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Hosein Hasannezhad
Hosein Hasannezhad
Other namesHosein Hasan-nezhad, Hossein Hasannezhad
Sahand University of Technology
Verified email at sut.ac.ir
Title
Cited by
Cited by
Year
Energy absorption characteristics of aluminum sandwich panels with Shear Thickening Fluid (STF) filled 3D fabric cores under dynamic loading conditions
M Jeddi, M Yazdani, H Hasan-nezhad
Thin-Walled Structures 168, 108254, 2021
302021
High-and low-velocity impact experiments on treated STF/3D glass fabrics
H Hasan-nezhad, M Yazdani, M Jeddi
Thin-Walled Structures 171, 108720, 2022
292022
Mechanical behavior of 3D GFRP composite with pure and treated shear thickening fluid matrix subject to quasi-static puncture and shear impact loading
H Hasan-nezhad, M Yazdani, M Salami-Kalajahi, M Jeddi
Journal of Composite Materials 54 (26), 3933-3948, 2020
242020
Study the effects of PEG modification methods on the resistance of 3D E-glass woven-STF composites at quasi-static and low-velocity impact loads
H Hasan-nezhad, M Yazdani, A Akbari, M Salami-Kalajahi, MR Kalhori
Journal of Molecular Liquids 362, 119781, 2022
162022
The effect of graphene and graphene oxide on defective single lap adhesively bonded joints
E Abdi, A Khabaz-Aghdam, H Hasan-nezhad, B Behjat, EAS Marques, ...
Journal of Composite Materials 56 (17), 2665-2675, 2022
152022
Investigate the dynamic compressive (cushioning) response of 3D GFRP composites when the STF matrix base material is modified PEG
H Hasannezhad, M Yazdani
Journal of Molecular Liquids 366, 120304, 2022
142022
Experimental Study on Puncture Resistance of 2D and 3D Glass Fabrics Reinforced with Shear Thickening Fluid
M Jeddi, M Yazdani, H Hasan-nezhad
AUT Journal of Mechanical Engineering 6 (1), 31-44, 2022
82022
Investigating the effect of temperature, angular frequency, and strain on the rheological properties of shear thickening fluid (STF) with different weight fractions of fumed silica
S Astaraki, E Zamani, M Moghadam, MH Pol, H Hasannezhad
Colloid and Polymer Science 302 (1), 1-11, 2024
52024
Investigating the energy absorption properties of sandwich panels filled with shear thickening fluid with a weight fraction of 35% under low-velocity impact
S Astaraki, E Zamani, MH Pol, H Hasan-nezhad
Journal of Composite Materials 58 (3), 361-375, 2024
32024
Characterization of the mechanical energy absorption of honeycomb core sandwich panels filled with shear thickening fluid under low speed impact
S Astaraki, E Zamani, MH Pol, H Hasannezhad
Mechanics of Time-Dependent Materials, 1-21, 2024
22024
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Articles 1–10