Research
Bioprinter Development
Manufacturing, Bioprinting, Tissue Engineering
New Hydrogel Development
Robotics in Advanced Manufacturing
D Bioprinting
Bio Printing Strategy
Bio Ink
Additive Manufacturing Processes
Rheological Properties
Bio Manufacturing
Lattice Structure
Simulation Approach
D Culture
House Design
Mechanical Properties
Cell Viability
Hybrid Pre
Shear Stress
Bayesian Optimization
Experimental Investigations, Experimental Investigation
Fine Tuning
Genetic Algorithms
Machine Learning Method
Recent Trends
Shear Rate
Team Health
Factorial Design
Internal Architecture
Systemic Control
Comparative Studies, Comparative Study
Geometric Analysis
Plan Optimization
Process Planning
Value Stream Mapping
Cement Industry
Supply Chain
Analyzing Results
Competitive Advantage
Improving Productivity
List of Publications (73)
In 2024
73
Modulating rheological characteristics of bio-ink with component weight and shear rate for enhanced bioprinted scaffold fidelity. A Habib, R Sarah, S Tuladhar, B Khoda, SM Limon Bioprinting 38, e00332, 2024.
Found on Publication Page
72
Design and fabrication of in-house nozzle system to extrude multi-hydrogels for 3D bioprinting process. A Habib, C Quigley, R Sarah, W Hurd, S Clark Journal of Manufacturing Science and Engineering 146 (2), 2024.
Found on Publication Page
71
Integrating Pneumatic and Thermal Control in 3D Bioprinting for Improved Bio-Ink Handling. P Woods, C Smith, S Clark, A Habib Designs 8 (4), 83, 2024.
Found on Publication Page
70
Constraint based Bayesian optimization of bioink precursor: a machine learning framework. Y Xu, R Sarah, A Habib, Y Liu, B Khoda Biofabrication, 2024.
Found on Publication Page
69
Viscosity Inference of Hybrid Bioink Using Decision Tree-Based Machine Learning Method. S Limon, R Sarah, MA Habib International Manufacturing Science and Engineering Conference 88100 ..., 2024.
Found on Publication Page
68
Fine-Tuning Rheological Properties of 3D Bioprintable Hybrid Hydrogel by Controlling Component Solid Content. MA Habib, B Khoda, S Tuladhar, R Sarah International Manufacturing Science and Engineering Conference 88100 ..., 2024.
Found on Publication Page
67
Design and Fabrication of a Nozzle-Holding System for a Custom-Made 3D Bioprinter. C Smith, P Woods, S Clark, MA Habib International Manufacturing Science and Engineering Conference 88100 ..., 2024.
Found on Publication Page
66
Advancing scaffold porosity through a machine learning framework in extrusion based 3D bioprinting. SM Limon, C Quigley, R Sarah, A Habib Frontiers in Materials 10, 1337485, 2024.
Found on Publication Page
65
TeamWellX: Leveraging genetic algorithms to optimize team health and well-being toward sustainable game development and strategy. S Khodke, E Fox, N Anjum, D Katta, A Subburayan, SAL Ravichandran, ... SoftwareX 25, 101635, 2024.
Found on Publication Page
In 2023
64
Factorial design of experiment method to characterize bioprinting process parameters to obtain the targeted scaffold porosity. C Quigley, SM Limon, R Sarah, A Habib 3D Printing and Additive Manufacturing, 2023.
Found on Publication Page
62
Controlling Porosity of 3D Bioprinted Scaffold: A Process Parameter-Based Approach. C Quigley, S Clark, MA Habib Proceedings of the IISE Annual Conference & Expo 2023, 2023.
Found on Publication Page
61
Tuning Process Parameters for Multi-Material Extrusion Through In-house Nozzle System for 3D Bio-printing Process. C Quigley, W Hurd, S Clark, R Sarah, MA Habib Proceedings of the IISE Annual Conference & Expo 2023, 2023.
Found on Publication Page
60
Influence of Short Fiber Encapsulated in Hybrid Hydrogel For 3d Bioprinting Process: Aspect of Rheological Properties. S Tuladhar, S Clark, MA Habib Proceedings of the IISE Annual Conference & Expo 2023, 2023.
Found on Publication Page
59
A Simulation Approach to Determine Internal Architecture of 3D Bio-Printed Scaffold Suitable for A Perfusion Bioreactor. S Clark, C Quigley, J Mankowsky, MA Habib Proceedings of the IISE Annual Conference & Expo 2023, 2023.
