The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic  environment with not continuous coupling of inclined layers elastic-creeping   Horizontal underground cavities, in the form of diagonal developments depending on a direction of their longitudinal axis concerning a line of spread of inclined layers  subdivided into three groups: the drift-cavities passed along  line of layers spread, the cross-cuts-developments put transversally of layers spread and diagonal cavities-de...                       (2)                  Figure 1. The settlement scheme of studying of an anisotropic massif tension  а)Spatial kind; b) the generalized flat kind; c)a plane with periodic system of cracks     In these formulas  - effective elastic constants trans trope massif equivalent on rigidity to an anisotropic massif with cracks, which depend from elastic constants of the last  and cracks geometry . [2-4]. By means of Z.S.Erzhanov’s rocks creep theory and a method of final elements in the conditions of the generalized flat deformation laws of creeping pressure distribution and moving near pair diagonal cavities in powerful creeping trans trope massif are investigated. Time processes (at t> 0... Therefore in job temporary operators are set as , .   Then creeping parameters of mountain breeds at commutative nucleus creeping are determined by the formulas    ;                  creeping parameters of mountain breeds,  time.         At account of the intense condition of diagonal cavities in conditions isotropic display of properties of trans trope mountain breeds creeping the meanings of temporary modules for t=120 and t=600 are used, [2].              In a heavy untouched massif the distribution of the basic voltage is represented by Dinn... The left cavity       t=120 t=600  w/a=6.0 1 0,045 -0,610 0,001 0,000 0,071 -0,943 0,001 0,000 2 0,053 -0,588 0,001 0,001 0,082 -0,908 0,001 0,000 3 0,043 -0,514 0,000 0,001 0,067 -0,795 0,000 0,001 4 0,012 -0,420 0,000 0,001 0,018 -0,649 0,000 0,001 5 -0,013 -0,348 0,000 0,000 -0,020 -0,538 0,000 0,000 6 0,003 -0,251 0,001 0,001 0,005 -0,388 0,001 0,001 7 0,000 -0,113 0,001 0,000 0,001 -0,174 0,001 0,000 8 0,002 -0,248 0,001 0,001 0,002 -0,384 0,001 0,001 9 0,037 -0,348 0,000 0,000 0,058 -0,538 0,000 0,000 10 0,037 -0,409 -0,001 0,001 0,058 -0,632 -0,001 0,001 11 0,031 -0,499 0,000 0,001 0,048 -0,772 0,000 0,001 12 0,036 -0,575 0,001 0,000 0,055 -0,890 0,001 0,000 The right cavity     t=120 t=600 w/a=6.0 1 0,075 -0,591 0,002 0,000 0,116 -0,914 0,002 0,000 2 0,087 -0,582 0,002 0,001 0,134 -0,900 0,002 0,001 3 0,087 -0,526 0,000 0,001 0,134 -0,814 0,000 0,000 4 0,080 -0,443 0,000 0,000 0,124 -0,685 0,000 0,000 5 0,061 -0,373 0,000 0,000 0,094 -0,577 0,000 0,000 6 0,005 -0,267 0,000 0,000 0,007 -0,413 0,000 0,000 7 -0,008 -0,114 0,000 0,000 -0,013 -0,177 0,001 0,000 8 -0,003 -0,243 -0,001 0,001 -0,005 -0,375 0,000 0,001 9 -0,024 -0,336 0,000 -0,001 -0,036 -0,520 0,000 -0,001 10 -0,009 -0,396 -0,001 -0,001 -0,014 -0,613 -0,001 -0,001 11 0,023 -0,482 -0,001 -0,001 0,036 -0,746 -0,001 -0,001 12 0,052 -0,555 0,000 0,000 0,081 -0,858 0,000 0,000                         Figure 2. Circuits of an arrangement of numbering of cavities contours    The analysis of the settlement data shows about increase of vertical moving with reduction of parameter . The dependence of vertical pressure from  is essential, and influence of a corner of an cracks planes inclination on sizes of pressure and moving is significant; their distribution on contours of cavities is asymmetrical; on gangue contours of cavities on the part of hanging sides the increase moving is observed, than...
Раздел Информатика
Класс -
Тип Конспекты
Автор
Дата
Формат doc
Изображения Есть
For-Teacher.ru - все для учителя
Поделитесь с коллегами:

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping


Horizontal underground cavities, in the form of diagonal developments depending on a direction of their longitudinal axis concerning a line of spread of inclined layers subdivided into three groups: the drift-cavities passed along line of layers spread, the cross-cuts-developments put transversally of layers spread and diagonal cavities-developments, intermediate between drifts and cross-cuts.

