Optimization of manufacturing process of Glass\Polycarbonate thermoplastic laminates using Taguchi method

Document Type : Original Article

Authors

1 PhD Candidate, Tarbiat Modares University

2 Mech. Dep., Tarbiat Modares University, Tehran, Iran

3 Mech. dep., Amirkabir university of technology, Tehran, Iran

4 Mech. dep., Tarbiat Modares University, Tehran, Iran

Abstract

Fiber-reinforced thermoplastic composites have drawn much attention due to higher toughness in comparison with thermosets. Polycarbonate is of particular concern because of low weight, high thermal and impact resistance. In this paper, effect of manufacturing parameters such as temperature, pressure and time on mechanical properties of Polycarbonate/Glass laminate is investigated using Taguchi method. In order to evaluate effects of various parameters, an experimental design planned using L9 orthogonal array with three level of time, pressure and temperature with the help of Minitab software. For this, composite beams having arrangement [0]8 were produced in film staking procedure in a hot-pressing apparatus. The 3-points bending tests were carried out to assess manufacturing quality. Comparison of flexural modulus and flexural strength of various specimens were made and the results are commented upon and discussed. Results show that the temperature of 215 Celsius degree results higher mechanical properties than other temperatures because of preventing resin degradation and adequate viscosity. Furthermore, results indicated that the time factor was more significant, than time and pressure, on curing quality. Optimum values of factors such as time, pressure and temperature to achieve higher flexural modulus and flexural strength are determined using analysis of Signal to Noise Ratio (SNR).

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Iranian Journal of Manufacturing Engineering
Volume 5, Issue 4
March and April 2019
Pages 37-43

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