Stability And Heat Resistance Of Silicide Coatings On Refractory Metals Ii. Stability And Heat Resistance Of Silicide Coatings On Tungsten And Molybdenum At 1500-2000DGC
The kinetics of diffusion redistribution of phases within the system Wsi2-W on heating tungsten silicide in air in the temperature range 1500-2000 deg C is studied. The stability and heat resistance of silicide coatings on tungsten is mainly governed by the diffusion of silicon towards the interphas...
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| Veröffentlicht in: | Powder metallurgy and metal ceramics 2003-01, Vol.42 (1-2), p.50-53 |
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| creator | Zmii, V I Kovtun, N V Glushko, P I Ruden'kii, S G |
| description | The kinetics of diffusion redistribution of phases within the system Wsi2-W on heating tungsten silicide in air in the temperature range 1500-2000 deg C is studied. The stability and heat resistance of silicide coatings on tungsten is mainly governed by the diffusion of silicon towards the interphase boundaries W-W5si3, W5Si3-Wsi2, and Wsi2-SiO2, formation at them of diffusion barriers of lower silicide W5si3, and also a protective SiO2 film at the outer boundary of the silicide coating. It is established that the transition rate for the higher to the lower tungsten silicide Wsi2 RT W5si3 is on average four times slower than the transition rate for MoSi2 RT Mo5Si3. It is shown that an increase in silicon concentration in the WSi, surface layer stimulates formation of diffusion barrier- compounds at interphase boundaries. This leads to an increase in the stability of the phase composition and heat resistance of a silicide coating on metals. In particular at 1700 deg C the transition rate for molybdenum silicide on tungsten MOS2 RT(Mo, W)5Si3 is about twenty times slower than the transition rate for MoSi2 RT Mo5Si3, and less by a factor of about eleven than the transition rate for WSi2 RT WSSi3. Here there is also an increase in the heat resistance of silicide coatings on tungsten and molybdenum. It is shown that the SiO2 film on tungsten silicide does not lose its protective properties up to 2000 deg C. |
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It is established that the transition rate for the higher to the lower tungsten silicide Wsi2 RT W5si3 is on average four times slower than the transition rate for MoSi2 RT Mo5Si3. It is shown that an increase in silicon concentration in the WSi, surface layer stimulates formation of diffusion barrier- compounds at interphase boundaries. This leads to an increase in the stability of the phase composition and heat resistance of a silicide coating on metals. In particular at 1700 deg C the transition rate for molybdenum silicide on tungsten MOS2 RT(Mo, W)5Si3 is about twenty times slower than the transition rate for MoSi2 RT Mo5Si3, and less by a factor of about eleven than the transition rate for WSi2 RT WSSi3. Here there is also an increase in the heat resistance of silicide coatings on tungsten and molybdenum. 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Stability And Heat Resistance Of Silicide Coatings On Tungsten And Molybdenum At 1500-2000DGC</title><title>Powder metallurgy and metal ceramics</title><description>The kinetics of diffusion redistribution of phases within the system Wsi2-W on heating tungsten silicide in air in the temperature range 1500-2000 deg C is studied. The stability and heat resistance of silicide coatings on tungsten is mainly governed by the diffusion of silicon towards the interphase boundaries W-W5si3, W5Si3-Wsi2, and Wsi2-SiO2, formation at them of diffusion barriers of lower silicide W5si3, and also a protective SiO2 film at the outer boundary of the silicide coating. It is established that the transition rate for the higher to the lower tungsten silicide Wsi2 RT W5si3 is on average four times slower than the transition rate for MoSi2 RT Mo5Si3. It is shown that an increase in silicon concentration in the WSi, surface layer stimulates formation of diffusion barrier- compounds at interphase boundaries. This leads to an increase in the stability of the phase composition and heat resistance of a silicide coating on metals. In particular at 1700 deg C the transition rate for molybdenum silicide on tungsten MOS2 RT(Mo, W)5Si3 is about twenty times slower than the transition rate for MoSi2 RT Mo5Si3, and less by a factor of about eleven than the transition rate for WSi2 RT WSSi3. Here there is also an increase in the heat resistance of silicide coatings on tungsten and molybdenum. 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Stability And Heat Resistance Of Silicide Coatings On Tungsten And Molybdenum At 1500-2000DGC</atitle><jtitle>Powder metallurgy and metal ceramics</jtitle><date>2003-01-01</date><risdate>2003</risdate><volume>42</volume><issue>1-2</issue><spage>50</spage><epage>53</epage><pages>50-53</pages><issn>1068-1302</issn><abstract>The kinetics of diffusion redistribution of phases within the system Wsi2-W on heating tungsten silicide in air in the temperature range 1500-2000 deg C is studied. The stability and heat resistance of silicide coatings on tungsten is mainly governed by the diffusion of silicon towards the interphase boundaries W-W5si3, W5Si3-Wsi2, and Wsi2-SiO2, formation at them of diffusion barriers of lower silicide W5si3, and also a protective SiO2 film at the outer boundary of the silicide coating. It is established that the transition rate for the higher to the lower tungsten silicide Wsi2 RT W5si3 is on average four times slower than the transition rate for MoSi2 RT Mo5Si3. It is shown that an increase in silicon concentration in the WSi, surface layer stimulates formation of diffusion barrier- compounds at interphase boundaries. This leads to an increase in the stability of the phase composition and heat resistance of a silicide coating on metals. In particular at 1700 deg C the transition rate for molybdenum silicide on tungsten MOS2 RT(Mo, W)5Si3 is about twenty times slower than the transition rate for MoSi2 RT Mo5Si3, and less by a factor of about eleven than the transition rate for WSi2 RT WSSi3. Here there is also an increase in the heat resistance of silicide coatings on tungsten and molybdenum. It is shown that the SiO2 film on tungsten silicide does not lose its protective properties up to 2000 deg C.</abstract></addata></record> |
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| title | Stability And Heat Resistance Of Silicide Coatings On Refractory Metals Ii. Stability And Heat Resistance Of Silicide Coatings On Tungsten And Molybdenum At 1500-2000DGC |
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