@misc{balasoiu_microstructure_of_2008, 
author={Balasoiu, M., Craus, M.L., Kuklin, A.I., Plestil, J., Haramus, V., Islamov, A.H., Erhan, R., Anitas, E.M., Lozovan, M., Tripadus, V., Petrescu, C., Savu, D., Savu, S., Bica, I.},
title={Microstructure of magnetite doped elastomers investigated by SAXS and SANS},
year={2008},
howpublished = {journal article},
abstract = {Pseudo-Voigt function. It was found that the Fe3O4 particles lead to a significant change of the local structure of elastomer, meaning the decrease of the quasi-crystalline phase and the micro-strains into the matrix. The average particle size obtained from SANS measurements agrees well with the average particle size determined by XRD and SAXS analysis. The splitting of the SANS intensity owing to an additional scattering in zero field reflects the existence of magnetic correlations inside the Q region of 0.005 Å -1< Q < 0.02 Å -1.},
note = {Balasoiu, M.; Craus, M.; Kuklin, A.; Plestil, J.; Haramus, V.; Islamov, A.; Erhan, R.; Anitas, E.; Lozovan, M.; Tripadus, V.; Petrescu, C.; Savu, D.; Savu, S.; Bica, I.: Microstructure of magnetite doped elastomers investigated by SAXS and SANS. Journal of Optoelectronics and Advanced Materials. 2008. vol. 10, no. 11, 2932-2935.}}