CS232489B1 - Permanent mould for taking of samples from melted copper and tin - Google Patents

Abstract

The invention solves a more even distribution tin in samples of copper alloys and crime in variance 0.1 - 0.25% · The essence of the invention is the ingestion chill melt samples from these alloys. Kokilka consists of a metal body, provided a cavity in the shape of the sample to be taken, which is closed by a ceramic bottom, Utilization the invention is possible in all organizations, where copper and tin alloys are produced and where You need to make an analysis, for example quantometric, the dispersion of tin was taken sample 0.1 w - 0.25 »·

Description

The invention relates to an ingot mold for the collection of melting samples intended to carry out some kinds of analyzes, for example quantometric, from melt alloys characterized by inverted milling, for example copper and tin alloys.

In the production of semi-finished products from copper and tin alloys, their melting and casting are continuously inspected and, during melting, the composition is adjusted by doping the individual elements.

The composition of the melt is determined by taking a melt sample into the ingot mold, suitably processing the sample, and performing a quantometric analysis. So far, the melting samples are taken in all-metal, for example steel, cast iron or copper molds, and after mechanical treatment, for example by milling or grinding, the treated sample surface is subjected to analysis

The samples of the copper β-tin alloys collected in this way show an uneven distribution of tin with an average dispersion of 0.8%. This deficiency also undermines the most accurate analytical methods used to determine the content of individual elements in copper-tin alloys.

Since it has not yet been solved, it is necessary to increase the guideline composition of the charge by 0.8% tin above the lower limit set by the relevant standard. In this way, considerable economic losses are incurred, since an increase in the tin content is reflected in the entire production of copper-tin alloys.

This drawback is remedied by the ingot mold for taking copper-tin alloy melts, the metal body of which has a sample-shaped cavity, characterized in that the sample-shaped cavity is provided with a removable ceramic bottom.

The ceramic bottom will ensure a more even cooling of the sample and thus a more even chemical composition throughout the usable volume analysis on all surfaces parallel to the bottom of the sample.

The advantages of the ingot mold according to the invention are that the samples taken exhibit a tin dispersion p of 1 to 0.25% and approximate the average composition of the entire melt. In the production of copper-tin alloys, the tin content decreases by an average of 0.5% in the batches, while adhering to the relevant material standards and uniform chemical composition of the cast materials.

Thus, for example, in the production of continuously cast tin bronze tubes of 6% xixx, its content in the batch decreased by 0.7%, and in statically cast tin bronze bolts of 6%, the tin content of the batch also decreased by 0.7% % when sampling into the ingot mold according to the invention compared to the original sampling in all-metal ingot molds.

The control analyzes on the final castings were in all cases favorable and fully confirmed the justification of the solution according to the invention. The mold according to the invention is shown in the drawing where an axial section of the mold is shown.

The mold is composed of a metal, for example a copper body X, in which the cavity is in the form of a sample, for example a truncated cone with a replaceable ceramic base 8. The ceramic bottom is located on the side of the smaller truncated cone base and mechanically secured with a metal plug 2.

The chill mold according to the invention can be used in particular in the quantometric analysis of copper-tin alloys, since the cast sample has a uniform chemical composition over all surfaces formed parallel to the bottom of the sample throughout the usable volume analysis.

Alternatively, the mold according to the invention can also be used in other types of analysis of melt alloys characterized by reverse solidification mixing.

Claims (1)

SUBJECT OF THE INVENTION Chill mold for the smelting of copper-tin alloys, the metal body and the sample-shaped cavity, characterized in that the sample-shaped cavity is provided with a removable ceramic bottom (2).