• 대한기계학회논문집A
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• 제31권2호
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• pp.166-173
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• 2007

Fatigue fracture behavior of a hybrid bolted joint was evaluated in comparison to the case of static fracture. Two kinds of specimens were fabricated for the mechanical tests; a hybrid bolted joint specimen for the shear test and a hybrid joint part specimen applied in the real tilting car body for the bending test. Characteristic fracture behaviors of those specimens under cyclic toads were obviously different from the case under static loads. For the hybrid bolted joint specimen, static shear loading caused the fracture of the bolt body itself in a pure shear mode, whereas cyclic shear loading brought about the fracture at the site of local tensile stress concentration. For the hybrid joint part specimen, static bend loading caused the shear deformation and fracture in the honeycomb core region, while cyclic bend loading did the delamination along the interface between composite skin and honeycomb core layers as well as the fracture of welded joint part. Experimental results obtained by static and fatigue tests were reflected in modifications of design parameters of the hybrid joint structure in the real tilting car body.

• Earthquakes and Structures
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• 제17권4호
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• pp.399-409
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• 2019

This paper presents the experimental investigations on the seismic performance of a peculiar steel-concrete vertical hybrid structural system referred to as steel truss-RC tubular column hybrid structure. It is typically applied as the supporting structural system to house air-cooled condensers in thermal power plants (TPPs). Firstly, pseudo-dynamic tests (PDTs) are performed on a scaled substructure to investigate the seismic performance of this hybrid structure under different hazard levels. The deformation performance, deterioration behavior and energy dissipation characteristics are analyzed. Then, a cyclic loading test is conducted after the final loading case of PDTs to verify the ultimate seismic resistant capacity of this hybrid structure. Finally, the failure mechanism is discussed through mechanical analysis based on the test results. The research results indicate that the steel truss-RC tubular column hybrid structure is an anti-seismic structural system with single-fortification line. RC tubular columns are the main energy dissipated components. The truss-to-column connections are the structural weak parts. In general, it has good ductile performance to satisfy the seismic design requirements in high-intensity earthquake regions.

• 한국압력기기공학회 논문집
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• 제13권1호
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• pp.16-39
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• 2017

This paper reviewed and summarized the experimental studies conducted during last three decades to evaluate the structural integrity and to establish the acceptance criteria for piping system of nuclear power plants (NPPs) under seismic loading condition. These experimental studies contain the results of large-scale piping system tests under excessive seismic loading as well as standard specimen tests, simplified piping specimen tests, and piping components tests under simplified dynamic and cyclic loading. These would be useful as a basis for establishing integrity assessment procedure and acceptance criteria for piping systems of NPPs under beyond design basis earthquake (BDBE) conditions, and also could be used in planing the scope and direction of further related researches.

• Steel and Composite Structures
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• 제24권2호
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• pp.239-248
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• 2017

Friction dampers are displacement dependent energy dissipation devices which dissipate earthquake energy through friction mechanism and widely used in improving the seismic behavior of new structures and rehabilitation of existing structures. In this paper, the cyclic behavior of a friction damper with different friction materials is investigated through experimental tests under cyclic loading. The damper is made of steel plates, friction pads, preloaded bolts and hard washers. The paper aims at investigating the hysteretic behavior of three friction materials under cyclic loading to be utilized in friction damper. The tested friction materials are: powder lining, super lining and metal lining. The experimental results are studied according to FEMA-356 acceptance criteria and the most appropriate friction material is selected by comparing all friction materials results.

• 한국세라믹학회지
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• 제33권11호
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• pp.1203-1208
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• 1996

질화규소의 균열진전시험은 정적 및 반복사중하의 균열진전특성을 명확히 밝혔다. 일정 K값의 정적하중에서 균열진전속도는 균열진전증가와 더불어 감소하고 최종적으로는 정지하였다. 또 균열진전저항은 응력반복에 의해 크게 감소하였다. 특히 균열진전저항은 균열진전증가와 더불어 증가하였고, 증가속도는 정적하중보다 반복하중하에서 훨씬 작았다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2006년도 추계 학술발표회 논문집
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• pp.13-16
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• 2006

This article summarizes tests conducted on two full-scale interior slab-column connections with and without partially debonded reinforcement subjected to cyclic loading. Each test specimen consisted of a 4.2m square slab with a 355mm square column protruding 1.5m above and below the slab. The slab thickness was 152mm. The specimen with partially debonded reinforcement exhibited more lateral drift capacity than did the specimen with fully bonded reinforcement. With partial debonding of the flexural reinforcement, cyclic load appeared to produce less damage to the connection in the vicinity of the slab-column joint region.

• 한국산업융합학회 논문집
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• 제22권6호
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• pp.739-748
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• 2019

In this study, cyclic triaxial tests were performed for liquefaction characteristics according to earthquake loading frequency. The test period was tested for 0.1Hz, 0.2Hz, 0.5Hz 1.0Hz, 1.5Hz. It was analyzed that the number of earthquake loading increases as the test result frequendy increases. Therefore, additional study of the liquefaction evaluation method was needed considering the local characteristics of the high frequency earthquakes in Korea and the cyclic triaxial test frequency(0.1Hz), which is mainly used in the design.

