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- Two scale models for fracture behaviours of cementitious materials subjected to static and cyclic loadings
- Predicting micromechanical properties of cement paste from backscattered electron (BSE) images by computer vision
- Predicting early-age stress evolution in restrained concrete by thermo-chemo-mechanical model and active ensemble learning
- A review of printing strategies, sustainable cementitious materials and characterization methods in the context of extrusion-based 3D concrete printing
- Microstructure-informed deep convolutional neural network for predicting short-term creep modulus of cement paste
- Towards understanding deformation and fracture in cementitious lattice materials: Insights from multiscale experiments and simulations
- Stress evolution in restrained GGBFS concrete due to autogenous deformation: bayesian optimization of aging creep
- Experimental investigation of the short-term creep recovery of hardened cement paste at micrometre length scale
- Assessing strain rate sensitivity of cement paste at the micro-scale through micro-cantilever testing
- Modeling of microstructural effects on the creep of hardened cement paste using an experimentally informed lattice model
- Microstructure informed micromechanical modelling of hydrated cement paste: Techniques and challenges
- Experimentally validated meso-scale fracture modelling of mortar using output from micromechanical models
- Effect of printing parameters on interlayer bond strength of 3D printed limestone-calcined clay-based cementitious materials: An experimental and numerical study
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