The intense and deformed condition of these horizontal cavities except for a mutual arrangement, depth location, and form of cross section depends also from elastic and creeping properties of an environmental mountain massif.

The research of law of distribution elastic-creeping voltage and moving near to cavities of any depth location and forms of section in dependence also from non-uniform - cracked structures is not only theoretical interest, but also direct practical meaning.

Directed every which way underground cavities superficial location in heavy trans trope a file depending on degree discontinuity flaw coupling of small inclined layers at an angle φ when longitudinal axes of cavities make any corner ψ with a line of plane spread of the isotropy coinciding with a plane of cracks. We will designate through Н depth location developments with distance between their centers L.

Equation of the generalized Guk's law anisotropic massif with cavities at generalized flat deformation concerning Cartesian system of Oxyz coordinates (see fig.1) enters the name as

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping; (1)

whereThe condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping, The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping ,

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping- factors of deformations determined by the formulas [1]:

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping (2)

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creepingThe condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

Figure 1. The settlement scheme of studying of an anisotropic massif tension

а)Spatial kind; b) the generalized flat kind; c)a plane with periodic system of cracks


The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping


In these formulas The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping - effective elastic constants trans trope massif equivalent on rigidity to an anisotropic massif with cracks, which depend from elastic constants of the last The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping and cracks geometry The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping . [2-4].

By means of Z.S.Erzhanov's rocks creep theory and a method of final elements in the conditions of the generalized flat deformation laws of creeping pressure distribution and moving near pair diagonal cavities in powerful creeping trans trope massif are investigated.

Time processes (at t> 0) near to underground cavities are caused by display of properties of creep of surrounding rocks. For their research, involving main principles of the Z.S.Erzhanov's creep rocks theory (2) resulted elastic constants The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping and factors of Puasson The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping are replaced with temporary operator The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creepingThe condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping, (3)

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creepingThe condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping, The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping - nucleus of a heredity.

As have shown laboratory researches [5] creeping parameters anisotropic of mountain breeds a little bit change in different directions.

Therefore in job temporary operators The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping are set as

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping, The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping .

Then creeping parameters of mountain breeds at commutative nucleus creeping are determined by the formulas The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping ;

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creepingcreeping parameters of mountain breeds, The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping time.

At account of the intense condition of diagonal cavities in conditions isotropic display of properties of trans trope mountain breeds creeping the meanings of temporary modules for t=120 and t=600 are used, [2].

In a heavy untouched massif the distribution of the basic voltage is represented by Dinnikov and with factors of lateral pressureThe condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping by being functions of elastic constant environment and corners φ, ψ.

By virtue of complexity of the task strict decision about the intense condition diagonal cavities in a heavy massif in conditions mountain breeds creeping, in this work is involved numerical methods of the analysis of a Method of Final Elements with isoparametric settlement elements at generalized of flat deformation.

The researched settlement area with cavities automatically is broken on isoparametric elements with help of the program FEM_3D in Delphi object-oriented environment. On each unit the vertical force from weights works.

All component of moving are represented as function from coordinates x, z of cross section of cavities.

The basic system of the algebraic equations about 3N concerning moving components with N of units, with which help the investigated area is broken into elements, is decided by an iterative method Gauss-Seidel method with factor of top relaxation The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping Previously program complex is tested on the decisions of known test tasks.

The multivariate accounts on calculation of voltage components near to cavities of vaulted cross section are carried out at different parameters: depths of location corners φ, ψ and degree of coupling of layers, which is defined through the periods of cracksThe condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping.

The attention on law of distribution a vertical voltage on the crosspiece - pillar between cavities and on components moving and five components a voltage in points of contours pulled together drift is especially removed (ψ=0).

The table 1 contains voltage meanings and vertical moving in points of contours of cavities (see fig.2). The numbering of cavities contours points numbers is shown in this figure.

