AISI 300系列奥氏体不锈钢渗氮层组织和性能研究

目的 在AISI 300系列奥氏体不锈钢表面制备单一S相渗氮层,提高该系列不锈钢渗氮层的硬度、抗磨损性能,对比揭示渗氮前后不锈钢的磨损机制。方法 采用低温辉光等离子渗氮技术(LTPNT)在AISI 300系列奥氏体不锈钢表面制备渗氮层。利用光学显微镜(OM)、扫描电子显微镜(SEM)、电子探针(EPMA)、X射线衍射仪(XRD)分析渗氮层的截面形貌、元素分布和物相组成;通过比磨损率和磨痕形貌分析渗氮层的摩擦学性能;利用电化学实验考察渗氮前后3种不锈钢的耐蚀性。结果 AISI 300系列奥氏体不锈钢经380 ℃、12 h处理后,其表面获得了厚度为15 μm左右、与基体致密结合、组织成分均匀的渗氮层;渗氮层的相结构主要为S相,无CrN相析出;经渗氮后,该系列不锈钢表面硬度均为1 100HV左右,较基体硬度提高了5倍左右;不锈钢基体的磨损机理为黏着和磨粒磨损,经渗氮后转变为氧化磨损和微切削;渗氮层的比磨损率约为不锈钢基体的1/20,抗磨损的能力得到显著提升;在25 ℃环境温度下渗氮后,304L、316L和321的自腐蚀电位下降,腐蚀电流密度增加,腐蚀速率加快,耐腐蚀性能稍有降低。通过对比腐蚀形貌发现,渗氮层仍具有一定的耐蚀性能。结论 通过LTPNT可以获得高硬度、组织均匀致密、结合强度高的渗氮层,渗氮层中S相的存在可以显著提高AISI 300系列奥氏体不锈钢的表面硬度、抗磨损能力,降低其摩擦因数和比磨损率,对延长不锈钢的服役寿命有着积极的作用。     

Plasma dynamics inferred from optical emission spectra,during diamond-like thin film pulsed laser deposition

Diamond-like thin films were produced via PLD with the fundamental line of a Nd:YAG laser, while the plasma dynamics were studied non-destructively by emission spectroscopy. Spectra obtained by analysing the plasma optical emission at various distances from the ablated graphite surface show how the composition and temperature vary within the plasma plume. The collected data allow the identification of various emitting species at different regions of the expanding plasma and estimation of their velocities. The further ahead in the plume, the more the ablated material is ionised. Temperatures are determined from the continuous broad background, while the plasma cools as it expands. The influence of substrate temperature on the resulting film structure is also studied through Raman scattering measurements. Optical microscope pictures are taken to evaluate surface quality. Plasma ionisation degree and kinetic energies are enough to grow diamond-like films, but high substrate temperatures favour graphitic order.