DE3528137C2 - - Google Patents

Description

The invention relates to a jet or spray nozzle from a reaction-bonded silicon carbide lining and one of these enveloping protective sheath made of an elastic Material.

Such spray nozzles are used for gate locking, sandblasting and Concrete spraying or other spraying methods used. With such nozzles, refractory materials become melting chambers masses or other abrasive masses. The conical tapering nozzles are considerable wear exposed. According to the prior art, nozzles are made of high solid steel, hard metal, plastic or rubber. It has been shown that even a hard metal nozzle with a wall thickness of 5 to 6 mm after a throughput of 5 t of the mass only a wall thickness of about 0.5 mm points and is therefore no longer usable. By the high Wear soon breaks up the nozzle, so that the mass jet no longer focused on the area to be delivered occurs. The required spray density is also no longer reached and the rebound assumes impermissible values.

DE-OS 19 32 213 describes a nozzle insert for the sand radiate from the carbides, boron carbide, tungsten carbide, titanium carbide. The manufacture of the nozzle inserts from these But materials are very expensive. By U.S. Patent No. 21 10 634 a sandblasting nozzle made of silicon carbide or other carbides is known, in practice the silicon carbide has taken a back seat to the other carbides. Silicon carbide is known to be porous, which when used for Sandblasting nozzles but only allows a short service life.  

The object of the invention is in a Jet or spray nozzle of the type mentioned in the Resistance to the prevailing abrasive Improve masses and increase tool life.

According to the invention the above object is achieved in that the Silicon carbide is infiltrated with silicon.

The material of the lining according to the invention has one high hardness, wear resistance, corrosion resistance and erosion resistance even at high temperatures on. The lining keeps the wear from the abrasive Crowds stood comparatively long.

The feed preferably consists of approximately 90% by weight Silicon carbide and 10 wt .-% of silicon.

The feed can be in the form of a tubular nozzle which narrows conically towards the nozzle outlet and one has constant wall thickness. This can happen at the nozzle inlet Lining be formed into a flange-like collar.

The reaction-bonded and with silicon in filtered silicon carbide is obtained in a known manner from a mixture of silicon carbide and graphite powder, wherein the mixture is pressed into a molded article or before is preferably formed by the slip casting process. The molded body is then in contact with liquid or gaseous silicon. The silicon reacts with the graphite to form silicon carbide. The Silicon also fills the pores of the molded body, so that the feed obtained has practically no open pores having.  

The ceramic lining is resistant to damage due to operational stresses, such as shocks or Blows through a protective jacket made of an elastic Material protected. The protective jacket can, for example made of sheet metal or rubber.

Claims (2)

1. jet or spray nozzle, consisting of a lining made of reaction-bonded silicon carbide and a protective sheath enveloping it from an elastic material, characterized in that the silicon carbide is infiltrated with silicon. 2. jet or spray nozzle according to claim 1, characterized records that the feed is about 90 wt .-% silicon carbide and consists of 10 wt .-% of silicon.