The mechanical and wear behavior of copper-tungsten disulfide(Cu/WS_2) composites fabricated by spark plasma sintering(SPS) and hot pressing(HP) was investigated, comparatively. Results indicated that the additi...The mechanical and wear behavior of copper-tungsten disulfide(Cu/WS_2) composites fabricated by spark plasma sintering(SPS) and hot pressing(HP) was investigated, comparatively. Results indicated that the addition of lubricant WS_2 substantially reduced wear rate of the Cu matrix composites fabricated by SPS,and the optimum content of WS_2 is 20 wt% with regard to the wear behavior. However, it affected a little to the wear rate while dramatically decreased the friction coefficient of the composite fabricated by HP.This difference in friction behavior of the self-lubricating composites fabricated by the two techniques was closely related to their different mechanical properties. Severe interfacial reaction occurred during spark plasma sintering, leading to brittle phase formation at interface.展开更多
Bulk cementites with the Cr contents of 0,3.01,6.03,8.22,and 11.51mass% were prepared by mechanical alloying(MA)and spark plasma sintering(SPS).The results indicated that when the Cr content was low(3.01mass%),t...Bulk cementites with the Cr contents of 0,3.01,6.03,8.22,and 11.51mass% were prepared by mechanical alloying(MA)and spark plasma sintering(SPS).The results indicated that when the Cr content was low(3.01mass%),the phases were composed of cementite with a small amount ofα-Fe at a sintering temperature of 1 173 K,but the microstructure became single-phase alloyed cementite as the Cr content was further increased.It showed that microaddition of Cr was beneficial for promoting the formation of cementite.Furthermore,the mechanical performance of cementite can be greatly affected by the variation of Cr content.The hardness,elastic modulus and elastic recovery presented a remarkably increasing tendency with the addition of Cr,and the maximum micro-hardness and elastic modulus values reached 1 070.74 HV and 199.32 GPa,respectively,which were similar to the precipitation phase(cementite)obtained by melting and casting techniques.Moreover,when the Cr content was below 11.51mass%,the crystal structure of Fe3C-type cementite would not change with increasing the Cr content.A Cr atom replaced an Fe atom in the lattice of the cementite,and voids appeared when Cr was doped into the cementite at content of about11.51mass%,causing the relative density to decrease.展开更多
基金supported by the National Natural Science Foundation of China (No. 51471177)the Youth Innovation PromotionAssociation CAS (No. 2016178)the Fundamental Research Funds for the Central Universities (No. N160205001)
文摘The mechanical and wear behavior of copper-tungsten disulfide(Cu/WS_2) composites fabricated by spark plasma sintering(SPS) and hot pressing(HP) was investigated, comparatively. Results indicated that the addition of lubricant WS_2 substantially reduced wear rate of the Cu matrix composites fabricated by SPS,and the optimum content of WS_2 is 20 wt% with regard to the wear behavior. However, it affected a little to the wear rate while dramatically decreased the friction coefficient of the composite fabricated by HP.This difference in friction behavior of the self-lubricating composites fabricated by the two techniques was closely related to their different mechanical properties. Severe interfacial reaction occurred during spark plasma sintering, leading to brittle phase formation at interface.
基金Item Sponsored by National Natural Science Foundation of China(51371138)
文摘Bulk cementites with the Cr contents of 0,3.01,6.03,8.22,and 11.51mass% were prepared by mechanical alloying(MA)and spark plasma sintering(SPS).The results indicated that when the Cr content was low(3.01mass%),the phases were composed of cementite with a small amount ofα-Fe at a sintering temperature of 1 173 K,but the microstructure became single-phase alloyed cementite as the Cr content was further increased.It showed that microaddition of Cr was beneficial for promoting the formation of cementite.Furthermore,the mechanical performance of cementite can be greatly affected by the variation of Cr content.The hardness,elastic modulus and elastic recovery presented a remarkably increasing tendency with the addition of Cr,and the maximum micro-hardness and elastic modulus values reached 1 070.74 HV and 199.32 GPa,respectively,which were similar to the precipitation phase(cementite)obtained by melting and casting techniques.Moreover,when the Cr content was below 11.51mass%,the crystal structure of Fe3C-type cementite would not change with increasing the Cr content.A Cr atom replaced an Fe atom in the lattice of the cementite,and voids appeared when Cr was doped into the cementite at content of about11.51mass%,causing the relative density to decrease.
