DETERMINATION OF TENSILE MODULUS OF WOVEN-GLASS FIBRE REINFORCED POLYESTER COMPOSITES AND ITS DEGRADATION BY MEANS OF ULTRASONIC TESTING PULSE-ECHO METHODS
Woven fibre glass composites are widely used as structural components in civil infrastructure, automotive industry and ships. Composites can be degraded caused by interactions with the environment such as water vapor, temperature and uv light. Degradation can decrease modulus elasticity of the co...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/47192 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Woven fibre glass composites are widely used as structural components in civil
infrastructure, automotive industry and ships. Composites can be degraded caused by
interactions with the environment such as water vapor, temperature and uv light.
Degradation can decrease modulus elasticity of the composite. Modulus elasticity is
generally obtained from tensile test, but these test have limitation such as requiring specimen
preparation and cannot be actually carried out in the field.. Theoretically, modulus elasticity
can be obtained from ultrasonic testing utilizing the wave velocity. The purpose of this study
is to determine the modulus of elasticity of woven fibre glass composites and its degradation
through ultrasonic testing pulse-echo methods. Composite were made by hand-lay up method
and compressed at room temperature to produce 38%, 41% and 46% fibre volume fraction.
Composite degradation method was conducted by soaking the composites in boiling water
until it reaches its saturation point. Ultrasonic testing was carried out using a straight and
an angle probe along fiber direction and thickness direction of the composite. Determination
of modulus elasticity utilizes the velocity of wave propation through twice the initial distance
method. Modulus elasticity of ultrasonic testing was validated using the result of tensile test
and composite micromechanics model. The results showed higher fiber volume fraction,
resulted in higher velocity of the wave propagation of the composites. Modulus elasticity and
its degradation in woven glass fibre composites can be obtained by means of ultrasonic
testing pulse-echo method using both 0/straight and 90/angle probes. The use of straight
probe resulted in error of the elastic modulus of 6 – 19%, while using the angle probe result
error of the elastic modulus 2 – 9%. Determination of the elastic modulus reduction of the
degraded composites showed a decrease of 9 – 11% using the straight probe and 5,2 – 7,5%
using the angle probe. |
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