1. On the Concentration and Phase-relation Dependence of Seebeck Coefficient and the Contact Angle in Metallic Solutions
- Author
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Gergo Megyer, Akos Hambalgo, Attila Szabó, and Antal Lovas
- Subjects
Materials science ,Mechanical Engineering ,Alloy ,Aerospace Engineering ,Thermodynamics ,Electronic structure ,engineering.material ,law.invention ,Amorphous solid ,Contact angle ,law ,Electrical resistivity and conductivity ,Modeling and Simulation ,Seebeck coefficient ,Automotive Engineering ,engineering ,Wetting ,Crystallization - Abstract
The focus of this paper is the deeper understanding of the effect of the change in the electronic structure on the wetting angle and transport properties. For this purpose, using the alloys from the earlier study, the thermopower has been measured and the Seebeck coefficient has also been determined in room temperature (solidified state). During the experiments in both case the modification of the electronic structure were performed by alloying on a way, that the investigated systems are terminal (α) solutions in solid state. The concentration dependence of property changes are interpreted on the bases of free electron model elaborated earlier for this alloy types. This prediction fits well also to the concentration dependence of heat of formation in these alloys. Similar concentration dependence has been also found between the Seebeck coefficient, the resistivity and the heat of mixing in α-phase Fe-Ni alloys. The shift of thermopower were also monitored in order to detect the crystallization (first oreder transformation) starting form amorphous Fe-B alloys.
- Published
- 2018
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