• 제목/요약/키워드: rock break

검색결과 53건 처리시간 0.021초

Optimization study on roof break direction of gob-side entry retaining by roof break and filling in thick-layer soft rock layer

  • Yang, Dang-Wei;Ma, Zhan-Guo;Qi, Fu-Zhou;Gong, Peng;Liu, Dao-Ping;Zhao, Guo-Zhen;Zhang, Ray Ruichong
    • Geomechanics and Engineering
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    • 제13권2호
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    • pp.195-215
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    • 2017
  • This paper proposes gob-side entry retaining by roof break and filling in thick-layer soft rock conditions based on the thick-layer soft rock roof strata migration law and the demand for non-pillar gob-side entry retaining projects. The functional expressions of main roof subsidence are derived for three break roof direction conditions: lateral deflection toward the roadway, lateral deflection toward the gob and vertically to the roof. These are derived according to the load-bearing boundary conditions of the main roadway roof stratum. It is concluded that the break roof angle is an important factor influencing the stability of gob-side entry retaining surrounding rock. This paper studies the stress distribution characteristics and plastic damage scope of gob-side entry retaining integrated coal seams, as well as the roof strata migration law and the supporting stability of caving structure filled on the break roof layer at the break roof angles of $-5^{\circ}$, $0^{\circ}$, $5^{\circ}$, $10^{\circ}$ and $15^{\circ}$ are studied. The simulation results of numerical analysis indicate that, the stress concentration and plastic damage scope to the sides of gob-side entry retaining integrated coal at the break roof angle of $5^{\circ}$ are reduced and shearing stress concentration of the caving filling body has been eliminated. The disturbance of coal mining to the roadway roof and loss of carrying capacity are mitigated. Field tests have been carried out on air-return roadway 5203 with the break roof angle of $5^{\circ}$. The monitoring indicates that the break roof filling section and compaction section are located at 0-45 m and 45-75 m behind the working face, respectively. The section from 75-100 m tends to be stable.

발파공해 해소 및 여굴 최소화를 위한 선균열 암굴착 노치장비 개발에 관한 연구 (A Study on Notch Bit System for Controlling Blast Vibration and Over-break in Rock Mass)

  • 정동호;문상조;안대진;정원준;김은관;김동규
    • 터널과지하공간
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    • 제17권3호
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    • pp.216-224
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    • 2007
  • 화약의 동적 충격에너지를 이용하는 발파굴착은 매우 효율적인 터널굴착방법이다. 그러나 진동과 암소음 등의 발파공해가 발생하는 문제점이 있다. 최근 연구를 통해 노치공을 이용한 선균열 암굴착방법은 발파공해와 터널의 여굴을 상당히 줄일 수 있는 것으로 확인되었고 이에 따라 본 연구에서는 노치발파공의 성형을 위한 노치장비개발에 관한 연구를 수행하였다. 노치공을 효율적으로 성형하기 위해 노치비트의 길이, 높이 등을 다양하게 변화시켜 실험을 수행하여 최적화하였고, 천공속도, 천공정밀도를 높이기 위한 천공비트, 노치비트, 아답타, 노치 가이드로 이루어진 노치비트 시스템을 개발하였다.

절리면의 응력확대계수가 파괴인성보다 작은 암반사면의 진행성 파괴 (Progressive Failure of a Rock Slope by the Subcritical Crack Growth of Asperities Along Joints)

  • 김치환
    • 터널과지하공간
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    • 제19권2호
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    • pp.95-106
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    • 2009
  • 암석파괴역학과 파괴인성 이하의 응력상태에서 균열이 발생하고 성장하는 특성을 고려하여 암반사면의 진행성 파괴를 검토하였다. 굴착이 종료된 암반사면은 응력이 거의 변하지 않은 조건이지만, 시간이 경과함에 따라 절리면 내 미소한 접점에서 파괴가 발생하고 파괴된 접점의 수효가 증가함에 따라 절리면이 파괴되고, 파괴된 절리면이 많아져 사면이 파괴되는 진행성파괴 현상을 수치해석적으로 확인하였다. 따라서 암반사면의 진행성 파괴는 파괴인성보다 낮은 응력상태에 있는 암반 절리면 내 미소한 접점에서 시간의 경과에 따라 발생한 균열이 성장하여 사면을 파괴시키는 것으로 분석되었다.

