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The Relationship between Cobalt Amount and Oxidation Parameters in NiTiCo Shape Memory Alloys

Safar Saeed Mohammed, Mediha Kök, Zehra Deniz Cirak, İbrahim Nazem Qader, Fethi Dağdelen, Hanaa Shahab Ahmed Zardawi

2020The Physics of Metals and Metallography23 citationsDOI

Abstract

Abstract Coating shape-memory alloys (SMAs) with a ceramic layer is an important way by which metallurgists change some physical properties and improve biocompatibilities of (SMAs) for some medical purposes. The oxidation behaviors of five NiTiCo samples with different compositions were investigated and their influence on the thermal characteristics of phase transformation temperatures was studied. The kinetic oxidation as a function of time was determined by using the results of measurements via a combined method of the thermal gravimetrical (TG) and differential thermal (DT) analysis (TG/DTA), at 1323 K for one hour. The SEM-EDX results showed that an oxidation layer covered the surface of the alloys with ceramic compounds consisting of titanium and oxygen. The phase transformation temperatures were increased with respect to non-oxidized NiTiCo alloys. Likewise, the enthalpy change during the heating process was affected by the oxidation process.

Topics & Concepts

Differential thermal analysisCeramicShape-memory alloyCobaltMaterials scienceTitaniumMetallurgyCoatingLayer (electronics)EnthalpyOxygenChemical engineeringPhase (matter)RedoxThermal oxidationChemistryThermodynamicsComposite materialDiffractionOpticsEngineeringPhysicsOrganic chemistryShape Memory Alloy Transformations