Bulk nickel-based glasses bearing chromium, niobium, phosphorus and silicon

What is claimed: 1. An alloy capable of forming a metallic glass represented by the following formula (subscripts a, b, c, and d denote atomic percentages): Ni (100-a-b-c-d) Cr a Nb b P c Si d , where a is between 2 and 18, b is between 1 and 6, c is between 16 and 20, d is up to 4, wherein the alloy is entirely free of boron, and wherein the critical rod diameter of the alloy is at least 1 mm. 2. The alloy according to claim 1 where a is between 3 and 16, b is between 2 and 5, c is between 16.5 and 19.5, d is between 0 and 3, wherein the critical rod diameter of the alloy is at least 3 mm. 3. The alloy according to claim 1 where a is between 4 and 14, b is between 2.5 and 4.5, c is between 17.5 and 19, d is between 0.5 and 2.5, wherein the critical rod diameter of the alloy is at least 5 mm. 4. The alloy according to claim 1 where a is between 5 and 7, b is between 2.5 and 4.5, c is between 17.5 and 19, d is between 0.5 and 2.5, wherein the critical rod diameter of the alloy is at least 6 mm. 5. The alloy according to claim 1 where a is between 8 and 13, b is between 2.5 and 4.5, c is between 17.5 and 19, d is between 0.5 and 2.5, wherein the critical rod diameter of the alloy is at least 6 mm. 6. The alloy according to claim 1 where a is between 9 and 12, b is between 3 and 4, c is between 17.5 and 18.5, d is between 1 and 2, wherein the critical rod diameter of the alloy is at least 8 mm. 7. The alloy according to claim 1 where the sum of c and d is between 18.5 and 21, wherein the critical rod diameter of the alloy is at least 3 mm. 8. The alloy according to claim 7 where the sum of c and d is between 19 and 20, wherein the critical rod diameter of the alloy is at least 6 mm. 9. The alloy according to claim 1 where up to 30 atomic percent of Ni is substituted by Co. 10. The alloy according to claim 1 where up to 10 atomic percent of Ni is substituted by Fe. 11. The alloy according to claim 1 where up to 5 atomic percent of Ni is substituted by Cu. 12. The alloy according to claim 1 where up to 2 atomic percent of Cr is substituted by Mo, Mn, Fe, Co, W, Ru, Re, Cu, Pd, Pt, or combinations thereof. 13. The alloy according to claim 1 where up to 1 atomic percent of Nb is substituted by Mo, Mn, Ta, V, or combinations thereof. 14. A metallic glass comprising the alloy according to claim 1 . 15. The metallic glass of claim 14 wherein the notch toughness of the metallic glass is at least 60 MPa m 1/2 . 16. A method of producing the metallic glass of claim 14 comprising: melting the alloy into a molten state; and quenching the melt at a cooling rate sufficiently rapid to prevent crystallization of the alloy. 17. The method of claim 16 , further comprising fluxing the melt with a reducing agent prior to quenching. 18. The method of claim 17 , wherein the reducing agent is boron oxide. 19. The method of claim 16 , wherein the temperature of the melt prior to quenching is at least 1200° C. 20. The method of claim 16 , wherein the temperature of the melt prior to quenching is at least 200° above the liquidus temperature of the alloy.