• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2001년도 춘계학술발표대회 논문집
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• pp.69-73
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• 2001

Damage induced by low-velocity impact on the curved composite laminates was experimentally evaluated for CFRP cylindrical shells with the radius of curvatures of 50, 150, 300, and 500 mm. The result was then compared with that of flat laminates. The radius of curvatures and the effective shell stiffness appeared to considerably affect the dynamic impact response of curved shells. Under the same impact energy level, the maximum contact force increased with the decreasing radius of curvatures, with reaching 1.5 times that for plates at the radius of curvature of 50 mm. Since the maximum contact force is directly related to the impact damage, curved laminates can be more susceptible to delamination and less resistant to the low-velocity impact damage. The distribution of delamination along the thickness direction of curved laminates are also different from that of flat plates. Delamination was distributed rather even]y at each interface along the thickness direction of curved laminates. This implies that the effect of curvatures has to be considered for the design of a curved composite laminate.

• 대한조선학회논문집
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• 제57권4호
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• pp.207-212
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• 2020

To decide a separation distance of the redundant vital equipment in a naval ship, the damage radius due to an aerial explosion should be estimated. In this research, a simplified formula for the damage radius has been developed by using existing empirical formulae for reflected shock pressure and shock lethality value of equipment. As a numerical example, the damage radius for a typical pump aboard a naval ship has been calculated by the developed formula and compared with the results calculated by Measure of Total Integrated Ship Survivability (MOTISS) which is one of survivability analysis codes verified, validated and accredited by the US Navy. Also, comparison with the results calculated by existing other simplified formulae has been made.

• Geomechanics and Engineering
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• 제21권3호
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• pp.289-300
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• 2020

Estimating the damage induced by an explosion around a blast hole has always been a challenging issue in geotechnical engineering. It is difficult to determine an exact dimension for damage zone since many parameters are involved in the formation of failures, and there are some uncertainties lying in these parameters. Thus, the present study adopted a probabilistic approach towards this problem. First, a reliability model of the problem was established and the failure probability of induced damage was calculated. Then, the corresponding exceedance risk curve was developed indicating the relation between the failure probability and the cracked zone radius. The obtained risk curve indicated that the failure probability drops dramatically by increasing the cracked zone radius so that the probability of exceedance for any crack length greater than 4.5 m is less than 5%. Moreover, the effect of each parameter involved in the probability of failure, including blast hole radius, explosive density, detonation velocity, and tensile strength of the rock, was evaluated by using a sensitivity analysis. Finally, the impact of the decoupling ratio on the reduction of failures was investigated and the location of its maximum influence was demonstrated around the blast point.

• Composites Research
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• 제14권2호
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• pp.22-32
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• 2001

유한한 곡률을 가진 적층복합재 구조의 저속충격손상을 평가하기 위하여 곡률반경이 각각 50, 150, 300, 500 mm인 쉘 형태의 시편을 CFRP로 제작하여 충격실험을 행하고, 충격거동과 충격손상을 평판의 경우와 비교하여 고찰하였다. 실험결과는 비선형 유한요소해석의 결과와 비교하였다. 충격손상의 평가를 위해 충격거동을 측정한 결과 강성과 곡률반경이 쉘의 동적 충격거동에 큰 영향을 미치는 것을 확인하였으며, 충격거동과 충격손상은 밀접한 상호관계가 있으므로 구조의 곡률반경을 독립변수로 선정하여 충격손상을 평가하였다. 곡률반경이 감소하면서 복합재 쉘에는 동일한 충격조건에서 더 큰 최대 접촉력이 발생하였고, 가장 곡률이 심한 곡률반경 50 mm의 쉘에서는 평판의 약 1.5배에 이르는 최대 접촉력을 나타내었다. 따라서 동일한 충격조건 하에서 곡률반경 50 mm의 쉘에서는 평판의 경우보다 약 2.7때정도 더 큰 층간분리가 내부에 발생하였으며, 층간분리의 분포 또한 평판의 경우와는 달리 충격면에 가까운 계면에도 광범위하게 발생하는 경향이 곡륜반경이 감소할수록 더욱 현저하였다. 이는 곡률을 가진 구조가 평판 구조보다 손상저항성이 더 작은 것을 의미하므로 복합재료 설계 시 구조의 기하학적 형상을 반드시 고려하여야 한다.

