CN1654954A - Method for taking values of mechanical and hydraulic properties of rock mass structural plane - Google Patents

Abstract

This invention relates to a large rock structure face mechanics and hydraulics property value fetch method including the following steps: uniformly arranging two test section of 10cm and 30cm demanded by statistics corresponding to the required measurement directions on a small size rock and plotting profile curves of the above mentioned section, measuring the fluctuation amplitudes of the profile curves, computing the factor value of each section roughness to compute the desired values based on the roughness factor E(JRCo), E(JRC30), obtaining D30 of JRC diameter effect to be substituted into a related JRC effect rate formula to get the Ln-f relationship map, when f=50%, the related sample length on Ln-f curve -the roughness efficiency is Ln taken as the substitution formula of rock structure face mechanics and hydraulics property value fetch.

Description

Rock mass discontinuity mechanics, hydraulics character obtaining value method

(1) technical field

The present invention relates to large scale rock mass discontinuity mechanics, hydraulics character obtaining value method, be applicable to the occasion of the rock mass discontinuity with waterpower, hydraulics character size effect being carried out large scale rock mass discontinuity mechanics, hydraulics character value.

(2) background technology

Before the present invention makes, still there are not large scale rock mass discontinuity mechanics, hydraulics character obtaining value method at present.In the rock mass engineering project practice, because cost height, long in time limit, difficult big, seldom carry out large scale rock mass discontinuity mechanics, hydraulics test, carry out small scale (general 10cm * 10cm to 20cm * indoor mechanics 20cm), mechanics, the hydraulics character index of hydraulics property test usually so that rock mass discontinuity to be provided.And rock mass discontinuity mechanics, hydraulics character have size effect character, owing to do not have rock mass discontinuity mechanics, hydraulics character obtaining value method, according to the indoor mechanics of small scale, hydraulics property test result, can't determine mechanics, the hydraulics character index of large-scale structure face again, make the indoor mechanics of small scale, hydraulics test result be difficult to the reduction of process size effect and directly apply to the calculating of engineering rock mass estimation of stability.

(3) summary of the invention

The objective of the invention is to solve do not have large scale rock mass discontinuity mechanics, the shortcoming of hydraulics character obtaining value method, provide a kind of principle simple, easy to operate, with low cost, result of use is good, is convenient to carry out on the small scale structures face method of large scale rock mass discontinuity mechanics, hydraulics character value.

Large scale rock mass discontinuity mechanics of the present invention, hydraulics character obtaining value method comprise following sequential steps:

(1) on the small size rock mass discontinuity, corresponding required direction of measurement arranges that evenly statistics requisite number purpose length is respectively the survey section of 10cm and 30cm, adopts profilograph to draw the contour curve of above-mentioned survey section;

(2) measure the relief intensity R that above-mentioned 10cm surveys each contour curve of section _Y0, by formula ${\mathrm{JRC}}_{}$ ${}_0=49.2114e^{\frac{29}{450}}\arctan \left[\frac{4{\mathrm{<figure-callout\; id="0"\; label="R\; y"\; filenames="A20051004895500102.png"\; state="\{\{state\}\}">R</figure-callout>}}_y}{5}\right]$ Calculate each 10cm respectively and survey section roughness coefficient JRC ₀Value is surveyed the different roughness coefficient of section according to each 10cm and is calculated JRC ₀Expectation value E (JRC ₀);

(3) measure the relief intensity R that above-mentioned 30cm surveys each contour curve of section _Y30, by formula ${\mathrm{JRC}}_{30}=49.2114e^{\frac{29{\mathrm{<figure-callout\; id="0"\; label="L"\; filenames="A20051004895500102.png"\; state="\{\{state\}\}">L</figure-callout>}}_0}{450L_{30}}}\arctan \left[\frac{8R_{Y30}}{L_{30}}\right]$ Calculate each 30cm respectively and survey section roughness coefficient JRC ₃₀Value is surveyed the different roughness coefficient of section according to each 30cm and is calculated JRC ₃₀Expectation value E (JRC ₃₀);

(4) by JRC size effect fractal model $E\left(\mathrm{JR}{C}_{30}\right)=E\left(\mathrm{JR}{C}_0\right){\left[\frac{L_{30}}{L_0}\right]}^{-D_{30}},$ Conversion obtains rock mass discontinuity JRC size effect Fractal dimensions ₃₀

