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Effects of oxidation on the strength of debound SiC parts by powder injection moulding

✍ Scribed by Zhen Lu; Kaifeng Zhang; Changrui Wang

Book ID
104089270
Publisher
Elsevier Science
Year
2011
Tongue
English
Weight
756 KB
Volume
208
Category
Article
ISSN
0032-5910

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✦ Synopsis

In order to increase the production efficiency of powder injection moulding for SiC parts, thermal debinding was performed in air furnace without gas shield. Bending tests were performed to evaluate the strength of samples debound under different temperatures. The effects of oxidation on debinding process were also analyzed. Analysis indicates that air could accelerate the debinding rate of green parts without defects occurring. The bending strength of debound samples increases from 6.55 MPa to 11.58 MPa as the presintering temperature increases from 550 Β°C to 850 Β°C. On the other hand, the bending strength of the samples pre-sintered at 1200 Β°C in argon atmosphere is only 11.52 MPa. It was found that, blanks have enough strength for transport after being pre-sintered in air atmosphere at 850 Β°C. The technology could reduce the requirement for heating equipment and enhance the efficiency of debinding for SiC parts.

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