• Journal of the Korea institute for structural maintenance and inspection
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• v.26 no.1
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• pp.29-38
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• 2022

Recently, seismic design for anchors is required, which are used for connecting structural members and non-structural and structural members. In this study, pull-out tests on the new expansion anchors which have been developed for cracked concrete. The anchors of 12 mm and 20 mm diameters were tested which are commonly used. Experiments were conducted on non-cracked concrete and cracked concrete to evaluate the seismic performance of the post-installed anchor. The experimental method complies with the specified test protocol (KCI, 2018). Three experimental variables are included in this study: presence of cracks, concrete compressive strength, and effective embedment depth. The strength of the anchors was evaluated with the characteristic capacity K_5% determined from the test results incorporated with the safety of 5% fractile. The characteristic capacity K_5% of the non-cracked and cracked concrete specified in KDS 14 20 54 are 9.8 and 7.0, respectively. Test results show that all groups except the three groups have higher characteristic capacity K_5% than the KDS code and the nominal strengths of the tested anchors can be determined with the obtained characteristic capacity K_5%.

• Journal of the Korean Society for Advanced Composite Structures
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• v.2 no.3
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• pp.36-41
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• 2011

This study proposes a experimental method to evaluate bonding strength of FRPs used for retrofitting concrete structures. Specimens are designed so that debonding failure of FRPs can be induced from reinforced concrete beams retrofitted with two layers of carbon and glass FRPs. And three-point loading tests are performed to see if debonding failure with proper debonding strength is observed from the specimens. The test results show that the tested beams are failed due to debonding of FRPs, therefore, the proposed test method is capable of evaluating debonding strength of FRPs using relatively small normal strength concrete beams.

• Computational Structural Engineering
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• v.9 no.1
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• pp.125-132
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• 1996

This study is to propose a practical and realistic reliability analysis by ETCM (Expected Total Cost Minimization). One of the main objectives is intended to propose the safety assessment and capacity rating of existing reinforced concrete members by evaluation index, that is RF(Rating Factor) from the results of the field test and inspection for reinforced concrete bridge. ETCM method is used for the reliability analysis of the proposed models. The proposed reliability model and method are applied to the safety assessment and system factors of reinforced concrete members.

• Computational Structural Engineering
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• v.3 no.1
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• pp.15-16
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• 1990

한국건설기술연구원 구조연구실에서는 한국전력공사 토건연구실과 공동으로 N5200기종을 이용하여 철근콘크리트로 된 건축라멘구조의 해석 및 설계를 일관작업으로 시행할 수 있는 프로그램 KARST.1을 개발하였다. 본래 OA(Office Automation)용으로 개발된 N5200 기종은 현재 많은 분야에 보급, 사용되고 있는 IBM PC호환기종 보다 그 보급대수는 적지만 국내 여러기관에서 사용되고 있으며 계속적인 기계 성능의 향상과 다양한 Utility를 제공함으로써 적용분야를 증가시킬 수 있으리라 본다. 그러나 과학기술용으로 적용하기에는 아직 불편한 점이 많아 이 기종을 사용하여 구조물해석, 설계용으로 프로그램을 개발할 때 발생된 문제점과 KARST.1의 기능 및 특징을 간단히 소개하겠다.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.18 no.3
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• pp.356-363
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• 2017

Blast furnace slag(BFS) is a by-product generated during the manufacture of pig ion, and is divided into water-cooled slag(WS) and air-cooled slag(AS) by the coking method of BFS. In this study, concrete specimens with ternary binders were produced at the various replacement levels of cement by AS. Various mechanical properties of concrete, such as compressive and split tensile strengths, absorption and water permeable pore, were measured. In addition, the chloride ions penetration resistance and carbonation resistance were tested to evaluate the durability of concrete incorporating AS. The experimental data indicated that the use of AS up to a maximum of 10% replacement level enhanced the concrete performance. However, a higher replacement of AS exhibited poor mechanical properties and concrete durability.

• Journal of the Computational Structural Engineering Institute of Korea
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• v.29 no.1
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• pp.1-8
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• 2016

In this paper, we perform structural analysis for a base frame which is used to support a motor for large centrifugal compressor drives and a safety assessment according to the concrete placement. First, the structural analysis about four loading conditions for the motor base frame was conducted and the structural safety was evaluated through both the maximum distortion energy theory and Mohr-Coulomb theory. It was possible to perform a more reasonable safety evaluation against local stresses occurring at the discontinuous portion of the fragile structural members by applying the safety assessment through ASME VIII Div. 2. In addition, the motor base frames with and without the internal concrete placement were quantitatively compared by the structural analysis and safety evaluation using ASME code and it was found to improve the structural integrity due to the concrete placement.

• Computational Structural Engineering
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• v.14 no.2
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• pp.30-38
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• 2001

• Journal of the Mineralogical Society of Korea
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• v.3 no.1
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• pp.18-33
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• 1990

각종 콘크리트 구조물의 기초공사에서 생기는 문제점 외에 시멘트와 골재자체의 반응, 즉 알카리-골재반응에 의한 물리, 화학적인 변화가 구조물에 피해를 주는 일차적인 요인으로 작용된 사례가 최근 10년간 외국에서는 잇달아 보고 되고 있다. 국내산 콘크리트 구조물에 대한 본 연구에 의하면 변성작용을 받은 이축성 석영, 자아석류가 시멘트로부터 공급된 알카리용매에 쉽게 반응, 붕괴되며 조립질보다 세립질 골재에 더 큰 영향이 나타난다. 골재와 시멘트 사이의 반응에 의하여 K, Na, Ca 및 Si 성분이 함량이 높은 부분으로부터 낮은 곳으로 상호 치환 이동되는데 그 과정에서 smectite와 illite같은 점토광물이 반응생성물로 정출된다. 이러한 광물은 구조물 내에서 수분의 흡수와 방출에 의하여 부피의 팽축이 거듭됨으로써 콘크리트 구조물에 심각한 손상을 야기시킨다.

• Magazine of the Korea Concrete Institute
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• v.20 no.2
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• pp.37-42
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• 2008

• Journal of the Computational Structural Engineering Institute of Korea
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• v.35 no.4
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• pp.235-242
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• 2022

Compared with buildings that have already been constructed, buildings under construction may be more vulnerable to such natural disasters as earthquakes because the concrete strength is not yet sufficient. Currently, Korean design standards present minimum performance targets for each seismic grade of buildings, but the seismic load for design is based on a return period of 2400 years. However, because the construction period of the building is much shorter than the period of use of the building, the application of the earthquake return period of 2400 years to buildings under construction may be excessive. Therefore, in this study, a construction stage model of buildings with 5, 15, 25, and 60 floors was created to analyze earthquake loads during construction of residential reinforced concrete (RC) buildings. The structural stability was confirmed by applying reduced seismic loads according to the return period. As a result, the structural stability was checked for an earthquake of the return period selected according to the construction period, and the earthquake return period that can secure structural safety according to the size of the building was confirmed.