Dr Muhammad Sana Ullah Sahar
Assistant Professor
Ø PhD in
Engineering (Mechanical) | Griffith University, Australia (2017 – 2020). Specialization: Medical device
fabrication, Engineering automation (IOTs), Bioengineering. Ø M.S. in
Mechanical Engineering | Yeungnam University, South Korea (2013 – 2015) Specialization: Additive manufacturing,
Micro-nano fabrication, Non-traditional machining Ø B.Sc. Mechanical
Engineering | Bahauddin Zakariya University, Pakistan (2006 – 2011) Specialization: Engineering Automation. Funding/Research
Grants Type
of Funding: Research Grant Granting
Body: Australian Orthopaedic
Association Amount/Worth: 10K Australian dollars Project
Title: Negative Pressure
Neurogenesis (2018-2019) Type
of Funding: Research Grant Granting
Body: Queensland Hand Surgery Society Amount/Worth: 7K Australian dollars Project
Title: Stimulate & facilitate
nerve axonal growth and regeneration after complete transection injury
(2017-2018) Type
of Funding: Postgraduate Research
Scholarship Granting
Body: Griffith University Amount/Worth: Tutition Fee Waiver of worth 33K Australian
dollars per year Project
Title: Development of a nerve
stretching device to facilitate peripheral nerve repair (Feb 2017 – Feb 2020) Type
of Funding: Postgraduate Research
Scholarship Granting
Body: Griffith University Amount/Worth: Living Allowance 25K Australian dollars per
year Year
of Award: Feb 2017 – Feb 2020 Type
of Funding: Scholarship Granting
Body: Yeungnam University Amount/Worth: Tuition Fee Waiver 15K US dollars per year. Year
of Award: Feb 2013 – Feb 2015 Type
of Funding: Scholarship Granting
Body: Precision Machining Lab, Yeungnam
University. Amount/Worth: Living Allowance 8K US dollars per year. Year
of Award: Feb 2013 – Aug 2016 Type
of Funding: Research Assistantship
Scholarship Granting
Body: Griffith University Amount/Worth: Research allowance US $ 2K Year
of Award: Feb 2014 Type
of Funding: Merit Scholarship Granting
Body: Bahauddin Zakariya University Amount/Worth: PKR 20K Year
of Award: 2008
1.
M. Sana Ullah Sahar, M. Barton, G.D. Tansley, A Systematic Review of the Effectiveness
of Cell-Based Therapy in Repairing Peripheral Nerve Gap Defects. Prosthesis
2020, 2, 153-167. 2.
M. Sana Ullah Sahar, M. Barton, G.D. Tansley, Design and fabrication of a
nerve-stretching device for in vivo mechanotransduction of peripheral nerve
fibers, HardwareX, Volume 7, 2020, ISSN 2468-0672. 3.
M. Sana Ullah Sahar, M. Barton, G.D. Tansley, Bridging larger gaps in
peripheral nerves using neural prosthetics and physical therapeutic agents,
Neural Regen. Res. 14 (2019) 1109. doi:10.4103/1673-5374.251186. 4.
M. Sana Ullah Sahar, T. Mettyas, M. Barton, Development of a nerve stretcher
for in vivo stretching of nerve fibres., Biomed. Phys. Eng. Express. (2019).
doi:10.1088/2057-1976/ab2ca7. 5.
M. Imran, T. Khatoon, M. Sana Ullah Sahar, T.J. Ko, Development of Empirical
Model for Biomachining to Improve Machinability and Surface Roughness of
Polycrystalline Copper, Int. J. Precis. Eng. Manuf. Technol. 5 (2018) 201–209. 6.
M. Imran, A.S. Saragih, M. Sana Ullah Sahar, T.J. Ko, Digital maskless
lithography capabilities for surface texturing with biomachining, Int. J. Adv.
Manuf. Technol. 89, (2017). doi:10.1007/s00170-016-9317-6. 7.
M. Sana Ullah Sahar, M. Imran, T.J. Ko, Optimal strategy to deal with
decision-making problems in machine tools remanufacturing, Int. J. Precis. Eng.
Manuf. Technol. 3 (2016) 19–26. 8.
J.Y. Jeong, Y. Zhen, M. Sana Ullah Sahar, T.J. Ko, Slope Change of Surface
Texturing Pattern Using Grinding, J. Korean Soc. Manuf. Process Eng. 15 (2016)15. 9.
