Effect of SiC Powder Addition on Air Jet Erosion of Metal Matrix Composite Al-SiC
<p align="justify"> <br /> <br /> In the aerospace and energy industry, working conditions in high-speed <br /> <br /> fluid with abrasive particles may result in erosion of the component. Metal Matrix <br /> <br /> Composite (MMC) Al-SiC was devel...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/28743 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | <p align="justify"> <br />
<br />
In the aerospace and energy industry, working conditions in high-speed <br />
<br />
fluid with abrasive particles may result in erosion of the component. Metal Matrix <br />
<br />
Composite (MMC) Al-SiC was developed to be a solution in improving the <br />
<br />
lifetime of Aluminum used in such application. <br />
<br />
In this research, MMC Al-SiC has been made using Al-7075 base material <br />
<br />
with the addition of SiC powder grid 220 as much as 5, 10 and 15 wt%. This <br />
<br />
composite was manufactured using stir casting technique with the addition of 1 <br />
<br />
wt% magnesium (Mg). Characterization with optical metallography has been done <br />
<br />
to know the SiC distribution homogeneity of stir casting results. Air Jet Erosion <br />
<br />
testing was then performed to test the erosion resistance of the MMC. The impact <br />
<br />
of precipitation hardening on the Al-7075 matrix towards erosion resistance was <br />
<br />
also studied. <br />
<br />
Optical metallographic results show that MMC Al-SiC has been <br />
<br />
successfully manufactured although SiC particle distribution has not been fully <br />
<br />
homogeneous yet and porosity was still formed. Water Jet Erosion Test showed <br />
<br />
that the addition of 5% SiC was optimal in improving the erosion resistance of <br />
<br />
MMC Al-SiC. Addition of more than 5% SiC did not significantly improve its <br />
<br />
erosion resistance. Solution treatment and artificial aging for precipitation <br />
<br />
hardening on Al-7075 matrix proven to decrease its erosion resistance. <br />
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