Fengling Zhang
- (2024): Effect of key design parameters on the physical / mechanical properties of coarse aggregated UHPC and its structural response subjected to bending. Dans: Construction and Building Materials, v. 448 (octobre 2024).
- (2024): Pore structure of CO2-cured seawater sea-sand concrete with sufficient carbonation and its mechanical behaviors under uniaxial compression. Dans: Materials and Structures, v. 57, n. 5 (16 mai 2024).
- (2024): Effects of Chloride, Humidity, and Concrete Mix on the Electrochemical Parameters of Steel Reinforcement Corrosion. Dans: Journal of Materials in Civil Engineering (ASCE), v. 36, n. 8 (août 2024).
- (2024): Ultrasonic pulse velocity as a non-destructive measure for the projectile impact resistance of cementitious composites across a wide range of mix compositions. Dans: Journal of Building Engineering, v. 94 (octobre 2024).
- (2024): Experimental and numerical investigation of dynamic tensile behavior of granite-concrete bimaterials with different rough interfaces. Dans: Journal of Building Engineering, v. 84 (mai 2024).
- (2023): The micro–mechanical mechanism of multiple cracking behavior induced by interface strengthening for UHPC. Dans: Construction and Building Materials, v. 403 (novembre 2023).
- (2022): Reduction of SO42− and Cl− migration rates and degradation of silica nanoparticles incorporated cement pastes exposed to co-existence of sulfate, chloride and electric fields. Dans: Construction and Building Materials, v. 344 (août 2022).
- (2022): Shear behaviour of interface between normal-strength concrete and UHPC: Experiment and predictive model. Dans: Construction and Building Materials, v. 342 (août 2022).
- (2022): A parametric study on the high-velocity projectile impact resistance of UHPC using the modified K&C model. Dans: Journal of Building Engineering, v. 46 (avril 2022).
- (2019): Effects of pozzolanic and non-pozzolanic nanomaterials on cement-based materials. Dans: Construction and Building Materials, v. 213 (juillet 2019).
- (2018): Role of nano-SiO2 in improving the microstructure and impermeability of concrete with different aggregate gradations. Dans: Construction and Building Materials, v. 188 (novembre 2018).
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