Method and apparatus for avoiding erosion in a high pressure die casting hot sleeve for use with low iron aluminum silicon alloys

What is claimed is: 1. A shot sleeve for high pressure die casting of aluminum silicon alloys containing 0.40% max Fe, the shot sleeve comprising: a top portion including a pouring hole; and a bottom portion, the bottom portion including an impingement site on an inner surface of the bottom portion opposite the pouring hole; wherein the impingement site is constructed of an erosion resistant material that prevents erosion from the aluminum silicon alloys through insolubility in molten aluminum. 2. The shot sleeve of claim 1 wherein the erosion resistant material is selected from one of the following elements: titanium, tungsten, molybdenum, ruthenium, tantalum, niobium, chromium, vanadium, zirconium, hafnium, boron or rhenium, or a secondary, tertiary or quaternary alloy formed from combination thereof. 3. The shot sleeve of claim 2 wherein the erosion resistant material is spray welded to the impingement site. 4. The shot sleeve of claim 2 wherein the erosion resistant material is circular welded to the impingement site. 5. The shot sleeve of claim 2 wherein the erosion resistant material is a powdered material that is laser welded to the impingement site. 6. The shot sleeve of claim 1 wherein the erosion resistant material comprises at least 85% of one of the following elements: titanium, tungsten, molybdenum, ruthenium, tantalum, niobium, chromium, vanadium, zirconium, hafnium, boron or rhenium. 7. The shot sleeve of claim 6 wherein the erosion resistant material is spray welded to the impingement site. 8. The shot sleeve of claim 6 wherein the erosion resistant material is circular welded to the impingement site. 9. The shot sleeve of claim 6 wherein the erosion resistant material is a powdered material that is laser welded to the impingement site. 10. The shot sleeve of claim 3 wherein the shot sleeve further comprises: an outer surface having an outer diameter; an inner surface having an inner diameter; the pouring hole extending from the outer surface through to the inner surface; wherein the inner surface is spray welded or circular welded with the erosion resistant material. 11. The shot sleeve of claim 6 wherein the shot sleeve further comprises: an outer surface having an outer diameter; an inner surface having an inner diameter; the pouring hole extending from the outer surface through to the inner surface; wherein the erosion resistant material is a powdered material that is laser welded to the inner surface of the shot sleeve. 12. The shot sleeve of claim 1 wherein the erosion resistant material is an alloy consisting essentially of 90% by weight tungsten, 4% by weight molybdenum, 4% by weight nickel, and 2% by weight iron. 13. The shot sleeve of claim 12 wherein the erosion resistant material is spray welded to the impingement site. 14. The shot sleeve of claim 12 wherein the erosion resistant material is circular welded to the impingement site. 15. The shot sleeve of claim 12 wherein the erosion resistant material is a powdered material that is laser welded to the impingement site. 16. The shot sleeve of claim 12 wherein the shot sleeve further comprises: an outer surface having an outer diameter; an inner surface having an inner diameter; the pouring hole extending from the outer surface through to the inner surface; wherein the inner surface is spray welded or circular welded with the erosion resistant material. 17. The shot sleeve of claim 12 wherein the shot sleeve further comprises: an outer surface having an outer diameter; an inner surface having an inner diameter; the pouring hole extending from the outer surface through to the inner surface; wherein the erosion resistant material is a powdered material that is laser welded to the inner surface of the shot sleeve. 18. The shot sleeve of claim 1 wherein the shot sleeve further comprises: an outer surface having an outer diameter; an inner surface having an inner diameter; the pouring hole extending from the outer surface through to the inner surface; wherein the impingement site comprises an insert having a length, an outer surface, an inner surface, and located circumferentially opposite from the pouring hole. 19. The shot sleeve of claim 18 , wherein the insert is bolted to the shot sleeve. 20. The shot sleeve of claim 18 , wherein the insert is press fit along the inner surface of the shot sleeve. 21. The shot sleeve of claim 1 wherein the shot sleeve further comprises: an outer surface having an outer diameter; an inner surface having an inner diameter; the pouring hole extending from the outer surface through to the inner surface; wherein the impingement site is located circumferentially opposite from the pouring hole and comprises an insert mechanically adhered to the shot sleeve.