Effects of sintering temperature in hot pressing, t yp es, states and amounts of rare earth as well as TiH 2 on the transverse rupture strength (TRS) of Fe-based composites are studied by means of orthogonal test and ...Effects of sintering temperature in hot pressing, t yp es, states and amounts of rare earth as well as TiH 2 on the transverse rupture strength (TRS) of Fe-based composites are studied by means of orthogonal test and variance analysis in this paper. It is found that sintering temperature has a significant effect on the TRS of Fe-based diamond composites. The optimal sin tering temperature is 780~860 ℃. On the contrary, the effects of RE additi v es on values of TRS of the diamond composites have on distinct difference no mat ter the RE is in the state of mixture or compound or oxidization. Experimental r esults demonstrate that Fe-based diamond composites with RE additives exhibit h igher TRS, which results in an increase in diamond retention capacity. The degre e of increment of TRS is different at different sintering temperatures. The opti mal amount of rare earth was found to be about 1% in weight. The effect of RE is more significant at lower sintering temperature. The experimental results also reveal that TiH 2 additive has a negative effect on the TRS of Fe-based compos ites. Microscope observations demonstrate that specimen without TiH 2 additives , shows fewer pores and denser structures in the base metal. It can also be seen from the SEM observation of the resulting fracturing surface of bending test sp ecimens that the bonding of the diamond-matrix interface is better in the speci men without TiH 2 than in the specimen with TiH 2. Also the fracture surface o f the specimen without TiH 2 reveals ductile cup and cone behavior.展开更多
The XRD spectrum of titanium coated diamond showed the existence of titanium ca rbide on the interface between diamond and its titanium coating. The diffusions between titanium coating and metal matrices were stud ied...The XRD spectrum of titanium coated diamond showed the existence of titanium ca rbide on the interface between diamond and its titanium coating. The diffusions between titanium coating and metal matrices were stud ied by SEM. The SEM photographs revealed that titanium can interdiffuse with nic kel, cobalt, copper,iron and copper based alloy to a great extent to lead to th e disappearance of pure titanium layer and the formation of titanium diffusion l ayer. The results from transverse rupture strength test showed that ti tanium coating on diamond improved the bonding strength between diamond and metal matrices by 3.2% for Co based segment and 4.1% for Cu 10Sn based segment respectively.展开更多
Increasing density is one of the important factors for producing high quality powder metallurgy (PM) parts,which has beneficial effect on mechanical properties. One of the common techniques for achieving this goal is ...Increasing density is one of the important factors for producing high quality powder metallurgy (PM) parts,which has beneficial effect on mechanical properties. One of the common techniques for achieving this goal is double compacting,which seems to be a potentially attractive method in PM route,also for Cr-Mo alloyed-steels. The objective of this research was to investigate the effect of first compacting pressure and intermediate annealing temperature on attaining higher densities and minimum interconnected porosity for Cr-Mo pre-alloyed steel. The effect of mentioned parameters was studied by measuring density,transverse rupture strength and macrohardness of repressed samples. The results show that for each first compacting pressure,the density range of repressed samples increases with the increasing annealing temperature up to a certain limit,due to C dissolution which causes free porosity and further densification. Annealing temperatures higher than optimum one should be avoided,since too much carbon dissolution results in harder and less deformable compacts. On the other hand,with regard to repressed density and other resulted properties,the amount of first compacting pressure offers considerable advantage in obtaining higher level of density and consequently improved mechanical properties.展开更多
文摘Effects of sintering temperature in hot pressing, t yp es, states and amounts of rare earth as well as TiH 2 on the transverse rupture strength (TRS) of Fe-based composites are studied by means of orthogonal test and variance analysis in this paper. It is found that sintering temperature has a significant effect on the TRS of Fe-based diamond composites. The optimal sin tering temperature is 780~860 ℃. On the contrary, the effects of RE additi v es on values of TRS of the diamond composites have on distinct difference no mat ter the RE is in the state of mixture or compound or oxidization. Experimental r esults demonstrate that Fe-based diamond composites with RE additives exhibit h igher TRS, which results in an increase in diamond retention capacity. The degre e of increment of TRS is different at different sintering temperatures. The opti mal amount of rare earth was found to be about 1% in weight. The effect of RE is more significant at lower sintering temperature. The experimental results also reveal that TiH 2 additive has a negative effect on the TRS of Fe-based compos ites. Microscope observations demonstrate that specimen without TiH 2 additives , shows fewer pores and denser structures in the base metal. It can also be seen from the SEM observation of the resulting fracturing surface of bending test sp ecimens that the bonding of the diamond-matrix interface is better in the speci men without TiH 2 than in the specimen with TiH 2. Also the fracture surface o f the specimen without TiH 2 reveals ductile cup and cone behavior.
文摘The XRD spectrum of titanium coated diamond showed the existence of titanium ca rbide on the interface between diamond and its titanium coating. The diffusions between titanium coating and metal matrices were stud ied by SEM. The SEM photographs revealed that titanium can interdiffuse with nic kel, cobalt, copper,iron and copper based alloy to a great extent to lead to th e disappearance of pure titanium layer and the formation of titanium diffusion l ayer. The results from transverse rupture strength test showed that ti tanium coating on diamond improved the bonding strength between diamond and metal matrices by 3.2% for Co based segment and 4.1% for Cu 10Sn based segment respectively.
文摘Increasing density is one of the important factors for producing high quality powder metallurgy (PM) parts,which has beneficial effect on mechanical properties. One of the common techniques for achieving this goal is double compacting,which seems to be a potentially attractive method in PM route,also for Cr-Mo alloyed-steels. The objective of this research was to investigate the effect of first compacting pressure and intermediate annealing temperature on attaining higher densities and minimum interconnected porosity for Cr-Mo pre-alloyed steel. The effect of mentioned parameters was studied by measuring density,transverse rupture strength and macrohardness of repressed samples. The results show that for each first compacting pressure,the density range of repressed samples increases with the increasing annealing temperature up to a certain limit,due to C dissolution which causes free porosity and further densification. Annealing temperatures higher than optimum one should be avoided,since too much carbon dissolution results in harder and less deformable compacts. On the other hand,with regard to repressed density and other resulted properties,the amount of first compacting pressure offers considerable advantage in obtaining higher level of density and consequently improved mechanical properties.
