DE2200665A1 - Metallic ceramic material for heating elements - - based on aluminium,titanium boride and boron nitride - Google Patents

Abstract

A mixture comprising in wt.% 8-10 Al, 35-75 TiB2, 5.7-15 BN is pressed at 1700-1800 degrees C to give a material with improved resistance to temp. change and corrosive materials.

Description

METAL-CERAMIC MATERIAL FOR RADIATORS OPERATED IN AGGRESSIVE MEDIA AND PROCESS FOR THE PRODUCTION THEREOF The invention relates to the production of vacuum coatings by evaporation of metallon <metal-ceramic materials, # for radiators @@) are operated in aggressive media and processes for their production.

At the moment it is used for the production of evaporating bodies materials prepared on the basis of titanium titeride (35-10% by weight) and boron nitride. The evaporation bodies made from these materials have the required electrical characteristics, high corrosion resistance and hardness which enables their mechanical processing. Such materials are made by Hot pressing made from finely ground starting material.

However, when processing such materials, difficulties arise due to the need to use a material with a porosity of less than 5% the previous fine comminution, as well as daduroh are conditional that hot pressing of these materials requires a high temperature of 1700-2000 ° C is.

The purpose of the invention is to eliminate the disadvantages mentioned.

The invention is based on the object of a metal-ceramic material <> with a composition <for radiators> and a method for Manufacture of this material to create that the manufactured material in its Use in aggressive media 1 temperature and corrosion resistance.

It is processed on the basis of titanium diboride and boron nitride metal-ceramic material for radiators, << >> proposed. << the be operated in aggressive media @ >> According to the invention, this material contains also aluminum.

A process is used to prepare the metal-ceramic material Proposed for hot pressing of the pressed material that contains titanium diboride and boron nitride. The starting material, which contains 8 to 19% by weight of aluminum, 35 to 75% by weight of titanium diboride and 57 to 15% by weight boron nitride is used up to a temperature of 1700-1800 ° C heated and at this Pressed temperature.

When carrying out the method according to the invention for manufacturing (:; getallkec5 r'ws Uc ~ preßgut not previously ground @ still @ag the porosity of the finished metal koramic material does not exceed 4 to 5%.

In this way, according to the invention, a metal @@ r @ m @ se @ es Material with @@@@ @ @@ composition as well as ei @ @ erf @@ ren to @@@@@@ this Materials suggested that it gesta @@@@, the labor-intensive fine grinding of the material to be pressed before hot pressing and hot pressing at a lower Temperature @ to be carried out.

The inventive metalkera / mix material for radiators that in aggressive media, contains 35-75% by weight of titanium in the initial pressed material @@ @@ d, 57-15% by weight boron nitride and 8-10% by weight aluminum.

When the material is heated up to a temperature during hot pressing from 1700-1800 ° C the aluminum reacts with @ titanium diboride and boron nitride and at least works partly in aluminum nitride and aluminum boride. This conclusion was based on drawn from experimental data.

The formation of aluminum nitride and aluminum boride during hot pressing takes place mainly on the surface of the grains, which activates the sintering process and a lowering of the pressing temperature is enabled. The formation of Aluminum nitride takes place with enlargement of the volume, which leads to the filling of pores with aluminum nitride and thus leads to a reduction in porosity, although the starting components were used in coarse-grained form.

By reducing the porosity, the contact area of the metal-ceramic material with the aggressive medium and reduced to this Way increases the corrosion resistance of this material.

An increase in the corrosion resistance of the material is also achieved in that the process is carried out in the presence of aluminum nitride, which has a high resistance to the corrosive effects of molten metals and metal vapors. The aluminum boride formed during hot pressing of the starting components is a @semiconductor and stabilizes the electrical resistance of the metal-ceramic material.

The information obtained as a result of the experimental work on the Dependence of the physical-mechanical properties of the metal-ceramic Material on the composition of the pressed material from which this material is made are listed in the table below.

Composition - Specific resistance in wt.% Density, ponosity, @tand Ohm / cm BN TiB2 Al g / cm3% 20 ° C 16 @ 0 ° C 45 45.8 9.2 2.64 14.6 1.62.1 @ -2 2.0.10-2 38.7 52.6 8.7 2.81 11.2 4, @. 10-3 7.2.10-3 34.7 56.8 8.5 3.28 2.85 1.33.10-3 1.7.10 -3

Claims (2)

Claims 1. Metal-ceramic containing titanium diboride and boron nitride Material, especially for radiators that are operated in aggressive media, d u r c h e k e k e n n -z e i n e t, as it contains aluminum. 2. Process for the production of a metal-ceramic material according to Claim 1 by hot pressing a material to be pressed which contains witandiboride and boron nitride, characterized in that the starting material with 8 to 10 wt.% Aluminum, 35 up to 75 wt.% titanium diboride and 57 to 15 wt.% boron nitride up to a temperature heated from 1700-1800 C and pressed at this temperature.