Ali Ghahremaninezhad

Associate Professor

Phone:
(305) 284-3465
Locator Code:
0630
 
Career

Education

2011Ph.D. Engineering Mechanics University of Texas at Austin, Austin, Texas
2003M.S. Structural Engineering Sharif University of Technology, Tehran, Iran
2001B.S. Civil Engineering Sharif University of Technology, Tehran, Iran

Professional Experience

2019 - PresAssociate Professor, University of Miami
2012 - 2019Assistant Professor, University of Miami
2011 - 2012Instructor, University of Texas
2011 - 2012Postdoctoral Fellow, University of Texas
2005 - 2011Graduate Research Assistant, University of Texas
2005 - 2010Teaching Assistant, University of Texas

Honors & Acknowledgements

NSF CAREER Award

Dr. Ali Ghahremaninezhad receives the NSF CAREER Award titled "Bio-Inspired Genetically Engineered Self-Healing for Cementitious Materials"

Research

Research Website

Advanced Materials Research Lab

Research Interests

NSF CAREER Award: Dr. Ali Ghahremaninezhad receives the NSF CAREER Award titled Bio-Inspired Genetically Engineered Self-Healing for Cementitious Materials.NSF MRI Award: Dr. Ali Ghahremaninezhad (PI) receives the NSF MRI Award titled MRI: Acquisition of a High-Resolution X-Ray Micro-Computed Tomography System for multidisciplinary and Integrated Research and Education. ANNOUNCEMENT: Ph.D. Research Positions in Bio-Inspired Self-Healing of Cementitious MaterialsPh.D. research positions are available immediately in the Advanced Materials Research Lab at the University of Miami to perform interdisciplinary research in the area of bio-inspired self-healing of cementitious materials. Highly motivated applicants are encouraged to send a CV to Dr. Ali Ghahremaninezhad via email at a.ghahremani@miami.edu.

Juried or Refereed Journal Articles or Exhibitions

Kamali, M., Ghahremaninezhad, A. (2018).A Study of Calcium-Silicate-Hydrate/Polymer Nanocomposites Fabricated Using the Layer-By-Layer Method. Materials, 11, 527.

Frota Bashuni, M., Kamali, M., Ghahremaninezhad, A. (2018).A study on the hydration, strength and electrical resistivity of ternary cementitious materials containing recycled glass powder. Frontiers of Structural and Civil Engineering, 1-10.

Farzanian, K., Ghahremaninezhad, A. (2018).Desorption of superabsorbent hydrogels with varied chemical compositions in cementitious materials. Mater. Struct., 51, 3.

Kamali, M., Ghahremaninezhad, A. (2018).Effect of Biomolecules on the Nanostructure and Nanomechanical Property of Calcium-Silicate-Hydrate. Scientific Reports, 8, 9491.

Farzanian, K., Ghahremaninezhad, A. (2018).On the Effect of Chemical Composition on the Desorption of Superabsorbent Hydrogels in Contact with a Porous Cementitious Material. Gels, 4, 70.

Farzanian, K., Ghahremaninezhad, A. (2018).On the interaction between superabsorbent hydrogels and blended mixtures with supplementary cementitious materials. Advances in Civil Engineering Materials, 7, 567-589.

Kamali, M., Ghahremaninezhad, A. (2017).An investigation into the influence of superabsorbent polymers on the properties of glass powder modified cement pastes. Constr. Build. Mater., 149, 236-247.

Kamali, M., Ghahremaninezhad, A. (2017).An Investigation into the Properties and Microstructure of Cement Mixtures Modified with Cellulose Nanocrystal. Materials, 10, 1-16.

Wehbe, Y., Ghahremaninezhad, A. (2017).Combined effect of shrinkage reducing admixtures (SRA) and superabsorbent polymers (SAP) on the autogenous shrinkage, hydration and properties of cementitious materials. Constr. Build. Mater., 138, 151-162.

Farzanian, K., Ghahremaninezhad, A. (2017).The effect of the capillary forces on the desorption of hydrogels in contact with porous cementitious material. Mater. Struct., 50, 216.

Gooranorimi, O., Ghahremaninezhad, A. (2016). Investigating surface morphology and cracking during lithiation of Al anodes. AIMS Mater. Sci., 3, 1632–1648.

Kamali, M., Ghahremaninezhad, A. (2016).Investigating the hydration and microstructure of cement pastes modified with glass powders. Constr. Build. Mater., 112, 915–924.

Teixeira, K. P., Rocha, I. P., Carneiro, L. D., Flores, J., Dauer, E. A., Ghahremaninezhad, A. (2016).The effect of curing temperature on the properties of cement pastes modified with TiO2 nanoparticles. Materials , 9, 1-15.

Farzanian, K., Teixeira, K. P., Rocha, I. P., De Sa Carneiro, L., Ghahremaninezhad, A. (2016).The mechanical strength, degree of hydration, and electrical resistivity of cement pastes modified with superabsorbent polymers. Constr. Build. Mater., 109, 156–165.

Kamali, M., Ghahremaninezhad, A. (2015).An investigation into the hydration and microstructure of cement pastes modified with glass powders. Construction and Building Materials, Accepted..

Kamali, M., Ghahremaninezhad, A. (2015).Effect of glass powders on the mechanical and durability properties of cementitious materials. Construction and Building Materials, 98.

Boyce, B., Kramer, S., Fang, H., Cordova, T., Neilson, M., Dion, K., Kaczmarowski, A., Karasz, E., Xue, L., Gross, A., Ghahremaninezhad, A., Ravi-Chandar, K., Lin, S., Chi, S., Chen, J. (2014).The Sandia Fracture Challenge: blind round robin predictions of ductile tearing. International Journal of Fracture, 186, May-68.

Ghahremaninezhad, A., Ravi-Chandar, K. (2013).Crack nucleation from a notch in a ductile material under shear dominant loading. International Journal of Fracture, 184, 253-266.

Ghahremaninezhad, A., Ravi-Chandar, K. (2013).Ductile failure behavior of polycrystalline Al 6061-T6 under shear dominant loading. International Journal of Fracture, 180, 23-39.

Ghahremaninezhad, A., Ravi-Chandar, K. (2012).Deformation and failure in nodular cast iron. Acta Materialia, 60, 2359-2368.

Ghahremaninezhad, A., Ravi-Chandar, K. (2012).Ductile failure behavior of polycrystalline Al 6061-T6. International Journal of Fracture, 174, 177-202.

Ghahremaninezhad, A., Ravi-Chandar, K. (2011).Ductile failure in polycrystalline OFHC copper. International Journal of Solids and Structures, 48, 3299-3311.

Shadja, H. M., Ghahremaninezhad, A. (2006).An FGM coated elastic solid under thermomechanical loading: A two dimensional linear elastic approach. Surface and Coatings Technology, 200, 4050-4064.