Bulk solidifying amorphous alloys with improved mechanical properties
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C22C-045/00
C22B-009/04
C22C-005/04
출원번호
US-0480357
(2014-09-08)
등록번호
US-9745651
(2017-08-29)
발명자
/ 주소
Johnson, William
Schroers, Jan
출원인 / 주소
CRUCIBLE INTELLECTUAL PROPERTY, LLC
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
0인용 특허 :
71
초록▼
Bulk solidifying amorphous alloys exhibiting improved processing and mechanical properties and methods of forming these alloys are provided. The bulk solidifying amorphous alloys are composed to have high Poisson's ratio values. Exemplary Pt-based bulk solidifying amorphous alloys having such high P
Bulk solidifying amorphous alloys exhibiting improved processing and mechanical properties and methods of forming these alloys are provided. The bulk solidifying amorphous alloys are composed to have high Poisson's ratio values. Exemplary Pt-based bulk solidifying amorphous alloys having such high Poisson's ratio values are also described. The Pt-based alloys are based on Pt—Ni—Co—Cu—P alloys, and the mechanical properties of one exemplary alloy having a composition of substantially Pt57.5Cu14.7Ni5.3P22.5 are also described.
대표청구항▼
1. A bulk-solidifying amorphous alloy, comprising: Pt, Ni, Cu, and P and having a Poisson's ratio of at least 0.38, an elastic strain limit of at least 1.5%, and a fracture toughness K1c greater than 35 MPa m−1/2. 2. The bulk solidifying amorphous alloy of claim 1, wherein the bulk-solidifying amorp
1. A bulk-solidifying amorphous alloy, comprising: Pt, Ni, Cu, and P and having a Poisson's ratio of at least 0.38, an elastic strain limit of at least 1.5%, and a fracture toughness K1c greater than 35 MPa m−1/2. 2. The bulk solidifying amorphous alloy of claim 1, wherein the bulk-solidifying amorphous alloy exhibits a ductility of more than 10% under compression geometries with aspect ratio more than 2. 3. The bulk solidifying amorphous alloy of claim 1, wherein the bulk-solidifying amorphous alloy exhibits a bend ductility of more than 3% under bending geometries with thickness more than 2.0 mm. 4. The bulk solidifying amorphous alloy of claim 1, wherein the bulk-solidifying amorphous alloy exhibits a bend ductility of more than 20% under bending geometries with thickness of more than 2.0 mm. 5. The bulk solidifying amorphous alloy of claim 1, wherein the bulk solidifying amorphous alloy has a Poisson's ratio of 0.42 or higher. 6. The bulk solidifying amorphous alloy of claim 1, wherein the bulk-solidifying amorphous alloy is formed in a composite consisting of at least 10% of the bulk solidifying amorphous alloy. 7. The bulk solidifying amorphous alloy of claim 1, wherein the bulk solidifying amorphous alloy further comprises Co. 8. The bulk solidifying amorphous alloy of claim 1, wherein the bulk solidifying amorphous alloy has a fracture toughness of K1C>70 MPa m−1/2. 9. The bulk solidifying amorphous alloy of claim 1, wherein the bulk solidifying amorphous alloy is plastically deformable by more than 15% in an unconfined geometry under quasistatic compressive loading conditions. 10. The bulk solidifying amorphous alloy of claim 1, wherein the liquidus temperature is below 973 K. 11. The bulk solidifying amorphous alloy of claim 1, wherein the bulk-solidifying amorphous alloy has a glass transition temperature of less than about 251 degree C. 12. The bulk solidifying amorphous alloy of claim 1, wherein: the alloy further comprises Co; anda ratio of Cu to the total of Ni and Co is from about 0.1 to about 4. 13. A bulk solidifying amorphous alloy, comprising: Pt, Ni, Cu, and P, and having: an atomic percent of Pt between about 20 and 60;a Poisson's ratio of at least 0.38;an elastic strain limit of at least 1.5%; anda fracture toughness K1c greater than 35 MPa m−1/2. 14. The bulk solidifying amorphous alloy of claim 13, wherein the bulk-solidifying amorphous alloy composition is Pt57.5Cu14.7Ni5.3P22.5. 15. The bulk solidifying amorphous alloy of claim 13, wherein the bulk-solidifying amorphous alloy has a plastic region of up to 20% under compressive loading with aspect ratios of greater than 2. 16. The bulk solidifying amorphous alloy of claim 13, wherein a ratio of Cu to Ni is in a range from about 1 to about 4. 17. A bulk solidifying amorphous alloy, comprising: Pt, Cu, Co, and P, and having: a ratio of Cu to Co is in a range from about 1 to about 4;a Poisson's ratio of at least 0.38; andan elastic strain limit of at least 1.5%. 18. The bulk solidifying amorphous alloy of claim 17, wherein the bulk solidifying amorphous alloy has a critical crack radius of about 4 mm. 19. The bulk solidifying amorphous alloy of claim 17, further comprising Ni, wherein a ratio of Cu to the total of Ni and Co in a range from about 1 to about 4. 20. The bulk solidifying amorphous alloy of claim 17, wherein the bulk solidifying amorphous alloy is essentially free of Ni.
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