High hardness, high elasticity intermetallic compounds for mechanical components

One or more substitutional elements may be used to reduce the solution treatment temperature and required quench rates for hardening of 60-NITINOL. The advantages of modified NITINOL include that less energy is consumed during the heat treatment process, the material is subjected to less thermal dis...

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Main Authors Stanford, Malcolm K, DellaCorte, Christopher, Noebe, Ronald D, Thomas, Fransua, Bigelow, Glen
Format Patent
LanguageEnglish
Published 30.07.2019
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Abstract One or more substitutional elements may be used to reduce the solution treatment temperature and required quench rates for hardening of 60-NITINOL. The advantages of modified NITINOL include that less energy is consumed during the heat treatment process, the material is subjected to less thermal distortion, and less machining is required. Modified NITINOL may have adequate hardness for bearing applications and may display highly elastic behavior.
AbstractList One or more substitutional elements may be used to reduce the solution treatment temperature and required quench rates for hardening of 60-NITINOL. The advantages of modified NITINOL include that less energy is consumed during the heat treatment process, the material is subjected to less thermal distortion, and less machining is required. Modified NITINOL may have adequate hardness for bearing applications and may display highly elastic behavior.
Author Bigelow, Glen
Noebe, Ronald D
Stanford, Malcolm K
DellaCorte, Christopher
Thomas, Fransua
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Snippet One or more substitutional elements may be used to reduce the solution treatment temperature and required quench rates for hardening of 60-NITINOL. The...
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SubjectTerms ALLOYS
CHEMISTRY
FERROUS OR NON-FERROUS ALLOYS
METALLURGY
TREATMENT OF ALLOYS OR NON-FERROUS METALS
Title High hardness, high elasticity intermetallic compounds for mechanical components
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