Influence of dry friction on subsurface structure of sintered composite Al—7Sn—38Fe

Deformation and Fracture of Materials Pub Date : 2022-01-01 DOI:10.31044/1814-4632-2022-12-24-30
N. Rusin, A. Skorentsev
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Abstract

The subsurface macrostructure of a sintered Al—7Fe—38Sn composite, which is formed upon rotation of a flat steel bar pressed to it, has been studied. It was established that a zone of intense plastic flow is formed under the friction surface of the composite due to thermal softening. The size of the zone increases and the refinement degree of the structural elements in it increases as the applied pressure and sliding speed increase. The thickness of the plastic flow zone is ∼200 µm at a pressure of 15 MPa and increases with increasing pressure. A thin layer with a homogeneous ultrafine crystalline structure is formed between the friction surface and the plastic flow zone.
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干摩擦对烧结Al-7Sn-38Fe复合材料亚表面组织的影响
本文研究了Al-7Fe-38Sn复合材料的亚表面宏观组织。结果表明,由于热软化作用,复合材料摩擦表面下形成了一个强塑性流动区。随着施加压力和滑动速度的增加,区域的尺寸增大,结构元件的细化程度增大。在压力为15 MPa时,塑性流区的厚度为~ 200µm,并随着压力的增加而增大。在摩擦表面和塑性流动区之间形成一层具有均匀超细晶结构的薄层。
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Deformation and Fracture of Materials
Deformation and Fracture of Materials
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