education and training
selected publications
Academic Articles69
- Baranikumar, A., Torrence, C. E., & Grasley, Z. (2022). Thermorheological approach to predict long-term creep of cement mortar from short-term tests. Mechanics of Time-Dependent Materials. 26(2), 289-307.
- Murru, P. T., Grasley, Z., Torrence, C., Rajagopal, K. R., & Garboczi, E. (2022). Density driven damage mechanics (D3-M) model for concrete II: fully coupled chemo-mechanical damage. The International Journal of Pavement Engineering. 23(4), 1175-1185.
- Murru, P. T., Torrence, C., Grasley, Z., Rajagopal, K. R., Alagappan, P., & Garboczi, E. (2022). Density-driven damage mechanics (D3-M) model for concrete I: mechanical damage. The International Journal of Pavement Engineering. 23(4), 1161-1174.
- Baranikumar, A., Torrence, C. E., & Grasley, Z. (2022). Temperature dependence of viscoelastic Poisson's ratio of cement mortar (vol 54, pg 1, 2021). Materials and Structures/Materiaux et Constructions. 55(2), 68.
- Baranikumar, A., Torrence, C. E., & Grasley, Z. (2021). Temperature dependence of viscoelastic Poisson's ratio of cement mortar. Materials and Structures/Materiaux et Constructions. 54(3), 101.
Conference Papers11
- Kogbara, R. B., Iyengar, S. R., Grasley, Z. C., Zollinger, D. G., & Masad, E. A. (2018). Use of non-destructive tests to explain manifested pore structure changes in cryogenic concrete. IOP Conference Series: Materials Science and Engineering. 431(12), 122003-122003.
- Li, X., Rahman, S., & Grasley, Z. C. (2016). Modeling Creep and Relaxation Caused by Phase Dissolution. Conference Proceedings of the Society for Experimental Mechanics Series. 2, 73-81.
- Kogbara, R. B., Parsaei, B., Iyengar, S. R., Grasley, Z. C., Masad, E. A., & Zollinger, D. G. (2014). Evaluating damage potential of cryogenic concrete using acoustic emission sensors and permeability testing. Proceedings of SPIE, Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2014. 9061, 90613b-90613b-9.
- Grasley, Z. C. (2010). Closed-form solutions for uniaxial passive restraint experiments. Aci Special Publications. (270 SP), 17-31.
patents
Patents1
researcher on
Principal Investigator6
- Concrete and Composites Experiments and Modeling for Army Applications awarded by Department of Defense 2019 - 2024
awards and honors
recent teaching activities
- CVEN207 Intro Civil Engrg Profsn Instructor
- CVEN305 Mechanics Of Materials Instructor
- CVEN306 Materials Engr Cven Engr Instructor
- CVEN342 Materials Of Const Instructor
- CVEN343 Concrete Matls For Ce Instructor
chaired theses and dissertations
- Mylapore Ganesh, Ramnath (2018-07). On the Comprehensive Optimization of the Process and Quality Control Framework in Portland Cement Production Testing Using QXRD-Based Accuracy Calibration. (Master's Thesis)
- Livingston Rose, Jeffryd Rose (2018-03). Mechanics of Accelerated Autogenous Healing of Concrete Water Distribution Systems Damaged by Cracking and Decalcification. (Doctoral Dissertation)
- Li, Xiaodan (2017-01). Computational Modeling of the Time-dependent Behavior of Cementitious Materials. (Doctoral Dissertation)
- Rahman, Syeda Farhana (2016-08). Modeling Deformation of Freezing Concrete: Towards the Identification of D-Cracking Susceptible Aggregates and Construction of All Concrete LNG Tanks. (Doctoral Dissertation)
- Yazdanbakhsh, Ardavan (2012-10). Production, Characterization, and Mechanical Behavior of Cementitious Materials Incorporating Carbon Nanofibers. (Doctoral Dissertation)
Email
zgrasley@tamu.edu
First Name
Zachary
Last Name
Grasley
mailing address
Texas A&M University; Civil Engineering; 3136 TAMU
College Station, TX 77843-3136
USA