CAJ | 학술논문

通过铝液中的静态腐蚀，高温下的摩擦磨损和铝液中的腐蚀-磨损试验，对钨和 H13钢的耐铝液腐蚀-磨损性能和机理进行研究。结果表明：钨在铝液中的平均腐蚀速率约为H13钢的1/14，在高温下的摩擦磨损性能与H13钢的相当，在腐蚀-磨损条件下钨的材料损失率仅约为H13钢的1/24，远远优于H13钢的耐铝液腐蚀-磨损性能。在腐蚀-磨损过程中，试验材料均发生了磨粒磨损，而钨的腐蚀-磨损表面生成的产物起到了很好的保护基体材料的作用。腐蚀和磨损的交互作用是造成试验材料在腐蚀-磨损条件下材料损失急剧增大的主要原因。
통과려액중적정태부식，고온하적마찰마손화려액중적부식-마손시험，대오화 H13강적내려액부식-마손성능화궤리진행연구。결과표명：오재려액중적평균부식속솔약위H13강적1/14，재고온하적마찰마손성능여H13강적상당，재부식-마손조건하오적재료손실솔부약위H13강적1/24，원원우우H13강적내려액부식-마손성능。재부식-마손과정중，시험재료균발생료마립마손，이오적부식-마손표면생성적산물기도료흔호적보호기체재료적작용。부식화마손적교호작용시조성시험재료재부식-마손조건하재료손실급극증대적주요원인。
The corrosion-wear resistant performance and mechanisms of tungsten and H13 steel in molten aluminum were investigated through static corrosion in molted aluminum, friction-wear tests in air at high temperature, and corrosion-wear experiments in molten aluminum. The results show that the average corrosion rate of tungsten in molten aluminum is about 1/14 of H13 steel’s, and the performances of these two materials at high temperature friction-wear condition are nearly the same. The loss rate of tungsten under corrosion-wear condition is only about 1/24 of H13 steel’s, demonstrating that the corrosion-wear resistance of tungsten is much superior to that of H13 steel. Abrasive wear occurs in the corrosion-wear tests of these two experimental materials. In addition, the matrix is well protected by reaction products of tungsten on the corrosion-wear surface. The interaction behavior of corrosion and wear under corrosion-wear condition is the main reason for the rapid increment mass loss of the test materials.