论文信息 - Developing a Discrete Element Model for simulating fresh concrete: Experimental investigation and modelling of interactions between discrete aggregate particles with fine mortar between them

Developing a Discrete Element Model for simulating fresh concrete: Experimental investigation and modelling of interactions between discrete aggregate particles with fine mortar between them

Abstract The article at hand presents an investigation with the objective of developing of a material model for adequate simulation of the rheological behaviour of fresh concrete using the Discrete Element Method (DEM). The methodology for investigation of the interaction between neighbouring particles with some amount of viscoelastic material between them is explained. The experimental investigations were performed with various materials: polymer solutions in water (material with time-independent rheological behaviour) and two types of fresh mortar (with time-dependent rheological behaviours). Characteristic material behaviours for various loading regimes are presented and critically discussed. On the basis of the experimentally obtained force–displacement relations a material model for interaction of neighbouring solid particles in normal direction is developed. This model can be directly introduced in codes based on the Distinct Element Method.

Viktor Mechtcherine | Sergiy Shyshko | V. Mechtcherine | Sergiy Shyshko

[1] Sofiane Amziane,et al. Flowability of fibre-reinforced concrete and its effect on the mechanical properties of the material , 2010 .

[2] Bharat Bhushan,et al. Adhesion and stiction: Mechanisms, measurement techniques, and methods for reduction , 2003 .

[4] Johan Silfwerbrand,et al. Numerical simulation of fresh SCC flow: applications , 2011 .

[5] Jürgen Tomas,et al. Adhesion of ultrafine particles—A micromechanical approach , 2007 .

[6] Viktor Mechtcherine,et al. Virtual concrete laboratory — Continuous numerical modelling of concrete from fresh to the hardened state , 2007 .

[7] Taketo Uomoto,et al. Three-dimensional discrete element simulation of rheology tests of self-compacting concrete , 1999 .

[8] J. Piau,et al. Carbopol gels: Elastoviscoplastic and slippery glasses made of individual swollen sponges: Meso- and macroscopic properties, constitutive equations and scaling laws , 2007 .

[9] O. Basaran,et al. Deformation and breakup of stretching bridges of Newtonian and shear-thinning liquids: comparison of one- and two-dimensional models , 2001 .

[10] Yongzhi Zhao,et al. Liquid bridge force between two unequal-sized spheres or a sphere and a plane , 2011 .

[11] Klaas van Breugel,et al. Towards a Model for Fresh Granular-Paste Systems Based on Discrete Element Method , 2010 .

[13] G. Georgiou,et al. Determination of the Rheological Parameters of Self-Compacting Concrete Matrix Using Slump Flow Test , 2010 .