• Title/Summary/Keyword: explosive blasting

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A Case Study on Explosive Demolition of Cylindrical Silo (원통형 사일로 발파해체 시공사례)

  • Park, Hoon;Jang, Seong-Ok;Park, Hyong-Ki;Kim, Nae-Hoi;Suk, Chul-Gi
    • Explosives and Blasting
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    • v.26 no.2
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    • pp.52-63
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    • 2008
  • Recently the demand of demolition for the unnecessary cylindrical silo structure is increasing due to deterioration and unsatisfactory functional conditions and the issue of demolition is becoming a major highlight. This case study introduced the explosive demolition of the cylindrical silo structure by felling method. The results of explosive demolition conducted on cylindrical silo structure using the felling method show, A silo had collapsed precisely according to estimated direction but in case of B silo there was a minor difference. The lower colunms and ring girder support was designed to the hinge line but in reality the lower colunms of the silo did not do its structural support role and only the ring girder support did its role successfully. As for the impact vibration, most of the measurements were within the estimated range.

A study of problems&solutions of the domestic field blasting (국내 현장발파의 문제점과 해결책에 관한 고찰)

  • Jang, Hyeong-Du
    • Proceedings of the KSEE Conference
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    • 2006.10a
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    • pp.27-46
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    • 2006
  • Field blasting engineers who took a degree from university, and passed the national qualifying examination of blaster, and took a prescribed course by national commend, and got a license of blasting from the national police agency are the foundation of a society of explosive&blasting of south Korea. By their view, we want to find problems of the domestic fiend blasting, and to think about solutions. I hope they become the world's best blasting engineer.

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A Case Study on Explosive Demolition of Turbine Building of Steel Frame Structure (터빈동 철골구조물 발파해체 시공사례)

  • Hoon, Park;Sung-Woo, Nam;You-Song, Noh;Chul-Gi, Suk
    • Explosives and Blasting
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    • v.40 no.4
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    • pp.35-46
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    • 2022
  • While the construction of dismantling the old industrial complex and restoring the dismantled industrial site to its original natural environment the is underway. In this paper, we introduce a case of dismantling a turbine building which one of the a large steel frame structures in an old industrial complex by applying the progressive collapse method among the blasting demolition methods. We used a charge container that generates a metal jet to cut dismantling the turbine building. The thickness of the steel structure was adjusted to 30 mm or less by applying gouging, which was a method of digging deep grooves by gas and oxygen flames or arc thermal, in the part where the cutting thickness was thick in the blasting section. The total amount of charge used for the blasting of turbine building was 175 kg, 165 electronic detonators and 124 charge containers. As a result of the blasting demolition, the turbine building was collapsed precisely according to the estimated direction. The blasting demolition was completed without causing any damage to the surrounding facilities.

Case Study on the Explosive Demolition of Steel Truss Bridge using Charge Container for Cutting Structural Steel (강재 절단용 장약용기를 이용한 철골 교량 발파해체 시공사례)

  • Park, Hoon;Suk, Chul-Gi;Noh, You-Song
    • Explosives and Blasting
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    • v.36 no.1
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    • pp.20-33
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    • 2018
  • A locally damaged structure is a structure that cannot be reused due to having parts that have lost their structural function as a result of abnormal load across the interior or exterior of the structure. The causes of the abnormal load occurrences can be classified into natural disaster and artificial disaster. Locally damaged structures caused by this abnormal load have risk factors that may lead to the possibility of additional secondary collapses, so such structures require immediate and complete dismantling. The case presented in this study involves the application of explosive demolition to a steel truss structured bridge in the Philippines that was damaged due to construction failures and the hurricane. Although shaped charges were needed in explosive demolitions, difficulties in locally obtaining such material. So, we made a charge container to charging of emulsion explosive during the explosive demolition. The explosive demolition resulted in the vertical free fall of the mid-section of the bridge and the free fall rotating of the both end section of the bridge. The neighboring posts and bridge piers did not show signs of damages, while post-demolition fragmentation of removed parts was found to be satisfactory.

Explosive Demolition of Special Structure of Soongeui Complex Stadium (숭의종합운동장 특수구조물 발파해체)

  • Suk, Chul-Gi;Park, Hoon;Kim, Nae-Hoi;Song, Young-Suk;Jung, Woo-Jin;Han, Dong-Hun
    • Explosives and Blasting
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    • v.28 no.2
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    • pp.108-118
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    • 2010
  • Soongeui complex stadium is a reinforced concrete frame structure composed of columns, slabs and beams. The stadium, however, is also a special structure because it has a tall tower of electronic display board and slabs inside its own structure which is different from the structures that had been demolished using blasting by then. Explosive demolition for the stadium was carried out from the left-hand side of the outfield stand to the right considering 2 rows of columns supporting the stand as a blasting unit. An overturning demolition method was applied to the tower of electronic display board. Water bags that played the role of multipurpose protection were applied to control the dust. As a result, the demolition project of the special structure of Soongeui complex stadium was judged to be a great success.

