Development of a Rheology Analogical Material for Time-Based Rock Masses

Xu Guang Chen; Yu Mei; Xin Zhang; Qiang Chen

doi:10.4028/www.scientific.net/AMR.838-841.967

Paper Titles

Influence of Ancient River Covering Layer Shear-Wave Velocity Variation on Plane Primary Waves
p.948

The Compaction Method of Backfill Site with Loess and the Tests of Soil Parameters
p.953

The Reaction Degree Analysis of Fly Ash in the Cement-Peat Soil
p.958

Influence on CBR for Graded Crushed Rock on the Base of Port
p.962

Development of a Rheology Analogical Material for Time-Based Rock Masses
p.967

Impact-Resistant Analysis of Fixed Reinforced Concrete Beam with Composite Laminates
p.972

Simultaneous Adsorption of Oxytetracycline and Copper(II) onto Loess Soil: Kinetics Properties and the Effects of pH
p.976

Experimental Study on Shear Strength of Root-Soil Composite of Different Grass and Shrub Plants in Three Gorges Reservoir Region
p.981

Preliminary Study on Microscopic Mechanism of Stress-Induced Anisotropy for Coarse-Grained Soil
p.987

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 838-841Development of a Rheology Analogical Material for...

Development of a Rheology Analogical Material for Time-Based Rock Masses

Abstract:

The paper presents the development of a similar material to simulate the soft rock type in engineering, especially the time-depending behavior. The iron, barite and cement are selected to be the aggregate and the solution of rosin is selected as the glue. To improve the plasticity and rheology behavior, chlorinated paraffin was added, too. Laboratory test was carried by construct the specimens using a mould. The uniaxial complex modulus test and indirect tensile strength test were performed to obtain the basic mechanical behavior. And the rheology test was carried by a self-developed rheology test machine to research on the time-depending behavior. By laboratory test, the influence of the each component on the mechanical behavior was determined. Results show that the effects of component ratio and solution thickness on the material mechanical behavior. The rheology behavior was especially well simulated by the similar material developed.

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Periodical:

Advanced Materials Research (Volumes 838-841)

Pages:

967-971

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.838-841.967

Citation:

Cite this paper

Online since:

November 2013

Authors:

Xu Guang Chen, Yu Mei, Xin Zhang, Qiang Chen

Keywords:

Analogical Material, Mechanical Test, Rheology Behavior, Rock in Deep Embedded Engineering, Self-Developed Device

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