"Consideration of Viscoelasticity in Time Step FEM-Based Restraint Analyses of Hardening Concrete"
written by Dirk Schlicke, Nguyen Viet Tue,
published by Journal of Modern Physics, Vol.4 No.10B, 2013
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Advanced Computational Methods versus Analytical and Empirical Solutions for Determining Restraint Stresses in Bottom-Restrained Walls
2019
[2] FE-Study on the Effect of Gradient Concrete on Early Constraint and Crack Risk
Applied Sciences, 2018
[3] Comparison of tensile and compressive creep of fly ash concretes in the hardening phase
Cement and Concrete Research, 2017
[4] INFLUENCE OF FIBRE REINFORCEMENT ON THE INITIATION OF CORROSION-INDUCED CRACKS
2016
[5] Creep testing of concrete since setting time by means of permanent and repeated minute-long loadings
Cement and Concrete Composites, 2016
[6] Hardening-induced stresses in very thick concrete members–Insights from comprehensive FE-Studies
2016
[7] RESTRAINT AND CRACK WIDTH DEVELOPMENT DURING SERVICE LIFE REGARDING HARDENING CAUSED STRESSES
2015
[8] Minimum reinforcement for crack width control in restrained concrete members considering the deformation compatibility
Structural Concrete, 2015
[9] Serviceability and Stability of Unreinforced Mass Concrete Structures—EC 2-Compatible Design Concepts Derived from Comprehensive FE Studies on Real …
2015
[10] Creep of concrete at variable stresses and heating
2015
[11] Serviceability and Stability of Unreinforced Mass Concrete Structures—EC 2-Compatible Design Concepts Derived from Comprehensive FE Studies on Real …
2015
[12] STRUCTURAL ANALYSIS AND CRACK ASSESSMENT OF RESTRAINED CONCRETE WALLS-3D FEM-SIMULATION AND CRACK ASSESSMENT
2014
[13] Structural analysis and crack assessment of restrained concrete walls–3D FEM-simulation and crack assessment
2014
[14] Normative Regelungen zur unbewehrten Ausführung von massigen Betonbauteilen
2014