Paul J Hazell
Paul J Hazell
UNSW Canberra
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Zitiert von
Zitiert von
Metallic microlattice materials: A current state of the art on manufacturing, mechanical properties and applications
MG Rashed, M Ashraf, RAW Mines, PJ Hazell
Materials & Design 95, 518-533, 2016
Armour: materials, theory, and design
PJ Hazell
CRC press, 2022
High-velocity impact behaviour of aluminium honeycomb sandwich panels with different structural configurations
G Sun, D Chen, H Wang, PJ Hazell, Q Li
International Journal of Impact Engineering 122, 119-136, 2018
Modelling the response of reinforced concrete panels under blast loading
X Lin, YX Zhang, PJ Hazell
Materials & Design (1980-2015) 56, 620-628, 2014
Macro and micro collapse mechanisms of closed-cell aluminium foams during quasi-static compression
MA Kader, MA Islam, M Saadatfar, PJ Hazell, AD Brown, S Ahmed, ...
Materials & Design 118, 11-21, 2017
The design of mosaic armour: The influence of tile size on ballistic performance
PJ Hazell, CJ Roberson, M Moutinho
Materials & Design 29 (8), 1497-1503, 2008
On the structural parameters of honeycomb-core sandwich panels against low-velocity impact
G Sun, X Huo, H Wang, PJ Hazell, Q Li
Composites Part B: Engineering 216, 108881, 2021
Lessons from nature: 3D printed bio-inspired porous structures for impact energy absorption–A review
SH Siddique, PJ Hazell, H Wang, JP Escobedo, AAH Ameri
Additive Manufacturing 58, 103051, 2022
Biomimetic armour design strategies for additive manufacturing: A review
MK Islam, PJ Hazell, JP Escobedo, H Wang
Materials & Design 205, 109730, 2021
Normal and oblique penetration of woven CFRP laminates by a high velocity steel sphere
PJ Hazell, G Kister, C Stennett, P Bourque, G Cooper
Composites Part A: applied science and manufacturing 39 (5), 866-874, 2008
On the response of two commercially-important CFRP structures to multiple ice impacts
GJ Appleby-Thomas, PJ Hazell, G Dahini
Composite Structures 93 (10), 2619-2627, 2011
A study on the energy dissipation of several different CFRP-based targets completely penetrated by a high velocity projectile
PJ Hazell, G Appleby-Thomas
Composite structures 91 (1), 103-109, 2009
Ceramic armour: design, and defeat mechanisms
PJ Hazell
Argos press, 2006
Impact behaviour of Dyneema® fabric-reinforced composites with different resin matrices
H Wang, PJ Hazell, K Shankar, EV Morozov, JP Escobedo
Polymer Testing 61, 17-26, 2017
Impact behaviour of pultruded GFRP composites under low-velocity impact loading
Z Li, A Khennane, PJ Hazell, AD Brown
Composite Structures 168, 360-371, 2017
Mechanical response and dynamic deformation mechanisms of closed-cell aluminium alloy foams under dynamic loading
MA Islam, AD Brown, PJ Hazell, MA Kader, JP Escobedo, M Saadatfar, ...
International Journal of Impact Engineering 114, 111-122, 2018
From biology to biomimicry: Using nature to build better structures–A review
MK Ahamed, H Wang, PJ Hazell
Construction and Building Materials 320, 126195, 2022
The dynamic behaviour of ballistic gelatin
CJ Shepherd, GJ Appleby‐Thomas, PJ Hazell, DF Allsop
AIP conference proceedings 1195 (1), 1399-1402, 2009
A study of the penetration behaviour of mild-steel-cored ammunition against boron carbide ceramic armours
IG Crouch, G Appleby-Thomas, PJ Hazell
International Journal of Impact Engineering 80, 203-211, 2015
The influence of microstructure on the shock and spall behaviour of the magnesium alloy, Elektron 675
PJ Hazell, GJ Appleby-Thomas, E Wielewski, C Stennett, C Siviour
Acta Materialia 60 (17), 6042-6050, 2012
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