Found on Publication Page
58
Tuning Shear Thinning Factors of 3D Bio-Printable Hydrogels Using Short Fiber. S Tuladhar, S Clark, A Habib Materials 16 (2), 572, 2023.
Found on Publication Page
57
Automatic metal wire bending (AMWB) apparatus to manufacture shape conforming lattice structure with continuum design for manufacturable topology. B Khoda, N Ahsan, M Habib, XIE Ruinan US Patent 11,752,534, 2023.
Found on Publication Page
56
Controlling Rheological Properties of Hybrid Hydrogel Using Short Fiber for Extrusion-Based 3D Bioprinting Process. S Tuladhar, S Clark, MDA Habib International Manufacturing Science and Engineering Conference 87233 ..., 2023.
Found on Publication Page
55
Systemic Control of 3D Bioprinting Process Parameters to Achieve Defined Scaffold Porosity. C Quigley, S Tuladhar, S Adhikari, MDA Habib International Manufacturing Science and Engineering Conference 87233 ..., 2023.
Found on Publication Page
54
Fluid Flow Analysis for Suitable 3D Bio-Printed Scaffold Architectures to Incubate in a Perfusion Bioreactor: A Simulation Approach. S Clark, C Quigley, J Mankowsky, MDA Habib International Manufacturing Science and Engineering Conference 87233 ..., 2023.
Found on Publication Page
53
Inhouse Multi-Material Nozzle System Design and Fabrication for 3D Bioprinting Process: Next Step. C Quigley, W Hurd, S Clark, R Sarah, MDA Habib International Manufacturing Science and Engineering Conference 87233 ..., 2023.
Found on Publication Page
52
An Investigation on 3D Bio-Printed Scaffold Shape Fidelity Incubated in a Custom-Made Perfusion Bioreactor. J Mankowsky, C Quigley, S Clark, MDA Habib International Manufacturing Science and Engineering Conference 87233 ..., 2023.
Found on Publication Page
51
Identifying Suitable Three-Dimensional Bio-Printed Scaffold Architectures to Incubate in a Perfusion Bioreactor: Simulation and Experimental Approaches. J Mankowsky, C Quigley, S Clark, A Habib Journal of Medical Devices 17 (2), 2023.
Found on Publication Page
50
Designing an Interchangeable Multi-Material Nozzle System for the Three-Dimensional Bioprinting Process. C Nelson, S Tuladhar, A Habib Journal of Medical Devices 17 (2), 020901, 2023.
Found on Publication Page
In 2022
49
Rheological analysis of bio-ink for 3D bio-printing processes. MA Habib, B Khoda Journal of manufacturing processes 76, 708-718, 2022.
Found on Publication Page
48
A roadmap to fabricate geometrically accurate three-dimensional scaffolds CO-printed by natural and synthetic polymers. C Quigley, S Tuladhar, A Habib Journal of Micro-and Nano-manufacturing 10 (2), 021001, 2022.
Found on Publication Page
47
Physical Modification of Hybrid Hydrogels to Fabricate Full-Scale Construct Using 3D Bio-Printing Process. C Nelson, S Tuladhar, MD Habib Journal of Micro and Nano-Manufacturing, 2022.
Found on Publication Page
46
Development of an In-House Customized Perfusion-Based Bioreactor for 3D Cell Culture. A Abbatiello, MA Habib International Manufacturing Science and Engineering Conference 85802 ..., 2022.
Found on Publication Page
45
A Bio-Printing Strategy to Fabricate Geometrically Accurate 3d Scaffolds. C Quigley, S Tuladhar, MA Habib ASME International Mechanical Engineering Congress and Exposition 86632 ..., 2022.
Found on Publication Page
44
Developing Hybrid Hydrogels for Full-Scale Scaffold Fabrication Using Extrusion-Based Bioprinting Process. C Nelson, S Tuladhar, MDA Habib International Manufacturing Science and Engineering Conference 85802 ..., 2022.
Found on Publication Page
43
3D Co-Printability of PCL and Hybrid Hydrogels. C Quigley, MA Habib International Manufacturing Science and Engineering Conference 85802 ..., 2022.
Found on Publication Page
42
Pre-Crosslinked Hybrid Hydrogels for 3D Bio-Printing Process: Rheological Analysis. S Tuladhar, C Nelson, MA Habib International Manufacturing Science and Engineering Conference 85802 ..., 2022.
