SU1433610A1 - Method of monitoring the structure of metals and alloys in cold plastic deformation - Google Patents

Abstract

The invention relates to the processing of metals by pressure, in particular, to methods for controlling the structure of metals during cold forming. The purpose of the invention is to improve the quality control of products and performance. Before deforming, a two-layer polymer gasket is placed between the contact surfaces of the workpiece and the tool. Its layer from the side of the workpiece is impregnated with etchant. The layer on the tool side is made in the form of an insulator. The thickness of the gaskets is about 2 mm. The workpiece is deformed. The control of its structure is carried out.

Description

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The invention relates to metallography, in particular to the possibility of etching metals and alloys in the process of their plastic deformation, and can be used to identify the macro- and microstructure of grain boundaries, as well as etching.

The aim of the invention is to improve the quality control of products and performance.

The method is carried out as follows.

Before deforming the billet, a two-layer gasket is placed between the surfaces of the tool and the workpiece so that during the precipitation process (forging, shtampovka, etc.) the insulating layer of the gasket is on the tool surface and the etchant layer is on the surface of the workpiece. The gaskets are selected in such a way that one layer of gaskets isolates the instrument from the action of the grassman, and the other layer is well impregnated with the grassman. The thickness of the gaskets should be about 2 mm. With a thickness of less than 2 mm, the amount of the etchant (by volume), the saturating layer of the gasket, is not enough to carry out etching during the deformation process, and with a greater thickness, there is a danger of the etchant leaking on the side surface of the workpiece and the tool surface.

The workpiece is deformed on the press to the required size. The structure obtained as a result of its manufacture is revealed on the contact surface of the blank. The structural state (uniformity, imperfection, etc.) is studied, photographed, compared to the structure of the initial state and the structure obtained at other stages of deformation, i. e. the state of the product is monitored.

Example. A two-layer gasket consisting of an elastic plate with a thickness of C :: 1 mm is prepared from a polyvinyl chloride brand "Vinipor (predominantly open cell type) lubricated with solid oil and an elastic plate 1 mm thick

from polyvinyl chloride brand PCV-E (mostly closed cell type), which is wetted in 3% aqueous HF solution. The lubricant firmly holds both layers of the gasket in a stationary state, eliminating the need to glue the layers. Gaskets prepared in this way are applied to the working surfaces of the instrument so that the gasket layer filled with lubricant is in contact with these surfaces and is isolated from the effect of the etchant. A cylindrical sample of aluminum alloy AK-8 with similar dimensions and heat treatment is placed between the precipitating plates with gasket and they settle the sample to the desired size. During the deformation time of the ZD-40 press, under the influence of an etchant on the contact surface of the workpiece, a structure is revealed. After precipitation is removed from the surface of the resulting product

pads. After washing the surfaces of the product with alcohol to cleanse the etchant from residue, the structure of the contact surface is examined. At the same time, the structure obtained as a result of etching during deformation does not require additional preparation.

Claims (1)

Invention Formula The method of controlling the structure of metals and alloys during cold plastic deformation, which consists in chemical etching of the contact surfaces of the deformed billet with a deforming tool and fixing the resulting microstructure, which, in order to improve the quality of control products and productivity, before deformation between the contact surfaces of the workpiece and the tool, a technological two-layer polymer gasket is placed, the layer of which is impregnated on the side of the workpiece with an etchant and the layer on the side of the tool is made in the form of an insulator.