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Stress Evolution in Early-Age Cementitious Materials Considering Autogenous Deformation and Creep
Stress Evolution in Early-Age Cementitious Materials Considering Autogenous Deformation and Creep: New experimental and modelling techniques
Peanut shaped auxetic cementitious cellular composite (ACCC)
Peanut shaped auxetic cementitious cellular composite (ACCC)
Automatic enhancement of vascular configuration for self-healing concrete through reinforcement learning approach
Automatic enhancement of vascular configuration for self-healing concrete through reinforcement learning approach
Experimentally informed modeling of the early-age stress evolution in cementitious materials using exponential conversion from creep to relaxation
Experimentally informed modeling of the early-age stress evolution in cementitious materials using exponential conversion from creep to relaxation
Autogenous deformation-induced stress evolution in cementitious materials considering viscoelastic properties
Autogenous deformation-induced stress evolution in cementitious materials considering viscoelastic properties: A review of experiments and models
Two scale models for fracture behaviours of cementitious materials subjected to static and cyclic loadings
Two scale models for fracture behaviours of cementitious materials subjected to static and cyclic loadings
Deep residual learning for acoustic emission source localization in A steel-concrete composite slab
Deep residual learning for acoustic emission source localization in A steel-concrete composite slab
Effects of temperature on autogenous deformation and early-age stress evolution in cement pastes with low water to cement ratio
Effects of temperature on autogenous deformation and early-age stress evolution in cement pastes with low water to cement ratio
Distribution of porosity surrounding a microfiber in cement paste
Distribution of porosity surrounding a microfiber in cement paste
Ultra-thin Strain Hardening Cementitious Composite (SHCC) layer in reinforced concrete cover zone for crack width control
Ultra-thin Strain Hardening Cementitious Composite (SHCC) layer in reinforced concrete cover zone for crack width control
On the chemo-mechanical evolution process of high-volume slag cement paste
On the chemo-mechanical evolution process of high-volume slag cement paste
Predicting micromechanical properties of cement paste from backscattered electron (BSE) images by computer vision
Predicting micromechanical properties of cement paste from backscattered electron (BSE) images by computer vision
Lattice modelling of early-age creep of 3D printed segments with the consideration of stress history
Lattice modelling of early-age creep of 3D printed segments with the consideration of stress history
Does early age creep influence buildability of 3D printed concrete? Insights from numerical simulations
Does early age creep influence buildability of 3D printed concrete? Insights from numerical simulations
Autogenous deformation induced- stress evolution in high-volume GGBFS concrete
Autogenous deformation induced- stress evolution in high-volume GGBFS concrete: Macro-scale behavior and micro-scale origin
Can superabsorbent polymers be used as rheology modifiers for cementitious materials in the context of 3D concrete printing?
Can superabsorbent polymers be used as rheology modifiers for cementitious materials in the context of 3D concrete printing?
Early-age creep of 3D printable mortar
Early-age creep of 3D printable mortar: Experiments and analytical modelling
Rheology control of limestone calcined clay cement pastes by modifying the content of fine-grained metakaolin
Rheology control of limestone calcined clay cement pastes by modifying the content of fine-grained metakaolin
Bayesian Inverse Modelling of Early-Age Stress Evolution in GGBFS Concrete Due to Autogenous Deformation and Aging Creep
Bayesian Inverse Modelling of Early-Age Stress Evolution in GGBFS Concrete Due to Autogenous Deformation and Aging Creep
A New Method to Quantitatively Characterize the Porosity of Fiber/Matrix Interfacial Transition Zone (ITZ) via Longitudinal Cross-Sections
A New Method to Quantitatively Characterize the Porosity of Fiber/Matrix Interfacial Transition Zone (ITZ) via Longitudinal Cross-Sections
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