printing processes. Journal of Manufacturing Processes, 76, 708-718.
- Nelson, C., Tuladhar, S., Launen, L. and Habib, A.*, 2021. 3D Bio-Printability of Hybrid Pre-Crosslinked Hydrogels. International Journal of Molecular Sciences, 22(24), p.13481.
- Habib, A. and Khoda, B., 2021. Fiber Filled Hybrid Hydrogel for Bio-Manufacturing. Journal of Manufacturing Science and Engineering, 143.4 (2021): 041013.
- Habib, A. and Khoda, B., 2019. Development of clay based novel hybrid bio-ink for 3D bio-printing process. Journal of Manufacturing Processes, 38, pp.76-87.
- Habib, A., Sathish, V., Mallik, S. and Khoda, B., 2018. 3D printability of alginate-carboxymethyl cellulose hydrogel. Materials, 11(3), p.454.
- Habib, A. and Khoda, B., 2017. Support grain architecture design for additive manufacturing. Journal of Manufacturing Processes, 29, pp.332-342.
- Habib, A. and Khoda, B., 2017. Attribute driven process architecture for additive manufacturing. Robotics and Computer-Integrated Manufacturing, 44, pp.253-265.
- Ahsan, A.N., Habib, A. and Khoda, B., 2015. Resource based process planning for additive manufacturing. Computer-Aided Design, 69, pp.112-125.
- Hossain, N.U.I., Nur, F. and Habib, A., 2013. Achieving competitive advantage through practicing TQM tools in Pharmaceuticals Company. Journal of Mechanical Engineering, 43(2), pp.103-109.
Awards
- Habib, A. and Khoda, B., 2018. Assessing printability of alginate-carboxymethyl cellulose hydrogels. ISERC-IISE; Orlando Florida. (Best paper in M & D track).
- Quigley, C., Habib, A., Co-printing Natural and Synthetic Biopolymers: Mechanical Properties and Shape Fidelity Aspects. Proceedings of the IISE Annual Conference, Seattle, Washington, 2022. (Finalist for the best Manufacturing and Design track paper)
- Habib, A., and Khoda, Bashir. “Bio-printing large scale 3D scaffold for bio-medical application”, IEEE Red River valley Conference, 2018. (3rd prize for outstanding presentation)
- Habib, A., and Khoda, Bashir. “Machine independent part standardization for AM systems with reverse pyramidal data architecture”, IEEE Red River Valley Conference, 2017. (3rd prize for outstanding presentation).
** A total of 35 conference articles were accepted, presented, and published in different national conferences such as IISE, NAMRC, MSEC, and IMECE from 2014 to till now. Please visit my Google Scholar account to access those papers.