Found on Publication Page
41
An Effort to Fabricate Clinically Relevant Scaffold Using 3D Bioprinting Processes. C Nelson, S Tuladhar, A Habib Proceedings for IISE Annual Conference & Expo 2022, 2022.
Found on Publication Page
40
Rheological Investigation of Pre-Crosslinked Hybrid Hydrogels for 3D Bio-printing Processes. S Tuladhar, C Nelson, A Habib Proceedings for IISE Annual Conference & Expo 2022, 2022.
Found on Publication Page
39
Physical Modification of Hybrid Hydrogels to Fabricate Full-Scale Construct Using Three-Dimensional Bio-Printing Process. C Nelson, S Tuladhar, A Habib Journal of Micro-and Nano-manufacturing 10 (1), 011005, 2022.
Found on Publication Page
38
In-house Design and Manufacture of Perfusion-based Bioreactor for 3D Culture. A Abbatiello, A Habib IIE Annual Conference. Proceedings, 1-6, 2022.
Found on Publication Page
37
Co-printing Natural and Synthetic Bio-polymers: Mechanical Properties and Shape Fidelity Aspects. C Quigley, A Habib IIE Annual Conference. Proceedings, 1-6, 2022.
Found on Publication Page
In 2021
36
Designing an interchangeable multi-material nozzle system for 3D bioprinting process. C Nelson, S Tuladhar, MA Habib International Manufacturing Science and Engineering Conference 85062 ..., 2021.
Found on Publication Page
35
3D bio-printability of hybrid pre-crosslinked hydrogels. C Nelson, S Tuladhar, L Launen, A Habib International Journal of Molecular Sciences 22 (24), 13481, 2021.
Found on Publication Page
34
Fiber-filled hybrid hydrogel for bio-manufacturing. A Habib, B Khoda Journal of Manufacturing Science and Engineering 143 (4), 041013, 2021.
Found on Publication Page
33
A Rheological Study of Bio-Ink: Shear Stress and Cell Viability. MA Habib, B Khoda International Manufacturing Science and Engineering Conference 85062 ..., 2021.
Found on Publication Page
32
Rheological Analysis of Low Viscosity Hydrogels for 3D Bio-Printing Processes. S Tuladhar, C Nelson, MA Habib International Manufacturing Science and Engineering Conference 85062 ..., 2021.
Found on Publication Page
31
Rheological Study of Highly Thixotropic Hydrogels for 3D Bio-Printing Processes. S Tuladhar, C Nelson, A Habib IIE Annual Conference. Proceedings, 316-321, 2021.
Found on Publication Page
30
Rheological Study of Low-Viscous Hydrogels for 3d Bio-Printing Processes. S Tuladhar, C Nelson, A Habib Proceedings of the 2021 IISE Annual Virtual Conference, 2021.
Found on Publication Page
29
Designing an Interchangeable Multi-Material Nozzle System for Multi-head 3D Bio-printer. C Nelson, S Tuladhar, A Habib IIE Annual Conference. Proceedings, 310-315, 2021.
Found on Publication Page
In 2020
28
Design and Manufacturing of Lattice Structure Using Extrusion-Based Additive Manufacturing. A Alam, A Shovon, N Ahsan, A Habib, B Khoda International Manufacturing Science and Engineering Conference 84263 ..., 2020.
Found on Publication Page
27
Designing Short-fiber Filled Hybrid Hydrogel for Bio-Manufacturing. A Habib, N Ahsan, K Bashir Proceedings of the 2020 IISE Annual Conference, 2020.
Found on Publication Page
In 2019
26
Effect of Process parameters on cellulose fiber alignment in bio-printing. MA Habib, B Khoda International Manufacturing Science and Engineering Conference 58745 ..., 2019.
Found on Publication Page
25
Development of clay based novel hybrid bio-ink for 3D bio-printing process. A Habib, B Khoda Journal of Manufacturing Processes 38, 76-87, 2019.
Found on Publication Page
24
Comparative Study on Long and Short Cellulose Fiber Filled Bioink. A Habib, RSR Kalidhindi, V Sathish, B Khoda IIE Annual Conference. Proceedings, 1329-1334, 2019.
Found on Publication Page
23
Designing Bio-Ink for Extrusion Based Bio-Printing Process. MA Habib North Dakota State University, 2019.
Found on Publication Page
In 2018
22
3D printability of alginate-carboxymethyl cellulose hydrogel. A Habib, V Sathish, S Mallik, B Khoda Materials 11 (3), 454, 2018.
