Downloads: 97
Research Paper | Material Science and Engineering | Morocco | Volume 5 Issue 8, August 2016
Modeling of Thermodynamic Behavior of Systems with Low Departure to Ideality: Application to Au-Pb
Adiba RAIS [2] | Rachid LBIBB [2]
Abstract: A novel regular solution model has been developed to explain the thermodynamic behavior of systems presenting a low departure to ideality. The model is an extension of the regular solution model that discriminates between two forms of one component of binary alloy. The change of enthalpy of formation versus temperature is due to the transformation of one form into another when the temperature varies. The application of the model to the system Au-Pb allows us to explain its thermodynamic behavior by the existence of two forms of lead.
Keywords: Low departure to ideality, thermodynamic modeling, Au-Pb alloy
Edition: Volume 5 Issue 8, August 2016,
Pages: 1776 - 1779
Similar Articles with Keyword 'Low'
Downloads: 0
Research Paper, Material Science and Engineering, India, Volume 10 Issue 9, September 2021
Pages: 889 - 893Tribological Behaviour of Aluminium based Silicon Carbide with Additional Fillers of LM25 Alloy
Wadaje Smarnika Balasaheb | S. Y. Pawar
Downloads: 3 | Weekly Hits: ⮙2 | Monthly Hits: ⮙2
Doctoral Thesis, Material Science and Engineering, India, Volume 11 Issue 5, May 2022
Pages: 53 - 60Performance Probability Prediction of a Sandwich Panel with Honeycomb Core Structure
Nagalingeshwara V | S K Maharana