CAJ | 학술논문

采用粉末冶金工艺制备了Fe-2.0Cr-2.0Mo-0.3C-35TiC钢结硬质合金.在1425～1455℃范围内研究了不同碳气氛对合金密度和抗弯强度的影响.不同碳气氛采用不同装舟方式来控制,即样品掩埋人TiC填料方式、样品曝露于Al_2O_3+4%C填料之上、样品与Al_2O_3+4%C之下铺一层碳黑并曝露方式.通过OM、SEM观察了合金的微观组织形貌;通过EDX手段分析了合金中各相的组成成分;测量了合金的密度和抗弯强度.结果表明,采用样品与Al_2O_3+4%C之下铺一层碳黑并曝露方式能够提供充足的碳气氛,改善液态Fe与TiC微粒的润湿性,1435℃下烧结1h所得的试样具有理想的致密度和抗弯强度,其密度达6.51 g·cm~(-3),抗弯强度达1659 MPa,比目前国内生产的相近成分的合金抗弯强度提高了约22%.
채용분말야금공예제비료Fe-2.0Cr-2.0Mo-0.3C-35TiC강결경질합금.재1425～1455℃범위내연구료불동탄기분대합금밀도화항만강도적영향.불동탄기분채용불동장주방식래공제,즉양품엄매인TiC전료방식、양품폭로우Al_2O_3+4%C전료지상、양품여Al_2O_3+4%C지하포일층탄흑병폭로방식.통과OM、SEM관찰료합금적미관조직형모;통과EDX수단분석료합금중각상적조성성분;측량료합금적밀도화항만강도.결과표명,채용양품여Al_2O_3+4%C지하포일층탄흑병폭로방식능구제공충족적탄기분,개선액태Fe여TiC미립적윤습성,1435℃하소결1h소득적시양구유이상적치밀도화항만강도,기밀도체6.51 g·cm~(-3),항만강도체1659 MPa,비목전국내생산적상근성분적합금항만강도제고료약22%.
Fe-2.0Cr-2.0Mo-0.3C-35TiC steel-bonded titanium carbide was prepared by powder metallurgy.The influence of three different types of loading on the density and bending strength of the sintered alloy was studied at different sintering temperatures in the range of 1425-1455℃.The 1st type ofloading was that the alloy was entirely buried directly in the TiC filling,and the 2nd type of loading was that the alloy Was placed on top of the Al_2O_3+4%C filling,not buried but exposed,while the 3rd type Was that the alloy was placed on top of the Al_2O_3+4%C filling,whose bottom layer composed of carbon ponder with a thickness of a few nanometer.The micmstructure of the sintered alloy was observed by OM and SEM;the component of both phases was analyzed by EDX;the density and bending strengthWasmeasured.The results showed that the 3rd type of filling pattern provided the richest carbon atmosphere which could impmve the wettability between the liquid Fe and the TiC particles.and the alloy sintered for 1 h at 1435℃ obtained the highest density of 6.15g·cm~(-3) and the highest bending strength of 1655MPa,which was22% higher than the current bending-strength of do-mestic product of the similar composition.