Study on Reaction Mechanism of Sulfur and Phosphorus Type Additives Using an Acoustic Emission Technique

IF 0.9 Q4 ENGINEERING, MECHANICAL

Tribology Online Pub Date : 2022-04-30 DOI:10.2474/trol.17.78

Miho Morita, Shodai Tachiyama, K. Onodera, A. Hase

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引用次数: 2

Abstract

Sulfur and phosphorus additives are used in lubricants as extreme-pressure and antiwear agents, which are typically used together to ensure reliability over a wide range of lubrication conditions. However, the working mechanism of the combined additive system has not been clearly defined due to difficulties obtaining information on the material surface where these additives work. This is because this surface is constantly being worn during testing. Therefore, in situ analysis applying an acoustic emission (AE) technique was proposed. AEs are elastic stress waves generated during the deformation and fracture of solids, which can be measured in real-time, providing information with respect to the magnitudes and types of damage. In this paper, an application of the AE helps to clarify how each additive acts on the surface in real-time. The working mechanism to understand improved reliability using both sulfur and phosphorous additives was investigated by the AE technique, along with conventional surface analysis methods. It is concluded that wear reducing properties were improved by the reaction of sulfur additives to remove the protruded parts, followed by the reaction of phosphorous additives to form a protective antiwear film.

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用声发射技术研究硫磷型添加剂的反应机理

硫和磷添加剂作为极压和抗磨剂用于润滑油中，它们通常一起使用，以确保在各种润滑条件下的可靠性。然而，由于难以获得这些添加剂工作的材料表面的信息，组合添加剂系统的工作机制尚未明确定义。这是因为该表面在测试过程中不断被磨损。因此，提出了应用声发射(AE)技术进行现场分析的方法。ae是固体变形和断裂过程中产生的弹性应力波，可以实时测量，提供有关损伤的大小和类型的信息。在本文中，声发射的应用有助于阐明每个添加剂如何实时作用于表面。通过声发射技术和常规表面分析方法，研究了硫磺和磷添加剂提高可靠性的作用机理。结果表明，硫添加剂的作用是去除凸出部分，磷添加剂的作用是形成保护抗磨膜，从而提高了减磨性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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