The table 1. Meanings elastic - creeping vertical moving and pressure in points gangue contours of cavities in a massif with not continuous coupling of layers at

t=120 and t=600 The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping =6

The left cavity

t=120

t=600

w/a=6.0

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

1

0,045

-0,610

0,001

0,000

0,071

-0,943

0,001

0,000

2

0,053

-0,588

0,001

0,001

0,082

-0,908

0,001

0,000

3

0,043

-0,514

0,000

0,001

0,067

-0,795

0,000

0,001

4

0,012

-0,420

0,000

0,001

0,018

-0,649

0,000

0,001

5

-0,013

-0,348

0,000

0,000

-0,020

-0,538

0,000

0,000

6

0,003

-0,251

0,001

0,001

0,005

-0,388

0,001

0,001

7

0,000

-0,113

0,001

0,000

0,001

-0,174

0,001

0,000

8

0,002

-0,248

0,001

0,001

0,002

-0,384

0,001

0,001

9

0,037

-0,348

0,000

0,000

0,058

-0,538

0,000

0,000

10

0,037

-0,409

-0,001

0,001

0,058

-0,632

-0,001

0,001

11

0,031

-0,499

0,000

0,001

0,048

-0,772

0,000

0,001

12

0,036

-0,575

0,001

0,000

0,055

-0,890

0,001

0,000

The right cavity

t=120

t=600

w/a=6.0

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

1

0,075

-0,591

0,002

0,000

0,116

-0,914

0,002

0,000

2

0,087

-0,582

0,002

0,001

0,134

-0,900

0,002

0,001

3

0,087

-0,526

0,000

0,001

0,134

-0,814

0,000

0,000

4

0,080

-0,443

0,000

0,000

0,124

-0,685

0,000

0,000

5

0,061

-0,373

0,000

0,000

0,094

-0,577

0,000

0,000

6

0,005

-0,267

0,000

0,000

0,007

-0,413

0,000

0,000

7

-0,008

-0,114

0,000

0,000

-0,013

-0,177

0,001

0,000

8

-0,003

-0,243

-0,001

0,001

-0,005

-0,375

0,000

0,001

9

-0,024

-0,336

0,000

-0,001

-0,036

-0,520

0,000

-0,001

10

-0,009

-0,396

-0,001

-0,001

-0,014

-0,613

-0,001

-0,001

11

0,023

-0,482

-0,001

-0,001

0,036

-0,746

-0,001

-0,001

12

0,052

-0,555

0,000

0,000

0,081

-0,858

0,000

0,000


The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping

Figure 2. Circuits of an arrangement of numbering of cavities contours


The analysis of the settlement data shows about increase of vertical moving with reduction of parameter The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping . The dependence of vertical pressure from The condition of directed every which way tunnels in transversally-isotropic environment with not continuous coupling of inclined layers elastic-creeping is essential, and influence of a corner of an cracks planes inclination on sizes of pressure and moving is significant; their distribution on contours of cavities is asymmetrical; on gangue contours of cavities on the part of hanging sides the increase moving is observed, than on the part of laying sides and such tendency in meanings of moving grows with reduction of distance of the cavities centres.

THE LITERATURE:


1. Zh.S.Erzhanov, Sh.M.Aitaliev, Zh.К.Маsаnоv Stability of horizontal developments in slantwise-flaky massif. Alma-Ata, "Science" Каz SSR, 1971.- 160p.

2. Zh.S.Erzhanov, Sh.M.Aitaliev, Zh.К.Маssаnоv Seismological-stress condition of underground structures in anisotropic layered massif. Alma-Ata, "Science" КазССР, 1980.- 212p.

3.Маssаnоv Zh.К., Omarov А.D., Маhмеtоvа N.М. Static and seismological-stress of transport underground structures in anisotropic vectorially nonlinear massif. - Alma-Ata: Bastau, 2002.-244p.

4. Аitаliеv SH.М., Маssаnоv ZH.К. Account of mountain pressure in directed every which way horizontal developments. // Mountain pressure in capital and preparatory developments. Novosibirsk: 1973. - with 21-26.

5. Sаrsемbаеv А.А., Siniyaev А.Y., Маtvееvа V.P., Кudаshоv Е.F. About definition of elastic and temporary deformations on layered samples // In кн.: " Researches on the mechanics of mountain breeds ". Alma-Ata, "Science" .-1965.-C.45-50.


© 2010-2022