Found on Publication Page
21
Development of clay based novel bio-ink for 3D bio-printing process. MA Habib, B Khoda Procedia Manufacturing 16, 846-856, 2018.
Found on Publication Page
20
Assessing printability of alginate-carboxymethyl cellulose hydrogels. MA Habib, B Khoda Proceedings of the IISE Annual Conference, 2018.
Found on Publication Page
In 2017
19
Attribute driven process architecture for additive manufacturing. MA Habib, B Khoda Robotics and Computer-Integrated Manufacturing 44, 253-265, 2017.
Found on Publication Page
18
Support grain architecture design for additive manufacturing. MA Habib, B Khoda Journal of Manufacturing Processes 29, 332-342, 2017.
Found on Publication Page
17
Hierarchical scanning data structure for additive manufacturing. MA Habib, B Khoda Procedia Manufacturing 10, 1043-1053, 2017.
Found on Publication Page
16
Grain-based support architecture design for additive manufacturing. MA Habib, B Khoda Procedia Manufacturing 10, 876-886, 2017.
Found on Publication Page
In 2016
15
Geometric analysis for concurrent process optimization of AM. N Ahsan, A Habib, B Khoda Procedia Manufacturing 5, 974-988, 2016.
Found on Publication Page
14
A generative design and manufacturing of customized Helmet. A Habib, B Khoda Proceedings of the North Dakota Academy of Science 70, 61-62, 2016.
Found on Publication Page
13
Process Plan Optimization for Minimum Build Time. BK Md Ahasan Habib, AMM Nazmul Ahsan ISERC, Anahem, CA., 2016.
Found on Publication Page
In 2015
12
Resource based process planning for additive manufacturing. AMMN Ahsan, MA Habib, B Khoda Computer-Aided Design 69, 112-125, 2015.
Found on Publication Page
11
Optimizing material deposition direction for functional internal architecture in additive manufacturing processes. A Habib, N Ahsan, B Khoda Procedia Manufacturing 1, 378-392, 2015.
Found on Publication Page
In 2014
10
Resource based build direction in additive manufacturing processes. N Ahsan, A Habib, B Khoda SFF , Austin, TX, 2014.
Found on Publication Page
In 2013
9
Minimization of waste by applying value stream mapping in the supply chain of cement industry. AM Saifuddoha, MA Habib, SY Sumi, M Jennurine, MS Islam IOSR Journal of Business and Management 9 (3), 79-84, 2013.
Found on Publication Page
8
Achieving competitive advantage through practicing TQM tools in pharmaceuticals company. NUI Hossain, F Nur, MA Habib Journal of Mechanical Engineering 43 (2), 103-109, 2013.
Found on Publication Page
7
Improving productivity of apparel manufacturing system using value stream mapping and production control tools focusing on printing section. MA Habib, AMMN Ahsan, MB Amin Screening 130, 13, 2013.
Found on Publication Page
6
Design and Implementation of a Remote Controlled Robotic Arm Based on Industrial Application Perspective. AMMN Ahsan, MA Habib ICMIME, RUET, Rajshahi, Bangladesh, 2013.
Found on Publication Page
5
Application of Value Stream Mapping in Cement Industry's Supply Chain and Analyzing Results by Fuzzy Inference System. AM Saifuddoha, MA Habib, SY Sumi ICMIME, RUET, Rajshahi, Bangladesh., 2013.
Found on Publication Page
In 2009
4
Evaluation of Process Capability using Fuzzy Inference System. Z Farhana, MA Habib, HB Mohsin, SM Ali, SK Paul ICME, BUET, Dhaka, Bangladesh, 2009.
Found on Publication Page
Unspecified
3
Decision-Tree and Clustering-Based Integrated Machine Learning Approach for Defined 3d Bioprinted Construct Architecture with Biocompatibility. R Sarah, SM Limon, MD Habib Decision-Tree and Clustering-Based Integrated Machine Learning Approach for ..., 0.
Found on Publication Page
2
Recent Trends and Issues of Sustainability in Battery Manufacturing Industries of Bangladesh. K Arif-Uz-Zaman, MA Habib, S Talapatra, M Lutfi, ME Kabir .
Found on Publication Page
1
Optimization of Turning Parameters for Cutting Force and Chip Thickness Ratio in Dry Turning Process: An Experimental Investigation. S Mahmud, KM Islam, MA Habib, MS Hossain, MM Hossain .
Found on Publication Page