Development of Protection Techniques for Explosive Demolition of RC Pillar (철근콘크리트 기둥 발파해체를 위한 방호기술 연구)

  • Chang Ha Ryu;Byung Hee Choi;Yang Kyun Kim
    • Explosives and Blasting
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    • v.20 no.4
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    • pp.17-28
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    • 2002
  • Safety concern is one of the most important parameters in the design of building demolition by explosive blasting, Accidents were sometimes reported due to the flying chips of fragmented materials In building demolition work in urban area. Laboratory experiments were performed to investigate the failure behavior of reinforced concrete pillars under blast loading and to develop an effective protection technique. Sixteen reinforced concrete pillars were constructed. The failure behavior and the flying chip velocities were observed by means of a high-speed camera. Protection scheme was designed and the effects of several protection materials were investigated. Two kinds of non-woven fabrics and wire net were tested as protection materials. The results showed that reinforcing bar was one of the important factors to determine specific charges, and that mesh size of wire net and tied-up method affected the protection of flying chips. Control of gas effects is also a key to the control of flying chips. It was recommended to use both wire net and non-woven fabrics as primary and secondary protection materials. Such protection scheme was successfully applied to the explosive demolition of apartment buildings.

Evaluation of Progressive Collapse Resisting Capacity of RC structure using the Applied Element Method (응용요소법을 이용한 철근콘크리트 구조물의 연쇄붕괴 저항성능 평가)

  • Park, Hoon;Suk, Chul-Gi;Cho, Sang-Ho
    • Explosives and Blasting
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    • v.31 no.1
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    • pp.41-48
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    • 2013
  • Progressive collapse is generally defined as a local failure of structural members occurring due to abnormal load which results in the partial collapse or total collapse of a structure. Unlike progressive collapse, explosive demolition is a method of inducing the total collapse of structure by removing all or portion of structural members. In explosive demolition the partial collapse of the structural members can be controlled at appropriate time intervals by blasting, to induce the progressive collapse of the structure and control the collapse behavior. In this study, a nonlinear dynamic analysis was carried out in order to apply the progressive collapse process to explosive demolition design of the RC structure. The occurrence of progressive collapse of analytical models was examined according to the number of floors, the removed column height and span length. For models that resisted progressive collapse, progressive collapse resisting capacity was evaluated.

ON THE DEVELOPMENT OF EXPLOSION TECHNOLOGY IN SEOUL METRO SUBWAY CONSTRUSTION (서울 지하철 건설의 발파기술 발전)

  • 許眞
    • Explosives and Blasting
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    • v.18 no.1
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    • pp.59-70
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    • 2000
  • The blasting work to construct a subway in seoul, korea have often cased increased neighbor's complaints because of ground vibration. In order to prevent the demage to the stucture it was necessary to predict the level of blasting induced vibration and to determine the maximum charge weigh per delay with an allowable vibration level. The effect of blasting pattem, rock strength and different explosive on the blast-induced ground vibration was studied to determine the maximum charage weight per delay within a given vibration level. The blasting vibration equation from over 100 test data was obtained, V= K(D/W(equation omitted), where the values for n and K are estimated to be 1.7 to 1.5 and 48 to 138 respectively.

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Dynamic Influence of Tunnel Blasting on Adjacent Structures for Various RMR Values (발파에 의한 터널 굴착시 RMR값에 따른 인접구조물의 동적 영향)

  • 허재록;황의석;이봉열;김학문
    • Proceedings of the Korean Geotechical Society Conference
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    • 2002.03a
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    • pp.657-664
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    • 2002
  • This study presents the influence of blasting-induced vibration on the adjacent structures in rocks of various RMR values. 3D finite element analysis was performed to simulate the behaviour of tunnel and adjacent structures during rock excavation. The blast loadings were evaluated from the blasting pressure which is depending on the type and amount of explosive charges. Influencing factors for the stability of adjacent structures and ground conditions were reviewed in terms of structural dimensions and RMR values. The stiffness and load of adjacent structures are modeled in the numerical analysis to Investigate blasting effects of the size of adjacent structures. The vibration velocity and maximum particle velocity was increase sharply when the RMR value changed from 30 to 50. The effect of particle velocity was minimized at the width of structure become 2 times of tunnel diameter.

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Numerical Simulation on the Steel Plate Cutting Performances of Bent-Shaped Charge Holder Blasting (드로잉 가공 성형폭약용기의 강판절단성능에 관한 수치해석적 연구)

  • Min, Gyeong-Jo;Park, Hoon;Oh, Se-Wook;Park, Se-Woong;Suk, Chul-Gi;Cho, Sang-Ho
    • Explosives and Blasting
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    • v.36 no.3
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    • pp.19-28
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    • 2018
  • Locally damaged structures caused by earthquake or extraordinary external forces have been required to rapidly be dismantled because of its possibility of additional collapses. Particularly, steel frame structures were demolished by the shaped charge blasting method. Recently a research suggested a shape charge blasting technique which uses bent-shaped charge holder of copper plate and emulsion explosive charge to cut thick steel plates. This study simulated the cutting performance of the bent-shaped charge holder with considering types of explosives, thickness of copper liner and stand-off distances using LS-DYNA software. The shape charge blasting test of a 25mm thickness steel plate were used to calibrate the input parameters of the numerical models. The penetration depth and penetration width were analysed with different types of explosives, thickness of copper liner and stand-off distances.