Wear-resistant sleeve for a gas nozzle for encapsulating a cutting gas jet

What is claimed is: 1. A sleeve for a gas nozzle, comprising: a sleeve main body; and a sleeve end face, wherein the sleeve end face is formed at least in part by a wear protection element composed of a more wear-resistant material than that of the sleeve main body, wherein one or both of an inner or an outer beveled portion of the sleeve end face is formed at least in part by the wear protection element, and wherein a surface portion of the sleeve on which a gas pressure of a gas acts in a forward direction when the sleeve is arranged inside a gas nozzle is 1.2 to 1.4 as large as the surface portion of the sleeve on which the gas pressure acts in a backward direction. 2. The sleeve of claim 1 , wherein one or both of the inner or the outer beveled portion of the sleeve end face are formed solely by the wear protection element. 3. The sleeve of claim 1 , wherein a wall thickness of the wear protection element in an inner portion of the sleeve main body adjoining the sleeve end face is less than half a wall thickness of the sleeve. 4. The sleeve of claim 1 , wherein a wall thickness of the wear protection element in an inner portion of the sleeve main body adjoining the sleeve end face is less than 2 mm. 5. The sleeve of claim 4 , wherein the wall thickness of the wear protection element in the inner portion of the sleeve main body adjoining the sleeve end face is less than 1.5 mm. 6. The sleeve of claim 1 , wherein an axial length of an overlap region between the wear protection element and the sleeve main body is between 1 mm and 3 mm. 7. The sleeve of claim 1 , wherein the wear protection element is formed at least in part of a material with a melting temperature higher than 400° C., a hardness and modulus of elasticity at least as great as those of aluminum, a thermal conductivity and reflectivity with respect to infrared radiation at least as great as those of stainless steel, and a tendency of adhesion of metal spatter is at most as great as that of stainless steel. 8. The sleeve of claim 1 , wherein the wear protection element is formed at least in part of a metal material. 9. The sleeve of claim 8 , wherein the metal material is a copper alloy, aluminum alloy, a metal oxide, or metal nitride. 10. The sleeve of claim 9 , wherein the alloy is one of tin-phosphorus-bronze, copper-tellurium, or hard brass. 11. The sleeve of claim 1 , wherein the sleeve main body is formed of an electrically non-conducting material. 12. The sleeve of claim 11 , wherein the sleeve main body is formed of a plastics material or ceramics material. 13. The sleeve of claim 11 , wherein the sleeve main body is formed of a thermoplastic material. 14. The sleeve of claim 11 , wherein the sleeve main body is formed of polyether ether ketone. 15. The sleeve of claim 1 , wherein the sleeve end face is formed in part by a circumferential flange of the sleeve main body on which the wear protection element is fastened. 16. The sleeve of claim 15 , wherein a thickness of the wear protection element protruding beyond the circumferential flange corresponds to at least half a thickness of the circumferential flange. 17. The sleeve of claim 15 , wherein the wear protection element covers the flange completely. 18. The sleeve of claim 1 , wherein the wear protection element is annular or tubular in shape and comprises on an outer circumferential face one or more annular projections. 19. The sleeve of claim 1 , wherein the wear protection element and the sleeve main body are fitted into one another. 20. The sleeve of claim 1 , wherein the wear protection element is adhesively bonded to the sleeve main body. 21. The sleeve of claim 1 , wherein the wear protection element is connected to the sleeve main body by an interlocking and/or force-based connection. 22. A gas nozzle for a laser processing head, comprising: a nozzle body with an opening, and a sleeve surrounding the opening that is guided on the nozzle body such that the sleeve is displaceable axially forwards and backwards and a sleeve end face of which protrudes beyond the nozzle body at least in a front end position, wherein the sleeve comprises a sleeve main body and the sleeve end face, wherein the sleeve end face is formed at least in part by a wear protection element composed of a more wear-resistant material than that of the sleeve main body, wherein one or both of an inner or an outer beveled portion of the sleeve end face is formed at least in part by the wear protection element, and wherein a surface portion of the sleeve on which a gas pressure of a gas acts in a forward direction when the sleeve is arranged inside the gas nozzle is 1.2 to 1.4 as large as the surface portion of the sleeve on which the gas pressure acts in a backward direction.