Material failure is determined by a suite of deformation mechanisms with differing kinetics, operating together to present an integrated response to an observer. To elucidate processes requires separating one from another in order to construct physically-based descriptions of behaviour. Observing a material, in which failure processes are controlled by a designed impulse and are at a suitable scale, offers the possibility of separating operating mechanisms. A highly synchronised, loading test frame has been developed by Diamond and Manchester. It has already been fielded at the ESRF and shown excellent results using ultra-high speed, single bunch imaging on simple test problems. Now that the device has been proven, we show studies on the compression and fracture of glass and quartz. The results indicate several modes of failure and emphasise the need for further fast radiography to elucidate failure mechanisms in solids.
Research Article|
July 03 2018
Impacting silicates using a fast indentation device
W. U. Mirihanage;
W. U. Mirihanage
1
Centre for Matter under Extreme Conditions, School of Materials
, RAL, Didcot, OX11 0DE, UK
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M. Olbinado;
M. Olbinado
2
ID19, ESRF
, 71, Avenue des Martyrs, 38000 Grenoble, France
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N. K. Bourne;
N. K. Bourne
a)
1
Centre for Matter under Extreme Conditions, School of Materials
, RAL, Didcot, OX11 0DE, UK
a)Corresponding author: neil.bourne@manchester.ac.uk
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C. Rau;
C. Rau
3
Diamond Light Source, Didcot
, Oxfordshire, OX11 0DE, UK
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A. Rack
A. Rack
2
ID19, ESRF
, 71, Avenue des Martyrs, 38000 Grenoble, France
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a)Corresponding author: neil.bourne@manchester.ac.uk
AIP Conf. Proc. 1979, 070021 (2018)
Citation
W. U. Mirihanage, M. Olbinado, N. K. Bourne, C. Rau, A. Rack; Impacting silicates using a fast indentation device. AIP Conf. Proc. 3 July 2018; 1979 (1): 070021. https://doi.org/10.1063/1.5044830
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