The high strain rate response of Ultra High Molecular-weight Polyethylene: From fibre to laminate

Abstract

The effect of strain rate upon the uniaxial response of Ultra High Molecular-weight Polyethylene (UHMWPE) fibres, yarns and laminates of lay-up [0/90]48 has been measured in both the 0/90° and ±45° configurations. The tensile strength of the matrix-dominated ±45° laminate is two orders of magnitude less than that of the fibre-dominated 0/90° laminate, and is more sensitive to strain rate. A piezoelectric force sensor device was developed to obtain the high strain rate data, and this achieved a rise time of less than 1 μs. It is found that the failure strength (and failure strain) of the yarn is almost insensitive to strain rate within the range (10−1–103 s−1). At low strain rates (below 10−1 s−1), creep of the yarn dominates and the failure strain increases with diminishing strain rate. The tensile strength of the dry yarn exceeds that of the laminate by about 20%. Tests on single fibres exceed the strength of the yarn by 20%.