• 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.

• Proceedings of the Korean Institute Of Construction Engineering and Management
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• 2008.11a
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• pp.106-111
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• 2008

Advanced concrete technology, which is the main construction technology of skyscraper, is dealt with in this paper. Advanced concrete technologies are classified into several types such as super high strength concrete(SHSC), low heat concrete(LHC), fire resistant concrete(FRC) and blast resistant concrete(BRC). The necessity, principal and application examples of advanced concrete technology are described respectively. In the last part of the paper, the introduction of HYUNDAI E&C's technology of Advanced concrete and future research trend are described.

• Tunnel and Underground Space
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• v.19 no.5
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• pp.397-406
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• 2009

Recently, the number of industrial structures that must be demolished due to structural deterioration and unsatisfactory functional conditions has been increased. To minimize environmental hazardous factors created during the process of demolition, the explosive demolition method has been applied increasingly. This execution case was intended to describe an application of the explosive demolition method to the demolition of a Crusher & Screen structure, which was a large-section reinforced concrete special structure. It was deemed necessary due to its structural deterioration and unsatisfactory functional condition. Various pre-weakening processes and blasting patterns were applied to the large-section reinforced concrete members, and to reduce blasting vibration and impact vibration, time intervals were established for blasting in the same column and for blasting between blasting blocks. By applying the explosive demolition method to the demolition of a large-section reinforced concrete special structure, the explosive demolition was completed safely and efficiently, without causing any damage to surrounding facilities.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.19 no.6
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• pp.664-668
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• 2018

Free-standing structures that are especially high are more likely to receive brain attacks caused by lightning. Since special structures are generally part of national industrial structures, lightning strikes mostly cause socio-economic damage. Lightning protection facilities are installed to prevent such lightning damage, but in 2015, support cables on West Sea bridges were hit by lightning, causing a lot of economic damage. Accordingly, the design of a lightning protection system shall establish protective measures after analyzing the risk of debris falling onto the structure. In this thesis, lightning strikes are analyzed directly in relation to the modeling system that operates the actual information collection system for lightning strikes, depending on the location of the tall, free-standing structures, and practical lightning hazard information is provided by a meteorological station. In addition, we propose monitoring and applying a probability correction rate to the calculation of the lightning risk based on the number of lightning strikes directly reaching the ground in order to obtain an effective lightning risk assessment.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.8 no.1
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• pp.97-102
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• 1988

The strain release associated with historical and instrumental earthquoke data are analyzed. In addition, the relationship between engineering intensity and cumulative frequency of earthquake occurrence is investigated. Based on the study, a seimic zoning map of the Korean peninsula is constructed. For each seismic zone, a peak ground acceleration value is determined for the aseismic designs of two types of structures. First type is general structures like buildings and the second type is special structures like nuclear power plants.

• Computational Structural Engineering
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• v.3 no.3
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• pp.48-52
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• 1990

최근 우리나라에서도 지진으로 인한 재해를 최소한으로 감소 또는 방지하기 위하여 일반 건축 구조물의 내진설계를 의무화 하도록 규정하고 있다. 그러나 지진하중에 대한 지반-말뚝-구조물 시스템의 내진해석과 설계는 아직도 완전하게 정립되지 못한 실정이며, 지금까지 우리나라에서 원자력발전소, 해양구조물 등과 같은 특수 구조물과 몇몇 고층건물을 제외한 대부분의 일반 건축물에 대한 말뚝의 설계도 지반의 동적특성을 제대롤 반영하지 않는 정적해석이 수행되고 있다. 그렇지만 정적하중과 지진하중의 하중특성은 근본적인 차이가 있으므로 이에 대한 설계를 추가하여야 한다. 따라서 본 고에서는 깊은 기초의 내진설계에 적용하기 위해 이제까지 연구발표된 여러가지 내진해석방법을 간략하게 소개하고 이를 비교, 검토함으로써 동적특성을 어느정도 반영하는 실용적인 설계법을 제시하고자 한다.