• 한국복합재료학회:학술대회논문집
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• 한국복합재료학회 2000년도 추계학술발표대회 논문집
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• pp.92-97
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• 2000

저속 충격을 받은 복합재로 만들어진 두꺼운 압력용기의 파괴모드와 손상 상태에 대하여 조사하여 이를 정량적으로 나타내는 것이 본 연구의 관심이다. 본 논문에 사용된 시편은 압력용기의 중앙을 길이 305mm로 잘른 원통형 ring모양이다. 충격자는 직경이 25.4mm와 12.7mm인 반구형 2종류와 모서리의 직경이 1mm인 원추형 1종류로 무게는 3.9kg이며 자유낙하 높이는 20mm에서 200mm로 종류에 따라 간격을 달리했다. 실험 장치로는 실린더가 충격에 흔들리지 않도록 고정하는 받침대와 자유낙하 하는 impactor 이며 impactor의 윗면에 한 개의 가속도 게이지를 설치했으며 밑면에 90도 간격으로 4군에 스트레인 게이지를 붙여 충격에너지, 최대 충격력, contact radius를 측정하고 시험후 시편은 방사선 촬영을 하여 충격자의 종류에 따라 손상의 정도가 어떻게 다른지를 파악했다. Herzian이론을 사용하여 contact radius를 구하고 측정된 자료와 비교 검토하였다. Contact radius 값은 충격자의 직경이 클수록 큰 것을 알수 있고 실험치 값은 이론치 값 보다 큰데 이는 실제 연소관의 기계적 성질의 값이 계산치 보다 적은 것이 원인이다. 직경이 25.4mm인 반구형의 충격자는 직경이 12.7mm인 반구형의 충격자에 비하여 내부에 delamination크기가 컸다. 가속도의 값은 높이에 따라 선형적으로 변하고 충격자의 모양이 둔탁할수록 가속도 값이 커지는 것을 알 수 있다.

• 한국공간구조학회논문집
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• 제16권3호
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• pp.67-78
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• 2016

Determining of the shape in the process of design for natural draught cooling tower is very important, because the shape of hyperbolic shell is respond sensitively to dynamic behavior of the whole cooling tower against wind load. In engineering practice, the geometric parameters have been determining based on the natural frequency. This study analyses influence of the tower shell geometric parameters on the structural behavior. For three representative models were selected, they were analyzed based on evaluation of damage by means of nonlinear FE-method. As a result, a hyperbolic rotational shell with the small radius overall was the lowest damage index induced by sufficient capacity of the stress redistribution and thus a wind-insensitive structure.

• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2008년도 춘계학술대회 논문집
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• pp.154-156
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• 2008

• Structural Monitoring and Maintenance
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• 제7권4호
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• pp.367-392
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• 2020

The specific characteristics of near-field earthquake records can lead to different dynamic responses of bridges compared to far-field records. However, the effect of near-field strong ground motion has often been neglected in the seismic performance assessment of the bridges. Furthermore, damage to horizontally curved multi-frame RC box-girder bridges in the past earthquakes has intensified the potential of seismic vulnerability of these structures due to their distinctive dynamic behavior. Based on the nonlinear time history analyses in OpenSEES, this article, assesses the effects of near-field versus far-field earthquakes on the seismic performance of horizontally curved multi-frame RC box-girder bridges by accounting the vertical component of the earthquake records. Analytical seismic fragility curves have been derived thru considering uncertainties in the earthquake records, material and geometric properties of bridges. The findings indicate that near-field effects reasonably increase the seismic vulnerability in this bridge sub-class. The results pave the way for future regional risk assessments regarding the importance of either including or excluding near-field effects on the seismic performance of horizontally curved bridges.

• Structural Engineering and Mechanics
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• 제68권6호
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• pp.735-745
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• 2018

The Big Bang-Big Crunch (BB-BC) algorithm is an effective global optimization technique of swarm intelligence with drawbacks of being easily trapped in local optimal results and of converging slowly. To overcome these shortages, an improved BB-BC algorithm (IBB-BC) is proposed in this paper with taking some measures, such as altering the reduced form of exploding radius and generating multiple mass centers. The accuracy and efficiency of IBB-BC is examined by different types of benchmark test functions. The IBB-BC is utilized for damage detection of a simply supported beam and the European Space Agency structure with an objective function established by structural frequency and modal data. Two damage scenarios are considered: damage only existed in stiffness and damage existed in both stiffness and mass. IBB-BC is also validated by an existing experimental study. Results demonstrated that IBB-BC is not trapped into local optimal results and is able to detect structural damages precisely even under measurement noise.

• 소성∙가공
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• 제16권6호
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• pp.426-431
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• 2007

Hydroformability and fracture criteria of FE analysis based on ductile fracture were investigated in warm hydroforming of A16061 tube. To evaluate the hydroformability, uni-axial tensile test and bulge test were performed at room temperature and $200^{\circ}C$. The measured flow stresses were used as input parameters for FE analysis. The damage values were calculated by FE analysis based on ductile fracture criteria at maximum radius of free bulged tubes. Damage values were compared of hexagonal shaped hydroformed parts. As a result, the formability by critical damage value for extruded tube is lower than that of full annealed tube up to 0.5.