The effect of fibre concentration, temperature and mould thickness on tensile strength of single- and double-gated injection-moulded polypropylene copolymer reinforced with 0, 10, 20, 30 and 40 wt% short glass fibre was studied at a fixed strain-rate of 7.58 x 10(-3) s(-1) between 23 and 100 A degrees C. It was found that tensile strength of single-gated mouldings, sigma(c), increased with increasing volume fraction of fibres, I center dot(f) in a nonlinear manner and decreased with increasing temperature in a linear manner. However, for I center dot(f) values in the range 0-10% a simple additive rule-of-mixtures adequately described the variation of sigma(c) with I center dot(f) over the entire temperature range 23-100 A degrees C studied here. Tensile strength of double-gated mouldings like their single-gated counterparts decreased linearly with increasing temperature. The presence of weldlines significantly reduced tensile strength of double-gated composite mouldings but had little effect on tensile strength of the matrix. Weldline integrity factor, F (sigma), defined as weldline strength divided by unweld strength, decreased with increasing I center dot(f) but increased with increasing temperature. A linear dependence was found between F (sigma) and temperature. Mould thickness had no significant effect upon weld and unweld tensile strengths and consequently had no significant effect upon weldline integrity factor.