(5) the JRC size effect Fractal dimensions that step (4) is obtained ₃₀The relative JRC size effect of value substitution rate formula $f=\frac{{\left(0.1L_0\right)}^{-D_{30}}-{({0.1L}_n-1)}^{-D_{30}}}{2^{-D_{30}}-1},$ Carry out sample length L _nSensitivity analysis with relative JRC size effect rate f obtains L _n-f graph of a relation, as shown in Figure 1.At L _nOn-f the graph of a relation, when getting f=5%, L _nSample length corresponding on the-f relation curve is rock structural plane roughness coefficient stable threshold L _n ^*

(6) the rock structural plane roughness coefficient stable threshold L that step (5) is determined _n ^*,, just can carry out large scale rock mass discontinuity mechanics, hydraulics character value as rock mass discontinuity mechanics, the following formula of hydraulics stable in properties threshold value substitution.

${\mathrm{\&tau;}}_{\mathrm{peak}\left(n\right)}={\mathrm{\&tau;}}_{\mathrm{peak}\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_1}---\left(1\right)$

$c_{\left(n\right)}=c_{\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_3}---\left(3\right)$

$d_{\left(n\right)}=d_{\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_4}---\left(4\right)$

${\mathrm{\&delta;}}_{\mathrm{peak}\left(n\right)}={\mathrm{\&delta;}}_{\mathrm{peak}\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{D_5}---\left(5\right)$

$k_{s\left(n\right)}=k_{s\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_6}---\left(6\right)$

$K_{\left(n\right)}=K_{\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_7}---\left(7\right)$

Above-listed various in, τ, , c, d, δ, k and K represent respectively that rock mass structural plane shearing strength, rock mass discontinuity peak value angle of friction, rock mass discontinuity cohesion, rock mass discontinuity peak value are cut bloated angle, the rock mass discontinuity peak value is cut displacement, rock mass discontinuity normal stiffness and rock mass discontinuity infiltration coefficient, subscript n is represented the mechanics or the hydraulics character of large scale rock mass discontinuity, and 0 representative experiment size (is L ₀=structure face mechanic or hydraulics character 10cm) time.D ₁, D ₂, D ₃, D ₄, D ₅, D ₆And D ₇Divide and to represent rock mass structural plane shearing strength, rock mass discontinuity peak value angle of friction, rock mass discontinuity cohesion, rock mass discontinuity peak value to cut the size effect fractal dimension that displacement, rock mass discontinuity normal stiffness and rock mass discontinuity infiltration coefficient are cut in bloated angle, rock mass discontinuity peak value.

Employing the present invention have the following advantages: the rock mass discontinuity mechanical property is stable mechanical property, has embodied each matter opposite sex, anisotropy, heterogencity and the size effect of rock mass discontinuity mechanical property, has objectivity and reliability.The rock mass discontinuity mechanical property is directly applied to engineering rock mass carry out Calculation on stability evaluation and perviousness analysis, just can obtain objective, reliable engineering rock mass stability and infiltration property evaluation result.Large scale rock mass discontinuity mechanics, hydraulics character obtaining value method principle are simple, owing to only need (to carry out the statistical measurement of roughness coefficient on the rock mass discontinuity of 30cm * 30cm) and realize very easily in small size, with low cost, result of use is good, be convenient to determine large scale rock mass discontinuity mechanics, hydraulics character value, solve indoor mechanics, hydraulics property test result's size effect reduction problems of value, have bigger implementary value and economic results in society.

