1. Mostaan, H., M. Shamanian, S. Hasani, M. Safari and J.A. Szpunar, 2017..Nd:YAG laser micro-welding of ultra-thin feco–v magnetic alloy: Optimization of weld strength. Trans. Nonferrous Met. Soc. China Accepted, 10.1016/S1003-6326(17)60196-1.
   CrossRef  |  Direct Link  |  
2. Hasani, S., M. Shamanian, A. Shafyei, M. Nezakat, H. Mostaan and J.A. Szpunar, 2017. Effect of recrystallization and phase transitions on the mechanical properties of semihard magnetic feco-7.15v alloy during the thermomechanical process. Metall. Mater. Trans. A, 48: 1903-1909.
   Direct Link  |  
3. Davar, F., N. Shayan, A.H. Najafabadi, V. Sabaghi and S. Hasani, 2016. Development of ZrO2-MgO nanocomposite powders by themodified sol-gel method. Int. J. Appl. Ceram. Technol., 10.1111/ijac.12624.
   CrossRef  |  Direct Link  |  
4. Mostaan, H., M. Shamanian, S.M. Monirvaghefi, S. Hasani and J.A. Szpunar, 2015. Structure and magnetic properties response of ultra-thin feco-v foils to high energy beam welding processes. Int. J. Miner., Metal. Mate., 22: 1090-1098.
5. Mostaan, H., M. Shamanian, S.M. Monirvaghefi, P. Behajti and S. Hasani, 2015. 2015Analysis and characterization of microstructural evolutions, mechanical response and fracture mechanism of laser welded fe–co–v ultra-thin foils. Opt. Laser Technol., 68: 211-219.
   CrossRef  |  Direct Link  |  
6. Hasani, S., M. Shamanian, A. Shafyei, P. Behjati, P. Sahu and J.A. Szpunar, 2015. Electron microscopy study on grain boundary characterizations of fe–co–v alloy during annealing. Vacuum, 114: 1-5.
   CrossRef  |  Direct Link  |  
7. Hasani, S., M. Shamanian, A. Shafyei, P. Behjati, H. Mostaan, T. Juuti and J.A. Szpunar, 2015. Correlation between magnetic properties and allotropic phase transition of Fe-Co-V alloy. Acta Metal. Sin. (English Letters), 68: 1055-1058.
   Direct Link  |  
8. Hasani, S., M. Shamanian, A. Shafyei, P. Behjati, J.A. Szpunar and M.F. - Moghaddam, 2015. Influence of annealing treatment on micro/macro-texture and texture dependent magnetic properties in cold rolled feco–7.15v alloy. J. Magnetism Magn. Mater., 378: 253-260.
   CrossRef  |  Direct Link  |  
9. Hasani, S., M. Shamanian, A. Shafyei, P. Behjati, J. A. Szpunar and M.F. Moghaddam, 2014. Nano/sub-micron crystallization of Fe–Co–7.15V alloy by thermo-mechanical process to improve magnetic properties. Mart. Sci. Eng. B, 190: 96-103.
   Direct Link  |  
10. Hasani, S., M. Shamanian, A. Shafyei, P. Behjati and J.A. Szpunar, 2014. Non-isothermal kinetic analysis on the phase transformations of fe–co–v alloy. Therm. Acta, 596: 89-97.
    Direct Link  |  
11. Hasani, S., A.P. Soleymani, M. Panjepour and A. Ghaei, 2014. A Tension analysis during oxidation of pure aluminum powder particles: Non-isothermal condition. Oxid. Met., 82: 209-224.
    Direct Link  |  
12. Hasani, S., M. Panjepour and M. Shamanian, 2014. Non-isothermal kinetic analysis of oxidation of pure aluminum powder particles. Oxid. Met., 81: 299-313.
    Direct Link  |  
13. Hasani, S., M. Panjepour and M. Shamanian, 2012. The oxidation mechanism of pure aluminum powder particles. Oxid. Met., 78: 179-195.
    Direct Link  |  
14. Hasani, S., M. Panjepour and M. Shamanian, 2012. Oxidation and kinetic analysis of pure aluminum powder under nonisothermal condition. J. Mat. Sci. Eng., 1: 1-8.
15. Hasani, S., M. Panjepour and M. Shamanian, 2012. Effect of atmosphere and heating rate on mechanism of mosi2 formation during self-propagating high-temperature synthesis. J. Therm. Anal. Calorim., 107: 1073-1081.
    Direct Link  |  
16. Hasani, S., M. Panjepour and M. Shamanian, 2010. A study of the effect of aluminum on mosi2 formation by self-propagation high-temperature synthesis. J. Alloy Compd., 502: 80-86.
    CrossRef  |  Direct Link  |