My Expertise
Ballistic impact and projectile-penetration mechanisms, Dynamic behavior of materials, Shock propagation in condensed matter, Hydrocode analysis.
Fields of Research (FoR)
Mechanical Engineering, Aerospace Materials, Composite Materials, Numerical Modelling and Mechanical Characterisation, Condensed Matter PhysicsBiography
Paul Hazell is a professor of impact dynamics in the School of Engineering and Technology (SET) at UNSW Canberra.
His main research interests centre on the dynamic behaviour of materials and structures that have been subjected to impact / shock loading. He has also been actively involved in discovering methods for improving the performance of lightweight armour systems including ways of defending against attack from shaped-charge weapon...view more
Paul Hazell is a professor of impact dynamics in the School of Engineering and Technology (SET) at UNSW Canberra.
His main research interests centre on the dynamic behaviour of materials and structures that have been subjected to impact / shock loading. He has also been actively involved in discovering methods for improving the performance of lightweight armour systems including ways of defending against attack from shaped-charge weapon systems and improvised explosive devices (IEDs).
Paul's teaching experience includes courses on armour systems design, military vehicle lethality & survivability, computational modelling techniques, shock and impact mechanics, impact dynamics, ballistics, firepower technologies, lethality and survivability and weapon technologies. He has won several awards for his 'motivated' lecturing style. In 2023 he won the UNSW Students' Choice Teaching Award for his 'inspirational nurturing skills' with HDR students. See here for a YouTube video on the award details.
Paul is the Director of the Impact Dynamics Research Group (IDRG) and Lab at UNSW Canberra, and has published extensively in the fields of shock, impact and ballistics. He is also on the Editorial Board for the journals International Journal of Impact Engineering (Elsevier), Scientific Reports (Nature Publishing Group), Biomimetics (MDPI), and Shock Waves (Springer) and wrote the book ARMOUR: Materials, Theory, and Design (CRC Press, 2/e, 2022,), and a book on guns, entitled: 'The Story of the Gun: History, Science, and Impact on Society’ (Springer, 1/e, 2021).
My Qualifications
BEng (Hons)
EngD
My Awards
Teaching / presentation awards
- UNSW 2023 Students' Choice Teaching Award Winner, 23 November 2023. See here for a YouTube video on the award details.
- NUS Best Teacher Award for contributions to an MSc course at the National University of Singapore in recognition of “dedication and commitment”, 28 March 2006.
- Winner (1st prize) of the National Lecture Competition (UK) sponsored by the Institute of Materials, with a talk on the ‘High Velocity Attack of Ceramic Armour’, 24 April 1997.
- Winner (1st prize) of The Institute of Materials South East Region (UK) Final of the National Lecture Competition (Class II), 11 April 1997.
- Winner (1st prize) of the Oxford Metallurgical Society Lecture Competition, 18 March 1997.
Recent research / paper awards (won by my students!)
- Serubibi A; Hazell PJ; Escobedo JP; Wang H; Oromiehie E; Prusty BG, Analysis of AFP manufactured fibre metal laminate structures under impact loading, ACAM10 – Best postgraduate student paper, 2021
- Md Ashraf Islam, A Kader, A. Brown, P J Hazell, J P Escobedo-Diaz, X-ray and Microstructural Study of a Set of Cast Aluminum Alloys, TMS - EPD Materials Characterization Best Poster Award - 2018
- Md Ashraf Islam, A. Brown, P J Hazell, J P Escobedo-Diaz, M Saadatfar, Deformation Mechanisms of Closed-Cell Aluminium Foams During Drop Weight Impact, TMS - EPD Materials Characterization Best Paper Award – 2017
- Z Li, A Khennane, PJ Hazell, A Remennikov, Numerical modeling of a hybrid GFRP-concrete beam subjected to low-velocity impact loading, Best Paper Award at The 8th International Conference on Computational Methods (ICCM2017), Guilin, China – 2017
My Research Activities
My work can be divided into five key themes:
- Shock compression of condensed matter. This includes phase changes and spall as well as examining new experimental techniques.
- Dynamic behaviour of porous materials and structures. This includes looking at ways to mitigate impact energy.
- Bio behaviour and biomimicry. How can we learn from nature to inform the design of impact resilient materials and structures?
- Penetration mechanics. Understanding how projectile penetrate into a range of matter, from low velocity to hypervelocity. This includes cratering mechanisms.
- Constitutive model development. This includes developing new models to understand dynamic processes and feeding those models with experimental data.
My Research Supervision
Supervision keywords
Areas of supervision
I supervise any projects to do with impact, collisions, ballistic penetration, and shock.
Currently supervising
|
Dong,Hang |
PhD |
1661 - Mechanical Engineering |
|
Ramadneh,Mohammad Raed Mohammad |
PhD |
1661 - Mechanical Engineering |
|
Ma,Hailing |
PhD |
1661 - Mechanical Engineering |
|
Kandasamy,Ilaventhan |
Masters (Research) |
2227 - Aero, Civil & Mech Eng (MPhil) |
|
Shah,Suman |
PhD |
1631 - Civil Engineering |
|
Bogahawaththa,Piladuwa Bogahawaththage Madhusha Ru |
PhD |
1631 - Civil Engineering |
|
Dura,Hari Bahadur |
PhD |
1663 - Aerospace Engineering |
|
Elbana,Abdalla |
PhD |
1631 - Civil Engineering |
|
Siddique,Shakib Hyder |
PhD |
1661 - Mechanical Engineering |
|
Serubibi,Arcade |
PhD |
1661 - Mechanical Engineering |
My Engagement
Deputy Program Manager for Australian Composites Manufacturing
Editorial Board member for International Journal of Impact Engineering, Scientific Reports, Biomimetics, and Shock Waves
My Teaching
ZEIT 4014 Impact Dynamics
ZINT 8301 Lethality and Survivability
Location
School of Engineering and Information Technology
THE UNIVERSITY OF NEW SOUTH WALES
UNSW CANBERRA
PO Box 7916, CANBERRA BC 2610, Australia
Publications
ORCID as entered in ROS
https://orcid.org/0000-0002-8302-3173
Research Activities
Light-weight armour studies
In this work we used forward ballistic, reverse ballistic and computational analysis techniques to interrogate the effect of the gilding jacket from a 7.62 mm × 51 mm FFV armour-piercing bullet during the penetration of ceramic-faced targets. When the gilding jacket is removed, it is shown that greater damage occurs to the core suggesting that the presence of the jacket is pre-damaging the ceramic before core arrival. This work helps us to understand better ways of designing and building lighter-weight armour to protect our troops…
Videos
