Mechanical Properties of a Metal-Matrix Composite Based on Copper and Aluminum, Obtained via Shear Deformation under Pressure
Results are presented from studying the structure and mechanical properties of an Al–Cu–Al metal-matrix composite obtained via shear under pressure on Bridgman anvils with grooves. The tensile strength is 485 MPa, considerably higher than that of either pure aluminum or copper. The main mechanism of...
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| Veröffentlicht in: | Bulletin of the Russian Academy of Sciences. Physics 2019-10, Vol.83 (10), p.1265-1269 |
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| container_title | Bulletin of the Russian Academy of Sciences. Physics |
| container_volume | 83 |
| creator | Kabirov, R. R. Nazarov, K. S. Korznikova, G. F. Khisamov, R. Kh Sergeyev, S. N. Nagimov, M. I. Mulyukov, R. R. |
| description | Results are presented from studying the structure and mechanical properties of an Al–Cu–Al metal-matrix composite obtained via shear under pressure on Bridgman anvils with grooves. The tensile strength is 485 MPa, considerably higher than that of either pure aluminum or copper. The main mechanism of failure is a viscous fracture along the Al matrix with no notable stratification along the interphase boundaries. |
| doi_str_mv | 10.3103/S1062873819100101 |
| format | Article |
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The main mechanism of failure is a viscous fracture along the Al matrix with no notable stratification along the interphase boundaries.</description><subject>Aluminum</subject><subject>Aluminum matrix composites</subject><subject>Anvils</subject><subject>Copper</subject><subject>Failure mechanisms</subject><subject>Grooves</subject><subject>Hadrons</subject><subject>Heavy Ions</subject><subject>Mechanical properties</subject><subject>Metal matrix composites</subject><subject>Nuclear Physics</subject><subject>Physics</subject><subject>Physics and Astronomy</subject><subject>Shear deformation</subject><subject>Tensile strength</subject><issn>1062-8738</issn><issn>1934-9432</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNp1kE1PwzAMhisEEmPwA7hF4kohbpo2OY7xKW3apMG58tKUZWqbkrQIDvx3Mg2JA-Jky-_z2JKj6BzoFQPKrldAs0TkTIAESoHCQTQCydJYpiw5DH2I411-HJ14v6WUc5nwUfQ112qDrVFYk6WznXa90Z7YiiCZ6x7reI69Mx9kapvOetNrcoNel8S2YdQFnmBbkkk9NKYdmkuyWPdo2gC8GySrjUZHbnVlXYO9Cc7QlkFZOu394PRpdFRh7fXZTx1HL_d3z9PHeLZ4eJpOZrFK8hTiVMlccuSpzlVeKUGFzDE0WSpFyagQ6ySnSHWluFqrjAIXUJWg8gxEJSSycXSx39s5-zZo3xdbO7g2nCwSBpAwDikPFOwp5az3TldF50yD7rMAWuy-XPz5cnCSveMD275q97v5f-kbRmV-cg</recordid><startdate>20191001</startdate><enddate>20191001</enddate><creator>Kabirov, R. 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| subjects | Aluminum Aluminum matrix composites Anvils Copper Failure mechanisms Grooves Hadrons Heavy Ions Mechanical properties Metal matrix composites Nuclear Physics Physics Physics and Astronomy Shear deformation Tensile strength |
| title | Mechanical Properties of a Metal-Matrix Composite Based on Copper and Aluminum, Obtained via Shear Deformation under Pressure |
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