R.A. Clegg scite author profile

R.A. Clegg

5Publications

117Citation Statements Received

18Citation Statements Given

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Hypervelocity impact on CFRP: Testing, material modelling, and numerical simulation

Wicklein

Ryan

White³

et al. 2008

International Journal of Impact Engineering

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This paper describes the derivation and validation of a numerical material model that predicts the highly dynamic behaviour of CFRP (carbon fibre reinforced plastic) under hypervelocity impact. CFRP is widely used in satellites as face sheet material in CFRP-Al/HC sandwich structures (HC = honeycomb), that can be exposed to space debris. A review of CFRP-Al/HC structures typically used in space was performed. Based on this review, a representative structure in terms of materials and geometry was selected for study in the work described here. An experimental procedure for the characterisation of composite materials is documented in [1]. The test results from the CFRP of the current study allow for the derivation of an experimentally based orthotropic continuum material model data set that is capable of predicting the mechanical behaviour of CFRP under hypervelocity impact. Such a data set was not previously available. In [2] an orthotropic material data set was used for modelling HVI on AFRP (aramid fibre reinforced plastic), which shows relatively high deformability before failure. The enhancements of the modelling approaches in [1] and [3] necessary to model brittle CFRP are specified. An experimental hypervelocity impact campaign was performed at two different two stage light gas guns which encompassed both normal and oblique impacts for a range of impact velocities and projectile diameters. Validation of the numerical model is provided through comparison with the experimental results. For that purpose measurements of the visible damage of the face sheets and of the HC core are conducted. In addition, the numerically predicted damage within the CFRP is compared to the delamination areas found in ultrasonic scans.

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Numerical simulation of long rods impacting silicon carbide targets using JH-1 model

Quan¹,

Clegg²,

Cowler³

et al. 2006

International Journal of Impact Engineering

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Quasistatic to hypervelocity impactor loading of glass: autodyn hydrocode and static testing configurations

McDonnell

Catling

Herbert

et al. 2001

International Journal of Impact Engineering

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Multi-layer insulation material models suitable for hypervelocity impact simulations

White¹,

Wicklein

Clegg³

et al. 2008

International Journal of Impact Engineering

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Impact comminution of icy targets in the outer solar system: Application of hydrocodes

McDonnell

Catling

Clegg³

2001

Advances in Space Research

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R.A. Clegg

Hypervelocity impact on CFRP: Testing, material modelling, and numerical simulation

Numerical simulation of long rods impacting silicon carbide targets using JH-1 model

Quasistatic to hypervelocity impactor loading of glass: autodyn hydrocode and static testing configurations

Multi-layer insulation material models suitable for hypervelocity impact simulations

Impact comminution of icy targets in the outer solar system: Application of hydrocodes

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