• Journal of the Korean Society for Nondestructive Testing
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• v.31 no.4
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• pp.335-342
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• 2011

Application of FBG (Fiber Bragg Grating) sensors to measure strain of steel roof trusses has been performed. This is to check and confirm the structural integrity of an unusually shaped, reverse shell structure made of reinforced concrete. The issue was to place sensors at proper location and compare the measured values to the results from structural analysis. It has been learned that a deliberate measurement scheme is needed in order to monitor a complex structure during construction. In this study, the measured values were within allowable range of strain, thus confirming the safety of the structure during measurement and construction.

• Journal of the KSME
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• v.23 no.3
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• pp.186-190
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• 1983

파괴역학 연구를 대상재료에 의해 구분하면 선형파괴와 탄소성재료의 파괴로 나눌 수 있다. 취 성파괴(brittle fracture)를 다루는 선형타성 파괴역학연구는 주로 여러가지 크랙의 모양, 시편모양, 부하형태에 따른 탄성응력분포 혹은 은력확대계수를 구하거나 에너지방법에 의해 안정비안정 크랙전파를 연구한다. 대개의 경우 취성파괴는 전체 구조물에 치명적이 되기 쉽다. 따라서 구조물 설계시에 취성파괴의 가능성을 배제하기 위해 재료의 적절한 선택과 같은 대책을 강구하는 것이 바람직하다. 다시 말해, 구조물 재료는 강도와 연성의 상황에 따른 적절한 조합을 필요로 한다. 오늘날 특수합금과 같은 고강도 금속에서의 취성화 경향이 증가하나 합금설계시 강도와 아울러 연성을 증가시키기 위한 여러 대책이 파괴역학 연구의 중요한 부분을 차지한다.

• Journal of the KSME
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• v.28 no.4
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• pp.377-386
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• 1988

선박, 해양구조물을 중심으로 파괴손상례, 파괴해석방법, 파괴의 방지대책에 대해 기술하였다. 실제 구조물의 파괴는 매우 복합적인 요인에 의해 발생되기 때문에 그 요인 분석이 쉽지 않으나 최근 들어 파괴역학, microfractography의 발달로 비교적 상세하게 파괴요인이 밝혀지게 되었다. 일단 파괴가 발생하면 그 사고를 case study하여 대책을 강구함으로서 같은 류의 사고 발생률을 감소시킬 수 있다. 그러나 새로운 성능을 갖춘 구조물, 특수한 환경에 사용되는 구조물 등과 같 이 이제까지 경험하지 못한 구조물의 경우에는 사고 발생률이 높아 질 수밖에 없다. 이러한 구조물의 파괴를 방지하기 위해서는 보다 정확한 응력 또는 변형률 해석, 각종 현상을 재현한 시뮬레이션 시험법의 개발, 비파괴 검사기술의 개발과 더불어 재료개발에 병행되어야 할 것이다. 아울러 구조물의 잔존수명 예측 기술이 더욱 개발되어야 할 것이다.

• Journal of the Korea Concrete Institute
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• v.25 no.3
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• pp.271-281
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• 2013

The current seismic design code prescribes that a structural wall should be designed as a special shear wall when the building height is more than 60 m and its seismic design category is classified as D. However, the use of a special shear wall has a negative effect on constructability and economic efficiency. In the present study, the seismic performance of a special shear wall and a special shear wall with relaxed reinforcement detail was evaluated through a cyclic reversal loading test. The specimens were constructed to measure the results of the experimental variable regarding the reinforcement details of the special boundary element. Next, the seismic performances of a special shear wall structural system and that of a special shear wall structural system with relaxed reinforcement detail was evaluated by methods proposed in the FEMA P695. The cyclic reversal loading test results of this study showed that the performance of the shear wall with relaxed reinforcement detail was almost similar to the performance of a special shear wall and has the performance which requested from standard. The results of the seismic evaluation showed that all special shear walls with relaxed reinforcement detail are satisfied with the design code and seismic performance.