DE3740916A1 - Screw with wear-protection layer for plastics processing machines, and method of applying the protection layer - Google Patents

Abstract

An extruder or plasticating screw has on its screw flight a wear-protection layer, in particular of molybdenum, which is applied by flame or plasma spraying and is compacted and fused with the underlying material by laser treatment.

Description

The invention relates to a screw for plastic processing machines of the type mentioned in the preamble of An pronounced 1 type, as well as a procedure for bring the wear protection layer of such a snail.

Screws in plastic processing machines, in particular Extruder and plasticizing screws are subject to Be drove heavy wear through the plastic melt and especially by direct friction on the Cylinder wall. This applies particularly to snails of twin screw extruders, as these melt through are subjected to a bending load.

It has been known for about 20 years, the webs of Extruder screws using a flame spraying process, later also by means of plasma spraying, with wear to provide protective layers. With this procedure can different metals and metal oxides as well Find metal alloys as spray materials. The surface on which the spray layer is applied  requires prior roughening, which in most Felling is achieved by sandblasting.

However, the spray layer does not work with the substrate intimate chemical connection. No one comes metallurgical melting of the substrate and thus no connection of the spray layer with the sub reason by melting or fusing. The liability of the spritz layer on the surface results from the mechanical The sprayed metal particles get caught in the roughened Underground.

This mechanical, purely physical liability of the sprayer layer on the surface has under certain bean spalling of the sprayed layer result. There is also infiltration of the sprayed Layer possible through corrosive media.

To overcome these disadvantages of flame or plasma spraying To avoid applied layers, a ver drive developed in which the wear protection layer by build-up welding, especially by a Powder welding process was applied. Here can the desired metallurgical connection between Protective layer and substrate are achieved, it result but other disadvantages.  

The worm bar must have one of the side bars limited groove so that the weld pool during of the welding process does not run away.

Welding with powder (or electrodes), in which the under Ver high molybdenum fractions is problematic because of the risk of cracking education exists. This danger can only be avoided by Her counteracting the molybdenum content in the electrode, however, which causes the lubricating or emergency running properties the protective layer. The regeneration of worn screws by cladding which is wear-and-tear screw bars uneconomical. The one required for welding Preparation processing and reworking of the screws bridges is too extensive.

The invention has for its object a Snail of the type mentioned and the procedure for opening bring the protective layer to improve so that with a a good connection of the protective layer is achieved with the underground without restrictions regarding the choice of material for the protective layer and / or accepted the design of the snail land Need to become.  

The problem is solved in claims 1 and 5 specified.

The post-treatment of spray coatings by high performance laser is known per se (metal surface 41 (1987) 7, Pp. 329-332). Use on extruders or plastifiers snails, however, bring special, previously unrecognized Advantages and, in particular, allows the protective layer across the full width of the screw flight, including its edges to apply.

An embodiment of the invention is based on the Drawing explained in more detail. This shows schematically one Snail during laser post-treatment.

The screw flight 3 of the screw 1 is provided on its head track with a protective layer 5 made of preferably pure molybdenum, which is moved by a thermal spray, in particular flame or plasma spraying. The laser beam 7 of a high-power laser 9, which is focused in a suitable manner, provides for an aftertreatment by means of which both the protective layer 5 and the substrate are melted in the laser focus. This forms a welding or alloy layer 11 that metallurgically connects the protective layer to the substrate. At the same time, layer 5 , which is still porous after spraying, is compressed. A protective gas can be supplied through a tube 13 .

With this method, it is no longer necessary to form a groove delimited by edge webs on the screw web. The protective layer can extend over the full width of the screw web and ensure the wear protection effect, particularly at the edges of the web. The movement and / or power of the laser beam 7 can be controlled so that the protective layer 5 and its connection with the substrate in the region of the web edges is particularly reinforced.

The method can also be designed so that the Spray on the layer and melt it down using Laser beam can be carried out in one operation.

The thickness of the protective layer 5 is shown exaggerated in the drawing. It is a particular advantage of the invention that because of the intimate connection of the protective layer with the substrate, the thickness of the protective layer can be chosen to be smaller than was previously possible. A maximum thickness of 0.5 mm, preferably 0.2 to 0.4 mm should be sufficient for most purposes.

The method according to the invention is also particularly suitable good for already useless due to wear snails by renewing the protective layer regenerate.

Claims (5)

1. Screw for plastic processing machines, in particular extruder or plasticizing screw, with a protective layer applied to the top web of the screw webs by thermal spraying from a wear-resistant alloy, characterized in that the protective layer is melted by laser beam treatment in the material of the screw web. 2. Snail according to claim 1, characterized records that the protective layer over the ge including the entire width of the top track of the screw flight Lich extends their edges. 3. Snail according to claim 2, characterized records that the protective layer on the edges of the Struts reinforced and / or stronger with the subsurface is fused than in the middle of the header. 4. Screw according to one of claims 1 to 3, characterized characterized that the protective layer  made of molybdenum or one predominantly, in particular more than 90% alloy containing molybdenum. 5. Procedure for applying wear protection layer on screw bars of extruder or plastifi ornamental screws for plastic processing machines, at which the protective layer of metal with good wear properties, in particular made of molybdenum or an over alloy containing molybdenum, by thermal Syringes applied to the top track of the screw flight is characterized in that the Protective layer through treatment with a high performance laser compacted and by melting with the factory material of the screw flight is metallurgically bonded.