I am an Associate Professor in Mechanical Engineering at UniSA STEM in University of South Australia. Right after completing my PhD at University of Kyoto, I worked as a Postdoctoral Research Fellow in University of California Davis (UCDavis) and University of New South Wales (UNSW).
My current research focuses on innovative surface engineering, bio-manufacturing, design and processing of advanced materials, medical implants, smart biomedical sensors and surgical technology.
Due to growing aging population and undesired medical complications, health care cost and burden across the world is mounting. Therefore, development of emerging technologies is inevitable. Equipped with advanced research facilities and capacity, my lab collaborates... Read more
About me
I am an Associate Professor in Mechanical Engineering at UniSA STEM in University of South Australia. Right after completing my PhD at University of Kyoto, I worked as a Postdoctoral Research Fellow in University of California Davis (UCDavis) and University of New South Wales (UNSW).
My current research focuses on innovative surface engineering, bio-manufacturing, design and processing of advanced materials, medical implants, smart biomedical sensors and surgical technology.
Due to growing aging population and undesired medical complications, health care cost and burden across the world is mounting. Therefore, development of emerging technologies is inevitable. Equipped with advanced research facilities and capacity, my lab collaborates with world leading researchers and takes fundamental interdisciplinary engineering and scientific approach to underpin the burning issues with an aim of developing innovative solutions.
My research activities are highly supported by intramural and external competitive research grants from industry, state, federal, CRC, ARC and OLT funding bodies. To date, I have secured a total research grant of A$2.2m, thanks to those generous agencies. Currently I lead a research team consisting of 2 PhD, 1 Master and 6 undegraduate project students.
My research complements and supports UniSA's key theme “Transforming Industries” thus contributing to sheer economical and societal development within Australia and the world. A recent highlight of my research work is development of an innovative surfacing approach to biodegradable Mg implants and smart sensor for healthcare industry.
To date, I published more than 50 articles in high quality and leading journals and conferences. Among are 38 journals, 11 conferences, 1 book chapter, 1 edited book. Details of my public research profiles can be accessed via ResearchGate, ResearchID, ORCID, Scopus and Google Scholar.
As of now, my h-index is 17 (Google Scholar) and 15 (Scopus), with a total citation of 1229 (Google Scholar) indicating international recognition of my research quality, leadership and scientific contribution in the areas.
My current research projects are:
I look for highly motivated and energetic undergraduate and postgraduate students who like to join my team and conduct research projects in the above topics. If interested, please contact me with your CV via E-mail.
About me
About me
Date | Title |
---|---|
09/12/2021 |
My interview on ABC Radio, talking about my recent IMCRC project on energy absorbing traffic lights (EATL), https://youtu.be/0OXqvePviN4 |
About me
Doctor of Philosophy Kyoto University
Master of Engineering National University of Singapore
Bachelor of Engineering Bangladesh University of Engineering
Research
Excludes commercial-in-confidence projects.
IMCRC: Energy absorbing traffic lights (EATL), Innovative Manufacturing CRC Limited, 01/10/2021 - 30/10/2022
Auto-Spike Immobilising Device, Innovation Voucher Program (DSD), 01/05/2015 - 30/03/2016
Research
Research outputs for the last seven years are shown below. Some long-standing staff members may have older outputs included. To see earlier years visit ORCID, ResearcherID or Scopus
Open access indicates that an output is open access.
Year | Output |
---|---|
2020 |
3
|
2020 |
28
26
2
|
2020 |
Open access
40
44
1
|
2019 |
16
13
|
2018 |
Open access
26
23
2
|
Year | Output |
---|---|
2019 |
19
3
|
Year | Output |
---|---|
2022 |
5
|
2019 |
|
2019 |
|
2018 |
|
2017 |
|
Year | Output |
---|---|
2025 |
Open access
|
2024 |
Open access
|
2024 |
Open access
3
3
|
2023 |
14
13
|
2023 |
Open access
1
1
|
2023 |
Open access
8
7
|
2023 |
|
2023 |
Open access
12
12
|
2023 |
Open access
6
6
|
2022 |
Open access
|
2022 |
Open access
1
1
|
2022 |
Open access
9
8
1
|
2022 |
Open access
|
2022 |
Open access
16
14
|
2021 |
Open access
112
101
2
|
2021 |
Open access
25
20
|
2021 |
12
10
1
|
2021 |
Open access
10
8
1
|
2021 |
Open access
40
35
2
|
2021 |
Open access
15
14
|
2020 |
Open access
12
10
|
2020 |
Open access
48
40
|
2020 |
28
26
2
|
2020 |
3
3
|
2020 |
12
12
|
2020 |
Open access
40
44
1
|
2019 |
70
48
|
2019 |
23
19
|
2019 |
16
13
|
2019 |
Open access
10
11
1
|
2018 |
Open access
2
2
|
2018 |
38
36
1
|
2018 |
18
15
|
2018 |
Open access
95
74
1
|
2018 |
5
|
2018 |
Open access
86
63
1
|
2018 |
Open access
26
23
2
|
2017 |
Open access
33
34
|
2017 |
149
91
|
2017 |
Open access
506
433
|
2017 |
Open access
40
34
|
2017 |
Open access
28
25
|
2017 |
4
3
|
2017 |
68
65
|
2017 |
Open access
|
2017 |
Open access
24
18
|
2017 |
61
65
|
2017 |
112
96
|
2016 |
Open access
47
37
|
2016 |
36
34
|
2016 |
58
52
|
2016 |
11
8
|
2016 |
37
31
|
2016 |
Open access
9
|
2016 |
19
14
|
2016 |
Open access
1
|
2015 |
266
222
3
|
2015 |
Open access
139
128
4
|
2014 |
30
29
|
2014 |
6
17
|
2014 |
18
13
|
2014 |
10
7
|
2014 |
13
10
|
2013 |
Open access
8
6
|
2013 |
95
79
|
2009 |
Open access
150
120
|
Year | Output |
---|---|
2021 |
2
1
|
2021 |
Open access
|
2021 |
Open access
|
2020 |
3
|
2017 |
Open access
2
|
2016 |
Open access
|
2015 |
Open access
|
2014 |
|
2014 |
|
2014 |
2
|
2014 |
Open access
|
2013 |
|
2013 |
|
2013 |
1
|
2012 |
|
2011 |
2
|
2010 |
1
1
|
Australian Provisional Patent on "Portable Load Cell" (Patent #: 2018902252)
Research
Currently my research addresses and seeks for solutions to real world challenges and pressing problems in the topics below.
