Research on a new method for non-adhesive fixing of rockbolts

Purpose. Theoretical and experimental evaluation the mechanism of work, bearing capacity and pre-destructive deformations of the anchor system with a new nonadhesive fixing of bolts. Methodology. The research is conducted through the analytical method, using the base law of classical elasticity theo...

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Published inNatsional'nyi Hirnychyi Universytet. Naukovyi Visnyk no. 6; pp. 33 - 39
Main Authors Sakhno, I.G., Sakhno, S.V.
Format Journal Article
LanguageEnglish
Published Dnipropetrosk State Higher Educational Institution "National Mining University" 01.12.2018
Subjects
Adhesion tests
Anchor bolts
Anchoring
Anchors
Axial loads
Bearing capacity
Bolts
Coal mining
Compression
Concrete
Concrete pipes
Deformation
Deformation mechanisms
Elastic deformation
Elasticity
Energy absorption
Engineering
Fixing
Friction
Hydration
Laboratories
Laboratory tests
Mechanics
Polymer blends
Resins
Roads
Rocks
Solid phases
Work capacity
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Summary:Purpose. Theoretical and experimental evaluation the mechanism of work, bearing capacity and pre-destructive deformations of the anchor system with a new nonadhesive fixing of bolts. Methodology. The research is conducted through the analytical method, using the base law of classical elasticity theory, and the method of physical modeling. Laboratory tests on the axial load of bolts are made on a real scale on specimens of concrete filled in metal pipes. Three series of models were tested: two series with fixing bolts with self-expanding mixtures, and one series with adhesive fixing. The results are presented as "stress-strain" graphs. Findings. The range of fluctuation of bearing capacity of "bolt-expanding mixture-rock" system with the change in the main factors is analyzed analytically. The rated bearing capacity of the mentioned system is not less than that of the known energy-absorbing bolts. The mechanism of anchors attached to self-expandable mixtures is determined experimentally. The "load-deformation" curve has rigid and flexible zones, which is characteristic of energy-absorbing bolts. The maximum force of fixing anchors with expanding blends exceeds the effort for bolts fixed by resins more than twice, and the forces in the flexible mode are 67 % larger than the maximum ones in the experiment with fixing Cement KL (Orica) and 99 % more than the UF-MT-15 resin. Originality. The mechanism of active frictional fixing of anchor bolts by means of compression by mixtures extending in a solid phase in the process of hydration hardening is revealed. The created anchoring system has a high bearing capacity with large pre-destructive deformations. The efficiency of fixing anchor bolts with self-expanding mixture with hydration with the formation of pressure 30-50 MPa has been proved. Practical value. The use of research results allows increasing the efficiency of support of roadways by anchoring systems, as well as increasing the stability of rocks at large post elastic deformations.
ISSN:2071-2227
2223-2362
DOI:10.29202/nvngu/2018-6/3