E. Syuryana, Asep Indra Komara, Bambang Widyanto, S. Sutarno, Manty A. Ikaningsih, Dicko Adrian Aditya, Riskamti Riskamti, Moch. Salman Fadillah Suardana, Cagiva Abdul Malik
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引用次数: 0
摘要
摩擦腐蚀是一种由层流或紊流引起的金属表面同时磨损和腐蚀所导致的材料降解。增材制造技术在其应用于精密部件和复杂组件方面发挥着重要作用。本研究开发了一种含有铁、镍、铬和其他粉末合金的 316LX 材料,并将其加工成超保护线材作为 3D 打印填充物。摩擦腐蚀条件的模拟是在三维打印设备上进行的。预计该模拟将对 316LX 3D 打印材料的行为和特性提供重要的见解和理解,尤其是在硫酸溶液环境中暴露于磨损和腐蚀条件下时。在改良的旋转 5%硫酸流体中使用电位动力学方法测试 316LX 材料添加剂的腐蚀速率。除腐蚀速率外,还在烧结后的 1000oC 温度下测试了 316LX 绿色部件材料的维氏硬度、金相和收缩率。
TRIBO-CORROSION INVESTIGATION ON MATERIAL 316LX MANUFACTURING RESULT OF 3D PRINTING MATERIAL ADDITIVES IN 5% H2SO4 SOLUTION
Tribocorrosion is a type of material degradation caused by simultaneous wear and corrosion of metal surfaces caused by laminar or turbulent flow. Additive manufacturing technology plays an important role in its application to precision components and complex assemblies. This study developed a 316LX material with Fe, Ni, Cr, and other powder alloys that was processed into an ultra-protective wire as a 3D printing filler. This simulation of tribocorrosion conditions was performed on a triboester machine. This simulation is expected to provide important insights and understanding into the behavior and properties of the 316LX 3D printing material, especially when exposed to abrasion and corrosion conditions in a sulfuric acid solution environment. Corrosion Rate Testing of 316LX Material Additives Using Potentiodynamic Methods in a Modified Rotating 5% Sulfuric Acid Fluid. In addition to corrosion rate, the Vickers hardness, metallography, and shrinkage of the 316LX green part material were also tested at 1000oC after sintering.
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