Design and technological provision of wear resistance of elastomer surface of rubber-cord casings of damping devices

Omsk Scientific Bulletin Pub Date : 1900-01-01 DOI:10.25206/1813-8225-2021-178-25-28

V. Churankin, A. V. Lyamtsev, V. Derkach

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Abstract

Two main factors are considered that determining the friction between non-lubricated surfaces of an elastomer and a solid base during their relative motion. The first one is adhesion in the areas of real (actual) catalysis and the second factor is the deformation component, which is due to the delay of recovery of the elastomer after the irregularity is introduced and it is called the hysteresis component of friction. One of the main problems of increasing the resource of pneumatic dampers is minimizing the wear of the covering layer of the rubber-cord casing (RCC). The wear of the RCC is due to the fact that sliding friction occurs in the process of contact between the metal surface and the surface of the RCC, as a result of which the cover layer of the RCC (in some cases with the first cord layer) wears out, depending on the chemical composition of the rubber and the features of the operation of the pneumatic shock absorber. In order to minimize the wear of rubber, it is proposed to change the design of the pneumatic damper so that rolling friction dominates in the contact between the surfaces of rubber and metal

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减震装置橡胶绳套弹性体表面耐磨性的设计与工艺提供

两个主要因素被认为是确定非润滑表面的弹性体和固体基之间的摩擦在他们的相对运动。第一个因素是实际催化区域的粘附，第二个因素是变形分量，这是由于引入不规则性后弹性体恢复的延迟，称为摩擦的滞后分量。增加气动阻尼器资源的主要问题之一是减小橡胶绳套管覆盖层的磨损。RCC的磨损是由于金属表面与RCC表面接触过程中发生滑动摩擦，从而导致RCC的覆盖层(在某些情况下带有第一帘线层)磨损，这取决于橡胶的化学成分和气动减震器的操作特点。为了尽量减少橡胶的磨损，提出改变气动阻尼器的设计，使橡胶与金属表面的接触以滚动摩擦为主

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Omsk Scientific Bulletin

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