H
Hamid Garmestani
Researcher at Georgia Institute of Technology
Publications - 267
Citations - 7474
Hamid Garmestani is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Microstructure & Texture (crystalline). The author has an hindex of 41, co-authored 258 publications receiving 6293 citations. Previous affiliations of Hamid Garmestani include Cornell University & Florida A&M University – Florida State University College of Engineering.
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Journal ArticleDOI
Enhancement of thermal and electrical properties of carbon nanotube polymer composites by magnetic field processing
Eun Sang Choi,James S. Brooks,D. L. Eaton,Marwan Al-Haik,M. Y. Hussaini,Hamid Garmestani,Dongsheng Li,Klaus Hermann Dahmen +7 more
TL;DR: In this paper, the thermal and electrical properties of single wall carbon nanotube (CNT)-polymer composites are significantly enhanced by magnetic alignment during processing, and the electrical transport properties are mainly governed by the hopping conduction with localization lengths comparable to bundle diameters.
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Properties of carbon nanotube-polymer composites aligned in a magnetic field
Erin Camponeschi,Richard Vance,Richard Vance,Marwan Al-Haik,Hamid Garmestani,Rina Tannenbaum,Rina Tannenbaum +6 more
TL;DR: In this article, the effect of orientation and alignment of carbon nanotubes (CNTs) embedded in an epoxy polymer matrix under a magnetic field on the mechanical properties of the resulting nanocomposite was investigated.
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Polymer‐Mediated Alignment of Carbon Nanotubes under High Magnetic Fields
Hamid Garmestani,Marwan Al-Haik,Klaus Hermann Dahmen,Rina Tannenbaum,Dongsheng Li,S. S. Sablin,M. Y. Hussaini +6 more
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Microstructure-sensitive design of a compliant beam
TL;DR: In this article, the authors considered polycrystalline microstructure as a continuous design variable and used a spectral representation space for the design of a compliant fixed-guided beam.
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Fabrication of core-shell structured Ni@BaTiO3 scaffolds for polymer composites with ultrahigh dielectric constant and low loss
TL;DR: In this paper, a novel design of dielectric composites consisting of core-shell structured porous Ni@BaTiO3 scaffolds infiltrated with epoxy was developed, and it was demonstrated that the dielectrics of the composites could be as high as 6397@10 kHz, which is approximately 1777 times higher than pure epoxy matrix (er.