Study on the Mechanism of Solid-Phase Oxidant Action in Tribochemical Mechanical Polishing of SiC Single Crystal Substrate
Na2CO3—1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After...
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| Published in | Micromachines (Basel) Vol. 12; no. 12; p. 1547 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
MDPI AG
12.12.2021
MDPI |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2072-666X 2072-666X |
| DOI | 10.3390/mi12121547 |
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| Abstract | Na2CO3—1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After polishing with the five solid-phase oxidants, oxygen was found on the surface of SiC, indicating that all five solid-phase oxidants can have complex tribochemical reactions with SiC. Their reaction products are mainly SiO2 and (SiO2)x. Under the action of friction, due to the high flash point temperature of the polishing interface, the oxygen generated by the decomposition of the solid-phase oxidant could oxidize the surface of SiC and generate a SiO2 oxide layer on the surface of SiC. On the other hand, SiC reacted with H2O and generated a SiO2 oxide layer on the surface of SiC. After polishing with NaOH, the SiO2 oxide layer and soluble Na2SiO3 could be generated on the SiC surface; therefore, the surface material removal rate (MRR) was the highest, and the surface roughness was the largest, after polishing. The lowest MRR was achieved after the dry polishing of SiC with KClO3. |
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| AbstractList | Na2CO3—1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After polishing with the five solid-phase oxidants, oxygen was found on the surface of SiC, indicating that all five solid-phase oxidants can have complex tribochemical reactions with SiC. Their reaction products are mainly SiO2 and (SiO2)x. Under the action of friction, due to the high flash point temperature of the polishing interface, the oxygen generated by the decomposition of the solid-phase oxidant could oxidize the surface of SiC and generate a SiO2 oxide layer on the surface of SiC. On the other hand, SiC reacted with H2O and generated a SiO2 oxide layer on the surface of SiC. After polishing with NaOH, the SiO2 oxide layer and soluble Na2SiO3 could be generated on the SiC surface; therefore, the surface material removal rate (MRR) was the highest, and the surface roughness was the largest, after polishing. The lowest MRR was achieved after the dry polishing of SiC with KClO3. Na CO -1.5 H O , KClO , KMnO , KIO , and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After polishing with the five solid-phase oxidants, oxygen was found on the surface of SiC, indicating that all five solid-phase oxidants can have complex tribochemical reactions with SiC. Their reaction products are mainly SiO and (SiO )x. Under the action of friction, due to the high flash point temperature of the polishing interface, the oxygen generated by the decomposition of the solid-phase oxidant could oxidize the surface of SiC and generate a SiO oxide layer on the surface of SiC. On the other hand, SiC reacted with H O and generated a SiO oxide layer on the surface of SiC. After polishing with NaOH, the SiO oxide layer and soluble Na SiO could be generated on the SiC surface; therefore, the surface material removal rate (MRR) was the highest, and the surface roughness was the largest, after polishing. The lowest MRR was achieved after the dry polishing of SiC with KClO . Na2CO3-1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After polishing with the five solid-phase oxidants, oxygen was found on the surface of SiC, indicating that all five solid-phase oxidants can have complex tribochemical reactions with SiC. Their reaction products are mainly SiO2 and (SiO2)x. Under the action of friction, due to the high flash point temperature of the polishing interface, the oxygen generated by the decomposition of the solid-phase oxidant could oxidize the surface of SiC and generate a SiO2 oxide layer on the surface of SiC. On the other hand, SiC reacted with H2O and generated a SiO2 oxide layer on the surface of SiC. After polishing with NaOH, the SiO2 oxide layer and soluble Na2SiO3 could be generated on the SiC surface; therefore, the surface material removal rate (MRR) was the highest, and the surface roughness was the largest, after polishing. The lowest MRR was achieved after the dry polishing of SiC with