Research
Details | Registry | Status |
---|---|---|
Portable load cell Huf, Lyndon; Uddin, Mohammad Sharif; Bryce, Alec; Walker, Alexander William |
World | Filed |
External engagement & recognition
Organisation | Country |
---|---|
Aligarh Muslim University | INDIA |
Amrita School of Engineering | INDIA |
Amrita Vishwa Vidyapeetham | INDIA |
Auckland University | NEW ZEALAND |
Australian Maritime College | AUSTRALIA |
Automotive Safety Engineering Pty Ltd | AUSTRALIA |
Banaras Hindu | INDIA |
BCET Gurdaspur | INDIA |
Burdwan University | INDIA |
Chinese Academy of Sciences | CHINA |
Curtin University | AUSTRALIA |
Deakin University | AUSTRALIA |
Diponegoro University | INDONESIA |
Federal University of Uberlandia | BRAZIL |
Flinders University | AUSTRALIA |
Ghent University | BELGIUM |
Griffith University | AUSTRALIA |
Guru Nanak Dev University | INDIA |
Gurunanak Dev Engineering College | INDIA |
Indian Institute of Information Technology | INDIA |
Indian Institute of Science Bangalore | INDIA |
Indian Institute of Technology | INDIA |
Indian School of Mines | INDIA |
Indira Gandhi Delhi Technical University for Women | INDIA |
Johns Hopkins University | UNITED STATES |
King Fahd University of Petroleum and Minerals | SAUDI ARABIA |
King Saud University | SAUDI ARABIA |
Kongu Engineering College | INDIA |
Laserbond Ltd (SA) | AUSTRALIA |
Lovely Professional University | INDIA |
National Institute of Technical Teachers Training and Research | INDIA |
National Institute of Technical Teachers' Training and Research | INDIA |
National University of Singapore | SINGAPORE |
NUS Nanoscience & Nanotechnology Initiative | SINGAPORE |
Opole University of Technology | POLAND |
Panjab University | INDIA |
Petronas University of Technology | MALAYSIA |
Royal Adelaide Hospital | AUSTRALIA |
Shenyang Aerospace University | CHINA |
Sriwijaya University | INDONESIA |
St. Vens Pty Ltd | AUSTRALIA |
Stellantis Latam | BRAZIL |
University of Adelaide | AUSTRALIA |
University of Durham | UNITED KINGDOM |
University of Malaya | MALAYSIA |
University of New South Wales | AUSTRALIA |
University of South Australia | AUSTRALIA |
University of South Carolina - Columbia | UNITED STATES |
University of Southern Queensland | AUSTRALIA |
University of Suderland | UNITED KINGDOM |
University of Technology Malaysia | MALAYSIA |
University of Twente | NETHERLANDS |
University of Western Australia | AUSTRALIA |
Western Sydney University | AUSTRALIA |
External engagement & recognition
Engagement/recognition | Year |
---|---|
Outstanding Reviewer AwardJournal Of Magnesium and Alloys |
2021 |
MemberEngineers Australia (EA) |
2017 |
MemberAmerican Society of Mechanical Engineers (ASME) |
2017 |
MemberAustralasian Association for Engineering Education (AAEE) |
2017 |
MemberInstitute of Engineers Bangladesh (IEB) |
2017 |
Guest-Editor, Special Issue on "Innovative Surface Modification Techniques for Biodegradable Implants" for Coatings journal. You are welcome to submit your interesting research development! Deadline for submission is 31 March 2021.
Teaching & student supervision
Teaching & student supervision
Supervisions from 2010 shown
Thesis title | Student status |
---|---|
Advancing Electron Beam Melting (EBM) manufacturing capability for space and defence applications | Current |
Advancing Electron Beam Melting (EBM) manufacturing capability for space and defence applications | Current |
Computational modelling of synergistic metal additive manufacturing process | Current |
Experimental study of fatigue life assessment of additively manufactured metal components | Current |
Study of a hybrid surface treatment for the enhancement of surface integrity and corrosion resistance of biodegradable magnesium alloys | Current |
Sustainability with integrated digital twins in manufacturing and supply chains | Current |
Design optimisation and validation of phononic crystal plates for manipulation of elastodynamic guided waves | Completed |
New approaches for preparation of graphene and its epoxy nanocomposites | Completed |
Numerical and experimental study on crashworthiness of thin-walled metallic tubes: effect of surface strengthening and bio-inspired PEKK infills | Completed |