경주 남산 마애불 암석의 물리적 특성연구 - '경주배리윤을곡마애불좌'을 중심으로 - (Petrological Studies of the Buddha Image Carved on Rock Surface at the Gyeongju Namsan Area, Korea - A Case Study of the Seated Buddha Image Carved on Rock Surface of Yuneulgok in Bae-ri, Gyeongju -)

  • 송치영;한민수;이장존;전병규
    • 보존과학연구
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    • 통권28호
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    • pp.39-58
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    • 2007
  • The Seated Buddha image carved on rock surface of Yuneulgok in Bae-ri, Gyeongju constituted of alkali feldspar granite. There is surface weathering by abrasion, exfoliation and break out. As a result various experiment was carried out testing rock material property to quantitatively grade weathering. Besides, this study is focused on properties of rock and correlation between things. Additionally, comparison of chemical properties to nondestructive weathering grade in the buddha image carved on rock. This result utilized on important resource for scientific conservation system compared with weathering appearance.

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발파 분야에서의 인공지능 활용 현황 (Review of the Application of Artificial Intelligence in Blasting Area)

  • 김민주;;권상기
    • 화약ㆍ발파
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    • 제39권3호
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    • pp.44-64
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    • 2021
  • 4차 산업혁명 시대의 도래와 함께 빅데이터의 활용과 인공지능 기법을 활용한 공학적 응용이 증가하고 있다. 발파 분야에서도 인공지능 기법을 활용한 다양한 연구들이 보고되고 있다. 본 논문에서는 발파분야에서 많이 활용되고 있는 인공신경망, 퍼지 이론, 유전자 알고리즘, 떼 지능, 서포트 벡터머신과 같은 인공지능 기법을 소개하고 이들 기법을 이용한 발파진동, 비석, 암석 파쇄도, 폭풍압, 여굴 예측 기법에 대한 연구들을 조사, 정리하였다. 향후 인공지능 기법을 활용하여 보다 효율적이고 안전한 발파설계, 발파 효율 향상과 발파에 의한 주변 환경에 미치는 영향을 최소화하기 위하기 위한 발전적인 접근 방향에 대한 논의에 활용할 수 있는 기초 자료를 제공하고자 한다.

3차원 레이저 스캐너 및 BIM을 활용한 터널 과대.과소 굴착 평가 (Assessment of over / under-break of tunnel utilizing BIM and 3D laser scanner)

  • 박정준;신재철;황주환;이강현;서형준;이인모
    • 한국터널지하공간학회 논문집
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    • 제14권4호
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    • pp.437-451
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    • 2012
  • 최근 3차원 레이저 스캐너는 토목 분야의 적용에 관한 다수의 연구가 수행되고 있으며, 연구 분야 역시 터널 및 교량, 토공량 산정, 시공검측, 암반절리 측정 등 여러 분야에서 이루어지고 있다. 그 중 터널 시공 시 여굴량 및 미굴량을 산정함에 있어 3차원 레이저 스캐너를 활용하는 연구가 점차적으로 이루어지고 있으며, 지금까지의 연구는 스캔 데이터와 2차원 CAD 도면과의 비교를 통해 여굴량 및 미굴량을 산정하는 방식으로 이루어 졌다. 그러나 터널이 비교적 단순한 형상의 구조물이라 하더라도 3차원 형상의 구조물로 정확한 여굴량 및 미굴량을 산정하기 위해서는 3차원적인 비교가 필요하다. 본 연구에서는 3차원 레이저 스캐너로 획득한 스캔 데이터와 3차원 설계 모델링인 BIM을 활용하여 시공시 발생하는 여굴량 및 미굴량을 산정하는 시공오차 평가 프로그램을 개발하였으며, 이를 위한 효율적인 스캔 데이터의 처리 프로세스를 제안하였다. 또한 실제 현장에 3차원 레이저 스캐너를 적용하여 시공오차를 산정하였으며, 프로그램의 성능을 검증하였다.