KClO3.Na2CO3-1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After polishing with the five solid-phase oxidants, oxygen was found on the surface of SiC, indicating that all five solid-phase oxidants can have complex tribochemical reactions with SiC. Their reaction products are mainly SiO2 and (SiO2)x. Under the action of friction, due to the high flash point temperature of the polishing interface, the oxygen generated by the decomposition of the solid-phase oxidant could oxidize the surface of SiC and generate a SiO2 oxide layer on the surface of SiC. On the other hand, SiC reacted with H2O and generated a SiO2 oxide layer on the surface of SiC. After polishing with NaOH, the SiO2 oxide layer and soluble Na2SiO3 could be generated on the SiC surface; therefore, the surface material removal rate (MRR) was the highest, and the surface roughness was the largest, after polishing. The lowest MRR was achieved after the dry polishing of SiC with KClO3. Na 2 CO 3 —1.5 H 2 O 2 , KClO 3 , KMnO 4 , KIO 3 , and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The research results showed that all the solid-phase oxidants, except NaOH, could decompose to produce oxygen under the frictional action. After polishing with the five solid-phase oxidants, oxygen was found on the surface of SiC, indicating that all five solid-phase oxidants can have complex tribochemical reactions with SiC. Their reaction products are mainly SiO 2 and (SiO 2 )x. Under the action of friction, due to the high flash point temperature of the polishing interface, the oxygen generated by the decomposition of the solid-phase oxidant could oxidize the surface of SiC and generate a SiO 2 oxide layer on the surface of SiC. On the other hand, SiC reacted with H 2 O and generated a SiO 2 oxide layer on the surface of SiC. After polishing with NaOH, the SiO 2 oxide layer and soluble Na 2 SiO 3 could be generated on the SiC surface; therefore, the surface material removal rate (MRR) was the highest, and the surface roughness was the largest, after polishing. The lowest MRR was achieved after the dry polishing of SiC with KClO 3 . |
| Author | Wang, Zhankui Qi, Wanting Cao, Xiaojun Su, Jianxiu Xiao, Wen |
| AuthorAffiliation | School of Mechanical and Electrical Engineering, Henan Institute of Science and Technology, Xinxiang 453003, China; qwt245147@163.com (W.Q.); cxj18303659239@163.com (X.C.); xw68886@163.com (W.X.); luckywzk@126.com (Z.W.) |
| AuthorAffiliation_xml | – name: School of Mechanical and Electrical Engineering, Henan Institute of Science and Technology, Xinxiang 453003, China; qwt245147@163.com (W.Q.); cxj18303659239@163.com (X.C.); xw68886@163.com (W.X.); luckywzk@126.com (Z.W.) |
| Author_xml | – sequence: 1 givenname: Wanting surname: Qi fullname: Qi, Wanting – sequence: 2 givenname: Xiaojun surname: Cao fullname: Cao, Xiaojun – sequence: 3 givenname: Wen surname: Xiao fullname: Xiao, Wen – sequence: 4 givenname: Zhankui orcidid: 0000-0002-1963-4156 surname: Wang fullname: Wang, Zhankui – sequence: 5 givenname: Jianxiu surname: Su fullname: Su, Jianxiu |
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| Keywords | 6H-SiC dry polishing fixed abrasive tribochemical mechanical polishing solid-phase oxidant |
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| Snippet | Na2CO3—1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The... Na CO -1.5 H O , KClO , KMnO , KIO , and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The... Na2CO3-1.5 H2O2, KClO3, KMnO4, KIO3, and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane polishing pad. The... Na 2 CO 3 —1.5 H 2 O 2 , KClO 3 , KMnO 4 , KIO 3 , and NaOH were selected for dry polishing tests with a 6H-SiC single crystal substrate on a polyurethane... |
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| SubjectTerms | 6H-SiC Chemical reactions Decomposition dry polishing fixed abrasive Flash point Hydrogen peroxide Material removal rate (machining) Mechanical polishing Morphology Oxidizing agents Oxygen Polyurethane resins Potassium permanganate Reaction products Residual stress Satellite communications Silicon dioxide Single crystals Sodium carbonate Sodium silicates Solid phases solid-phase oxidant Substrates Surface roughness tribochemical mechanical polishing |
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| Title | Study on the Mechanism of Solid-Phase Oxidant Action in Tribochemical Mechanical Polishing of SiC Single Crystal Substrate |
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