TY  - EJOU
AU  - Rhymer, Jennifer D. 
AU  - Kim, Hyonny 

TI  - Prediction of Delamination Onset and Critical Force in Carbon/Epoxy Panels Impacted by Ice Spheres
T2  - Computers, Materials \& Continua

PY  - 2013
VL  - 35
IS  - 2
SN  - 1546-2226

AB  - Polymer matrix composite structures are exposed to a variety of impact threats including hail ice. Internal delamination damage created by these impacts can exist in a form that is visually undetectable. This paper establishes an analysis methodology for predicting the onset of delamination damage in toughened carbon/epoxy composite laminates when impacted by high velocity ice spheres (hailstones). Experiments and analytical work focused on ice sphere impact onto composite panels have determined the failure threshold energy as a function of varying ice diameter and panel thickness, and have established the ability to predict the onset of delamination using cohesive elements in explicit dynamic finite element analysis. A critical force associated with damage onset was found to be independent of the ice diameter and thus can be expressed as a function of basic panel-describing parameters, namely bending rigidity and interlaminar fracture energy. Critical force can be used as a failure criterion in simpler models (e.g., shell elements) when predicting the onset of delamination by high speed spherical ice impact.
KW  - Ice impact
KW  -  hail
KW  -  composite
KW  -  delamination prediction
KW  -  cohesive zone
KW  -  critical force

DO  - 10.3970/cmc.2013.035.087