(4) description of drawings

Fig. 1 is L _n-f graph of a relation

Fig. 2 is Xiao Langdi SSE group joint L _n-f relation curve

(5) embodiment

Studies show that, the size effect of rock mass discontinuity mechanics, hydraulics character is mainly caused by the size effect of roughness coefficient, so can carry out large scale rock mass discontinuity mechanics, hydraulics character value with the rock structural plane roughness coefficient stable threshold as rock mass discontinuity mechanics, hydraulics stable in properties threshold value.Diorite joint, Beishan Mountain sampling size is that the JRC statistical measurements of 10cm to 100cm is found, the JRC size effect fractal dimension (D of the different sampling sizes of same structural plane equidirectional _n) have a relative stability, D _nValue is around a certain eigenwert D _n ^*Fluctuation (is D up and down _n ^*-δ≤D _n≤ D _n ^*+ δ, δ are residual error, D _n ^*Represent sample length less than L _nThe JRC size effect fractal dimension eigenwert of scope inner structure face).Actual measurement statistics substitution JRC size effect fractal model with different sampling size roughness coefficients $D=-\frac{\lg \left[\frac{\mathrm{JR}{C}_n}{\mathrm{JR}{C}_0}\right]}{\lg \left[\frac{L_n}{L_0}\right]}$ Carry out the least square regression analysis and can ask for D _n ^*Value, be L with sampling size ₃₀=30cm roughness coefficient JRC ₃₀Actual measurement statistical value substitution JRC size effect fractal model $D_{30}=-\frac{\lg \left[\frac{\mathrm{JR}{C}_{30}}{\mathrm{JR}{C}_0}\right]}{\lg \left[\frac{L_{30}}{L_0}\right]}$ Can obtain D ₃₀Value, to J _1-1The D of 16 samples of joint four measuring direction _n ^*And D ₃₀Field data carries out statistical study opening relationships formula D _n ^*=0.897D ₃₀This character has determined to use small-scale structure surface roughness coefficient measurement result D ₃₀Analyze the stable threshold of large scale rock structural plane roughness coefficient, and then estimate the stability of large scale rock mass discontinuity mechanics, hydraulics character; The result of study at diorite joint, the Beishan Mountain shows, at L _n≤ 10 ⁶In the scope of cm, JRC size effect fractal dimension eigenwert D _n ^*(can be by D ₃₀Expression) is subjected to sampling size L _nThe influence that changes is very responsive, this phenomenon explanation JRC size effect fractal dimension index (D ₃₀) determine that the roughness coefficient stable threshold has very high sensitivity.Above-mentioned two point discoveries have proved by D ₃₀Mensuration ask for the science and the rationality of roughness coefficient stable threshold, can by the roughness coefficient stable threshold ask for determine rock mass discontinuity mechanics, hydraulics stable in properties threshold value, carry out large scale rock mass discontinuity mechanics, hydraulics character value.

Choose Xiaolangdi Dam Project wind and rain ditch west side slope rock mass SSE group joint, be respectively 10cm and the 30cm contour curve is tried to achieve JRC according to 387 sample lengths ₀, JRC ₃₀Statistical measures, and the D that converts by JRC size effect fractal model ₃₀Value the results are shown in table 1.According to table 1 data, draw calcareous packsand joint, clay-with-race rock joint on the strike direction and across strike direction L respectively _n-f relation curve, as shown in Figure 2.Can be obtained by Fig. 2, the rock structural plane roughness coefficient stable threshold L of direction is moved towards at calcareous packsand joint _n ^*Be 120cm, shown in Fig. 2 a, the rock structural plane roughness coefficient stable threshold L of calcareous packsand joint tendency direction _n ^*Be 110cm, shown in Fig. 2 b, the rock structural plane roughness coefficient stable threshold L of direction is moved towards at clay-with-race rock joint _n ^*Be 150cm, shown in Fig. 2 c, the rock structural plane roughness coefficient stable threshold L of clay-with-race rock joint tendency direction _n ^*Be 160cm, shown in Fig. 2 d.Rock structural plane roughness coefficient stable threshold L according to above-mentioned joint all directions _n ^*Just can be according to the indoor mechanics of structural plane, hydraulics test result, ask for mechanics, each parameter of hydraulics character at Xiaolangdi Dam Project wind and rain ditch west side slope rock mass SSE group clay-with-race rock and calcareous packsand large scale joint by formula (1) to formula (7), as the foundation of engineering rock mass stability analysis calculating.