The influence of magmatic rock thickness on fracture and instability law of mining surrounding rock

  • Xue, Yanchao;Sun, Wenbin;Wu, Quansen
    • Geomechanics and Engineering
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    • 제20권6호
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    • pp.547-556
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    • 2020
  • An understanding of the influence of MR (Magmatic Rock) thickness on the surrounding rock behaviors is essential for the prevention and management of dynamic disasters in coal mining. In this study, we used FLC3D to study the breaking and instability laws of surrounding rock with different MR thicknesses in terms of strata movement, stress and energy. The mechanism of dynamic disasters was revealed. The results show that the thicker the MR is, (1) the smaller the subsidence of the overlying strata is, but the subsidence span of the overlying strata become wider, and the corresponding displacement deformation value of the basin edge become smaller. (2) the slower the growth rate of abutment pressure in front of the working face is, but the peak value is smaller, and the influence range is larger. The peak value decreases rapidly after the breaking, and the stress concentration coefficient is maintained at about 1.31. (3) the slower the peak energy in front of coal wall, but the range of energy concentration increases (isoline "O" type energy circle). Finally, a case study was conducted to verify the disaster-causing mechanism. We anticipate that the research findings presented herein can assist in the control of dynamic hazards.

선균열과 상부 심빼기를 이용한 환경 친화적 터널발파공법 (A Tunnel Blasting Method Favorable to the Environment, which Utilizes Pre-splitting & an Upper Center Cut.)

  • 김일중;김영석;기경철
    • 화약ㆍ발파
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    • 제20권2호
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    • pp.7-19
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    • 2002
  • The cut is placed high up in the section, the 1st sloping holes below the cut, and divided all the holes located below the 1st sloping holes into a certain area with longitudinal section, to lower pollution made from tunnel blasting. With the sequential blasting machine, after I first blasted holes around the cut holes by a pre-splitting method, blasted the cut area and the 1st sloping holes. The 1st and 2nd sloping holes divided areas are initiated gradually to free face upwards made by the cut. Especially, I pre-splinted contour holes previous blast the before sloping holes from the contours. The ground vibration from the earth surface just over the advance face decreased about 42.0% compare with the down blasting method under the condition of equal charge weight per delay. I controlled the crack and over break of the mother rock by pre-splitting contour holes before blast the first sloping holes from the contours. The peak values of noise and air blast by blasting decreased about 10dB more than the down blasting method. the noise and air blast diminished gradually as a round. The throw distance of the fly rock was decreased about 55%.

플라즈마 발파의 폭력과 지반진동특성 (Analysis of Energy and Ground Vibration of Plasma Blasting)

  • 이경운;박철환;신중호;류창하
    • 터널과지하공간
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    • 제7권4호
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    • pp.267-273
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    • 1997
  • Rock fragmentation with plasma blasting technique has advantageous properties in contrast to the conventional blasting method in controlling of flying rocks and ground vibrations, when residents are complaining or surrounding structures stay in protection from blasting operations. The experiences show in urban construction works that the plasma blasting is the most possible method to prevent damages and minimize adverse environmnetal impacts. The fragmentation energy level is evaluated by numerical simulation using PFC-2D for various drill hole pattern and tested accordingly to get the feasibility. The energy output of plasma blasting system has been improved to a level of 1 MJ, which can break a 2~3 ㎥ granite boulder or 1.5 m height bench face. Measurements are carried out to get the ground vibration level and propagation equation, so that the control of the blasting operations can be performed more precisely and safely.

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Numerical modelling of bottom-hole rock in underbalanced drilling using thermo-poroelastoplasticity model

  • Liu, Weiji;Zhou, Yunlai;Zhu, Xiaohua;Meng, Xiannan;Liu, Mei;Wahab, Magd Abdel
    • Structural Engineering and Mechanics
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    • 제69권5호
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    • pp.537-545
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    • 2019
  • Stress analysis of bottom-hole rock has to be considered with much care to further understand rock fragmentation mechanism and high penetration rate. This original study establishes a fully coupled simulation model and explores the effects of overburden pressure, horizontal in-situ stresses, drilling mud pressure, pore pressure and temperature on the stress distribution in bottom-hole rock. The research finds that in air drilling, as the well depth increases, the more easily the bottom-hole rock is to be broken. Moreover, the mud pressure has a great effect on the bottom-hole rock. The bigger the mud pressure is, the more difficult to break the bottom-hole rock is. Furthermore, the maximum principal stress of the bottom-hole increases as the mud pressure, well depth and temperature difference increase. The bottom-hole rock can be divided into three main regions according to the stress state, namely a) three directions tensile area, b) two directions compression areas and c) three directions compression area, which are classified as a) easy, b) normal and c) hard, respectively, for the corresponding fragmentation degree of difficulty. The main contribution of this paper is that it presents for the first time a thorough study of the effect of related factors, including stress distribution and temperature, on the bottom-hole rock fracture rather than the well wall, using a thermo-poroelastoplasticity model.