M. Imran, M. Sana Ullah Sahar, T.J. Ko, Selection of optimum process parameters
of biomachining for maximum metal removal rate, Int. J. Precis. Eng. Manuf.
Technol. 2 (2015) 307–313. 10. M.
Sana Ullah Sahar, K. Yein, T.J. Ko, 3D Simulation of Regular Surface Texturing on Free Form Surfaces by Using Patterned
Grinding Process, 3rd Annu. Int. Conf. Mater. Sci. Met. Manuf. (M3 2016 ),
2016. 11.
J.Y. Jeong, Y. Zhen, M. Sana Ullah Sahar, Y. Kwak, T.J. Ko, J.K. Park, A study on
changes of pattern slope in surface texturing by using grinding, Proc. Korean Soc.
Manuf. Technol. Eng. (2016) 207. 12.
M. Sana Ullah Sahar, K.M. Park, T.J. Ko, Study the Influence of Dressing ToolTip
in Determining the Geometry of Surface Textures during 3D Simulation,Proc.
Korean Soc. Precis. Eng. 2016, 2016: pp. 12–13. 13.
M. Sana Ullah Sahar, K.M. Park, T.J. Ko, Study the effect of cutting speed and
feed rate in determining the geometry of surface textures during 3D simulation,
Proc. Korean Soc. Mech. Eng. 2016. (2016) 129–130. 14.
M. Sana Ullah Sahar, T.J. Ko, K. Park, Effect of Machining Parameters on
Texturing Pattern during Simulation of Patterned Grinding on Non-Planar
Surface, Proc. Korean Soc. Precis. Eng., 2015: pp. 5–6. 15.
J.Y. Jeong, Y. Zhen, M. Sana Ullah Sahar, T.J. Ko, J.K. Park, Surface texturing
technology on free form surfaces using grinding, Korean Soc. Manuf. Technol.
Eng. (2015) 151. 16.
M. Sana Ullah Sahar, S.J. Won, T.J. Ko, A Strategy to Deal with Decision-making
Problem during Machine Tools Remanufacturing, Proc. Korean Soc. Precis. Eng.
2015, 2015: pp. 273–274. 17.
J.Y. Jeong, Y. Zhen, M. Sana Ullah Sahar, T.J. Ko, J.K. Park, Changes of
patterns corresponding to surface shapes in surface texturing using grinding,
Proc. Korean Soc. Manuf. Technol. Eng., 2015: p. 164. 18.
J.Y. Jeong, Y. Zhen, M. Sana Ullah Sahar, T.J. Ko, J.K. Park, Study of the
pattern generation on curved surfaces using grinding, Proc. Korean Soc. Manuf.
Technol. Eng., 2015: p. 247. 19.
M. Sana Ullah Sahar, K.M. Park, T.J. Ko, Development of A 3D Simulation
Technology for Surface Texturing by Using Patterned Grinding Wheel on Freeform
Surfaces, Proc. Korean Soc. Mech. Eng., 2015: pp. 4174–4175. 20.
M. Sana Ullah Sahar, T.J. Ko, A Method to Select Optimal Solution for Machine
Tools Remanufacturing Multi-Solution Decision Problem, 3rd Annu. Int. Conf.
Ind. Syst. Des. Eng., 2015: p. 49. 21.
M. Sana Ullah Sahar, T.J. Ko, Optimum Process Planning for Remanufacturing of
Machine Tools by Using Fuzzy Linear Regression Model, Proc. Korean Soc. Precis.
Eng., 2014: p. 140. 22.M.
Sana Ullah Sahar, T.J. Ko, Re-manufacturing Of Machine Tools by Removing Design
Constraints Using Reverse Engineering Techniques, Proc. Korean Soc. Manuf.
Technol. Eng. 2014, 2014: pp. 93–94. 23.
M. Sana Ullah Sahar, T.J. Ko, Study of the accuracy of a modelled surface from
point cloud data, Proc. Korean Soc. Manuf. Process Eng. 2014, 2014: p. 36.
Ø
Modelling,
fabrication, and optimization of Medical implants/devices/scaffolds. Ø
Reverse
engineering, Prototyping, Additive manufacturing, Engineering automation.