Table 1 Xiao Langdi SSE group Joint Roughness Coefficient statistical measurements

Joint wall rock	Direction of measurement	????L n＝10cm		????L n＝30cm		????D 30
							Sample number	??JRC 0	Sample number	????JRC 30
		Calcareous packsand	Move towards direction	????35	??8.61						????34	????5.50	????0.4079
The tendency direction	????31					??12.12	????30	????7.43	????0.4454
			The clay-with-race rock	Move towards direction	????88					??15.83	????84	????11.86	????0.2628
The tendency direction	????82	??20.48				????77	????15.46	????0.2560

Claims (1)

1, a kind of rock mass discontinuity mechanics, hydraulics character obtaining value method is characterized in that comprising following sequential steps:

(1) on the small size rock mass discontinuity, corresponding required direction of measurement arranges that evenly statistics requisite number purpose length is respectively the survey section of 10cm and 30cm, adopts profilograph to draw the contour curve of above-mentioned survey section;

(2) measure the relief intensity R that above-mentioned 10cm surveys each contour curve of section _Y0, by formula ${\mathrm{JRC}}_0=49.2114e^{\frac{29}{450}}\arctan \left[\frac{{4R}_{y0}}{5}\right]$ Calculate each 10cm respectively and survey section roughness coefficient JRC ₀Value is surveyed the different roughness coefficient of section according to each 10cm and is calculated JRC ₀Expectation value E (JRC ₀);

(3) measure the relief intensity R that above-mentioned 30cm surveys each contour curve of section _Y30, by formula ${\mathrm{JRC}}_{30}=49.2114e^{\frac{29L_0}{{450L}_{30}}}\arctan \left[\frac{8R_{Y30}}{L_{30}}\right]$ Calculate each 30cm respectively and survey section roughness coefficient JRC ₃₀Value is surveyed the different roughness coefficient of section according to each 30cm and is calculated JRC ₃₀Expectation value E (JRC ₃₀);

(4) by JRC size effect fractal model $E\left({\mathrm{JRC}}_{30}\right)=E\left({\mathrm{JRC}}_0\right){\left[\frac{L_{30}}{L_0}\right]}^{{-D}_{30}},$ Conversion obtains rock mass discontinuity JRC size effect Fractal dimensions ₃₀

(5) the JRC size effect Fractal dimensions that step (4) is obtained ₃₀The relative JRC size effect of value substitution rate formula $f=\frac{{\left({0.1L}_n\right)}^{-D_{30}}-{(0.1L_n-1)}^{-D_{50}}}{2^{-D_{30}}-1},$ Carry out sample length L _nSensitivity analysis with relative JRC size effect rate f obtains L _n-f graph of a relation is at L _nOn-f the graph of a relation, when getting f=5%, L _nSample length corresponding on the-f relation curve is rock structural plane roughness coefficient stable threshold L _n ^*

(6) the rock structural plane roughness coefficient stable threshold L that step (5) is determined _n ^*, as rock mass discontinuity mechanics, the following formula of hydraulics stable in properties threshold value substitution, just can carry out large scale rock mass discontinuity mechanics, hydraulics character value:

${\mathrm{\&tau;}}_{\mathrm{peak}\left(n\right)}={\mathrm{\&tau;}}_{\mathrm{peak}\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_1}---\left(1\right)$

$c_{\left(n\right)}=c_{\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_3}---\left(3\right)$

$d_{\left(n\right)}=d_{\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_4}---\left(4\right)$

${\mathrm{\&delta;}}_{\mathrm{peak}\left(n\right)}={\mathrm{\&delta;}}_{\mathrm{peak}\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{D_5}---\left(5\right)$

$k_{s\left(n\right)}=k_{s\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{{-D}_6}---\left(6\right)$

$K_{\left(n\right)}=K_{\left(0\right)}\&CenterDot;{\left[\frac{{L_n}^{*}}{L_0}\right]}^{-D_7}---\left(7\right)$

Above-listed various in, τ, , c, d, δ, k and K represent respectively that rock mass structural plane shearing strength, rock mass discontinuity peak value angle of friction, rock mass discontinuity cohesion, rock mass discontinuity peak value are cut bloated angle, the rock mass discontinuity peak value is cut displacement, rock mass discontinuity normal stiffness and rock mass discontinuity infiltration coefficient, subscript n is represented the mechanics or the hydraulics character of large scale rock mass discontinuity, and 0 representative experiment size (is L ₀=structure face mechanic or hydraulics character 10cm) time.D ₁, D ₂, D ₃, D ₄, D ₅, D ₆And D ₇Divide and to represent rock mass structural plane shearing strength, rock mass discontinuity peak value angle of friction, rock mass discontinuity cohesion, rock mass discontinuity peak value to cut the size effect fractal dimension that displacement, rock mass discontinuity normal stiffness and rock mass discontinuity infiltration coefficient are cut in bloated angle, rock mass discontinuity peak value.

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