Bulk amorphous refractory glasses based on the Ni(-Cu-)-Ti(-Zr)-Al alloy system

What is claimed is: 1. A glass forming alloy consisting of an alloy having a composition given by: Ni 100-a-b-c-d Ti a Zr b Al c Cu d , where 15<a<18, 27<b<30, 9<c<11, 3<d<7. 2. The glass forming alloy described in claim 1 wherein the alloy has a ΔTsc of more than 40° C. 3. The glass forming alloy described in claim 1 wherein the alloy has a Vickers hardness greater than 700 Kg/mm 2 . 4. The glass forming alloy described in claim 1 wherein the alloy has a yield strength of greater than 2.5 GPa. 5. The glass forming alloy described in claim 1 wherein the alloy has a Young's modulus of greater than 140 GPa. 6. The glass forming alloy described in claim 1 wherein the alloy has a ratio of glass transition temperature to liquidus temperature of around 0.6 or more. 7. The glass forming alloy described in claim 1 wherein the alloy is substantially amorphous. 8. The glass forming alloy described in claim 1 wherein the alloy contains a ductile crystalline phase precipitate. 9. The glass forming alloy described in claim 1 wherein the critical cooling rate is less than about 1,000° C./sec. 10. A glass forming alloy consisting of an alloy having a composition given by: Ni 100-a-b-c-d Ti a Zr b Al c CU d Ni 100-a-b-c-d Ti a Zr b Al c Cu d , where 15<a<18, 27<b<30, 9<c<11, 3<d<7, and a+b+c+d is in the range of from 58 to 61. 11. The glass forming alloy described in claim 10 wherein the critical cooling rate is less than about 1,000° C./sec. 12. A three dimensional article made from the alloy of claim 1 having an amorphous phase. 13. A three dimensional article made from the alloy of claim 10 having an amorphous phase. 14. The glass forming alloy of claim 1 having a composition of Ni 40 Ti 16 Zr 28 Al 10 Cu 6 . 15. The glass forming alloy of claim 1 having a composition of Ni 40 Ti 17 Zr 28 Al 10 Cu 5 . 16. A Ni-based glass forming alloy consisting of Ni, Ti, Zr, and Al, wherein a critical casting thickness of the glass forming alloy is 2 mm or more, wherein a content of Al is about 8 to about 17 atomic percent, wherein the critical casting thickness is a maximum thickness for which fully amorphous strips are obtained by metal mold casting. 17. The Ni-based glass forming alloy of claim 16, wherein the atomic percent of Al is greater than 8 and less than 12. 18. The Ni-based glass forming alloy of claim 16, wherein a content of Zr is about 25 to about 37 atomic percent. 19. The Ni-based glass forming alloy of claim 16, wherein a content of Zr is 29 to about 37 atomic percent, wherein the Ni-based glass forming alloy is a bulk amorphous alloy. 20. A Ni-based glass forming alloy consisting of Ni, Ti, Zr, Al, TM, ETM and AM, given by the formula: (Ni 1-x TM x ) a ((TiZr) 1-y ETM y ) b (Al 1-z AM z ) c wherein a is in the range of from 37-49, b is in the range of 38 to 52, c is in the range of 8 to 12 atomic percentages; wherein ETM is a metal selected from the group consisting of Hf, Nb, Ta, V, Cr, Mo, and W, TM is a transition metal selected from the group of Cu, Co, Fe, Mn, and AM is an additive material selected from the group of Si, Sn, Ge, B, Sb and wherein x is less than 0.2, y is less than 0.2, z is less than about 0.3 and the content of Ti is more than 13 atomic percent and the Zr content is more than 30 atomic percent and wherein a critical casting thickness of the glass forming alloy is 0.5 mm or more.