CE (=%C+(1/3)x(%Si)) does not suit experiment results in many cases. In this work, the effect of alloy elements on primary crystal temperature was measured and the relationship between primary crystal temperatu...CE (=%C+(1/3)x(%Si)) does not suit experiment results in many cases. In this work, the effect of alloy elements on primary crystal temperature was measured and the relationship between primary crystal temperature (Tc) and carbon equivalent (CEL) was investigated. The results show that Tc (Celsius degree) = 1650-110 × (%C) -25 × (%Si)+3 × (%Mn) -35 × (%P) -71 × (%5)-2 × (%Ni) -7 × (%Cr); CEL=%C + 0.23×(%Si)-0.03× (%Mn)+0.32×(%P)+0.64×(%S) +0.02×(%Ni)+0.06×(%Cr). That is, in hypo eutectic composition, carbon equivalent should be calculated with CEL=%C+ 0.23×(%Si), not with CE=%C+(1/3) x(%Si).展开更多
文摘CE (=%C+(1/3)x(%Si)) does not suit experiment results in many cases. In this work, the effect of alloy elements on primary crystal temperature was measured and the relationship between primary crystal temperature (Tc) and carbon equivalent (CEL) was investigated. The results show that Tc (Celsius degree) = 1650-110 × (%C) -25 × (%Si)+3 × (%Mn) -35 × (%P) -71 × (%5)-2 × (%Ni) -7 × (%Cr); CEL=%C + 0.23×(%Si)-0.03× (%Mn)+0.32×(%P)+0.64×(%S) +0.02×(%Ni)+0.06×(%Cr). That is, in hypo eutectic composition, carbon equivalent should be calculated with CEL=%C+ 0.23×(%Si), not with CE=%C+(1/3) x(%Si).
