Zachary Grasley
Zachary Grasley
Zachry Department of Civil Engineering, Texas A&M
Verified email at
Cited by
Cited by
Carbon nanotubes and carbon nanofibers for enhancing the mechanical properties of nanocomposite cementitious materials
BM Tyson, RK Abu Al-Rub, A Yazdanbakhsh, Z Grasley
Journal of Materials in Civil Engineering 23 (7), 1028-1035, 2011
Mechanical properties of nanocomposite cement incorporating surface-treated and untreated carbon nanotubes and carbon nanofibers
RK Abu Al-Rub, BM Tyson, A Yazdanbakhsh, Z Grasley
Journal of nanomechanics and micromechanics 2 (1), 1-6, 2012
Distribution of carbon nanofibers and nanotubes in cementitious composites
A Yazdanbakhsh, Z Grasley, B Tyson, RKA Al-Rub
Transportation Research Record 2142 (1), 89-95, 2010
Thermal dilation and internal relative humidity of hardened cement paste
ZC Grasley, DA Lange
Materials and Structures 40, 311-317, 2007
Internal relative humidity and drying stress gradients in concrete
ZC Grasley, DA Lange, MD D'Ambrosia
Materials and Structures 39, 901-909, 2006
Economic input-output life cycle assessment of concrete pavement containing recycled concrete aggregate
X Shi, A Mukhopadhyay, D Zollinger, Z Grasley
Journal of cleaner production 225, 414-425, 2019
A review of concrete properties at cryogenic temperatures: Towards direct LNG containment
RB Kogbara, SR Iyengar, ZC Grasley, EA Masad, DG Zollinger
Construction and Building Materials 47, 760-770, 2013
Carbon nano filaments in cementitious materials: some issues on dispersion and interfacial bond
A Yazdanbakhsh, ZC Grasley, B Tyson, RKA Al-Rub
ACI Special Publication 267, 21-34, 2009
A quantitative method for analyzing the dispersion and agglomeration of nano-particles in composite materials
BM Tyson, RKA Al-Rub, A Yazdanbakhsh, Z Grasley
Composites Part B: Engineering 42 (6), 1395-1403, 2011
Short-term creep of cement paste during nanoindentation
CA Jones, ZC Grasley
Cement and Concrete Composites 33 (1), 12-18, 2011
Dynamic pressurization method for measuring permeability and modulus: II. cementitious materials
ZC Grasley, GW Scherer, DA Lange, JJ Valenza
Materials and Structures 40, 711-721, 2007
Desiccation shrinkage of cementitious materials as an aging, poroviscoelastic response
ZC Grasley, CK Leung
Cement and Concrete Research 41 (1), 77-89, 2011
Dispersion quantification of inclusions in composites
A Yazdanbakhsh, Z Grasley, B Tyson, RKA Al-Rub
Composites Part A: Applied Science and Manufacturing 42 (1), 75-83, 2011
The theoretical maximum achievable dispersion of nanoinclusions in cement paste
A Yazdanbakhsh, Z Grasley
Cement and Concrete Research 42 (6), 798-804, 2012
Challenges and benefits of utilizing carbon nanofilaments in cementitious materials
A Yazdanbakhsh, Z Grasley, B Tyson, RA Al-Rub
Journal of Nanomaterials 2012, 1-8, 2012
RETRACTED: Behavior assessment, regression analysis and support vector machine (SVM) modeling of waste tire rubberized concrete
M Jalal, H Jalal
Journal of Cleaner production 273, 122960, 2020
The use of microfine cement to enhance the efficacy of carbon nanofibers with respect to drying shrinkage crack resistance of portland cement mortars
J Hogancamp, Z Grasley
Cement and Concrete Composites 83, 405-414, 2017
Modeling drying shrinkage stress gradients in concrete
ZC Grasley, DA Lange
ASTM International, 2004
Measuring and modeling the time-dependent response of cementitious materials to internal stresses
ZC Grasley
Constitutive modeling of the aging viscoelastic properties of portland cement paste
ZC Grasley, DA Lange
Mechanics of Time-Dependent Materials 11, 175-198, 2007
The system can't perform the operation now. Try again later.
Articles 1–20