• 터널과지하공간
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• 제9권4호
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• pp.350-363
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• 1999

주기전단하중 하의 암석 절리에 대한 역학적 거동을 규명하기 위해 정밀 주기전단시험 장치를 설계·제작하였다. 실험실에서 황등화강암과 여산대리석 인공 절리 시료로 펑면절리와 거친 절리에 대해 일련의 주기전단시험을 실시하였다. 시료에 대한 레이저 변위계를 이용한 3차원 거칠기 측정을통해 절리의 거칠기 특성을규명하였다. 주기전단시험 결과를 통해 주기전단 과정의 단계별 거동 특성과하중과제하시의 거동 차이, 전단거동의 이방성 등을고찰하였다. 거친 절리면의 역학적 거동 특성은 주로 2차 거칠기의 영향과 암석 재료의 높은 강도에 영향을 받았다. 주기전단시 거친 절리에 대한 돌출부 손상이 지수적인 거칢각 손상 법칙을 따름을 실험적으로 검증하였으며, 수직응력파 거칠기 종류, 하중 단계에 따라 돌출부들의 손상 기구가 다름을 확인하였다.

• Geomechanics and Engineering
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• 제21권5호
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• pp.433-445
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• 2020

The weakening and softening behavior of soft clay subjected to cyclic loading due to the build-up of excess pore water pressure is well-known. During the design stage of the foundation of highways and coastal high-rise buildings, it is important to study the mechanical behavior of marine soils under cyclic loading as they undergo greater settlement during cyclic loading than under static loading. Therefore, this research evaluates the cyclic stress-strain and shear strength of untreated and treated marine clay under the effects of wind, earthquake, and traffic loadings. A series of laboratory stress-controlled cyclic triaxial tests have been conducted on both untreated and treated marine clay using different effective confining pressures and a frequency of 0.5 and 1.0 Hz. In addition, treated samples were cured for 28 and 90 days and tested under a frequency of 2.0 Hz. The results revealed significant differences in the performance of treated marine clay samples than that of untreated samples under cyclic loading. The treated marine clay samples were able to stand up to 2000 loading cycles before failure, while untreated marine clay samples could not stand few loading cycles. The untreated marine clay displayed a higher permanent axial strain rate under cyclic loading than the treated clay due to the existence of new cementing compounds after the treatment with recycled tiles and low amount (2%) of cement. The effect of the effective confining pressure was found to be significant on untreated marine clay while its effect was not crucial for the treated samples cured for 90 days. Treated samples cured for 90 days performed better under cyclic loading than the ones cured for 28 days and this is due to the higher amount of cementitious compounds formed with time. The highest deformation was found at 0.5 Hz, which cannot be considered as a critical frequency since smaller frequencies were not used. Therefore, it is recommended to consider testing the treated marine clay using smaller frequencies than 0.5 Hz.

• 한국지반공학회논문집
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• 제32권12호
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• pp.79-91
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• 2016

토목섬유를 보강한 성토지지말뚝(GRPS) 공법은 연약지반 상부에 건설되는 성토구조물의 잔류침하를 억제하고, 공사기간을 단축할 수 있는 방법으로 그 적용성이 확대되고 있다. 이에, 세계 각국에서는 다양한 연구를 통해 설계방법을 제안해왔지만, 동적하중을 고려한 시스템의 거동은 확실하게 규명되지 않은 실정이다. 본 논문에서는 섬유보강 지지말뚝 성토체내의 동적하중 전이 특성을 분석하기 위하여 실물크기의 시스템을 조성한 후, 반복재하 실험을 수행하였다. 실험은 토목섬유를 설치하지 않은 무보강, 토목섬유를 1겹 설치한 보강, 2겹 설치한 보강을 조건으로 총 3가지 경우로 나누어 진행하였다. 말뚝과 토목섬유 상부에 각각 하중계를 설치하여 반복재하 횟수에 따른 수직하중을 측정한 결과, 토목섬유의 보강효과를 제외하고 아칭효과에 의해서만 전이되는 반복하중은 오히려 인장력이 큰 토목섬유로 보강할수록 감소하는 경향이 나타났다. 그러나 최종 말뚝으로 전달되는 반복하중의 크기는 토목섬유를 보강하지 않은 경우와 1겹, 2겹 보강한 경우에서 모두 비슷한 것으로 평가되었다. 이는 토목섬유의 보강이 말뚝으로 집중되는 하중을 증가시킨다는 기존의 연구와는 상반된 결과로, 이를 바탕으로 반복하중 전이 메커니즘의 상관관계를 분석하고자한다 또한, 반복하중 재하 초기 말뚝으로의 하중전달 효과가 감소하는 경향이 보였으며, 이는 반복하중에 의한 아칭효과 감소에서 기인한 것으로 판단된다.