• 한국농공학회지
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• 제24권2호
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• pp.49-55
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• 1982

The purpose of this study is to classify the factors influenced on the damages of head works suffered from the storm flood occurred on July 22 1980 in both Musim and Bochong rivers and to find out an integral counter measures against the causes influenced on the disaster of head works in the engineering aspect of planning, design, construction and maintenance. In this survey, number of samples was taken 25 head Works, and the counter measures against the causes of their disasters summarized was as follows, 1. In the aspect of planning a. As the flood water level after the establishment of head works is more increased than the level before setting of head works owing to having more gentle slope of river bed between the head works than nature slope of river bed. Number of head works should be reduced for the appropriate annexation of them b. In the place where head works is established on the curved point of levee, the destruction of levee becomes severe by the strong deflective current. Therefore the setting of head works on the curved point should be kept off as long as possible and in case of unavoidable circumstances the construction method such as reinforced concrete wall or stone wall filed with concrete and anchored bank revetments should be considered. 2. In the aspect of design a. As scoring phenomena at up stream is serious around the weir Where the concentration of strong current is present in such a place, up stream apron having impermeability should be designed to resist and prevent scoring. b. As the length of apron and protected bed is too short to prevent scoring as down stream bed, the design length should be taken somewhat more than the calculated value, but in the case the calculated length becomes too long to be profitable, a device of water cushion should be considered. c. The structure of protected river bed should be improved to make stone mesh bags fixed to apron and to have vinyl mattress laid on river bed together with the improvement for increasing the stability of stone mesh bags and preventing the sucked sand from the river bed. d. As the shortage of cut-off length, especialy in case of the cutoffs conneting both shore sides of river makes the cause of destruction of embankment and weir body, the culculation of cut-off length should be taken enough length based on seepage length. 3. In the aspect of design and constructions a. The overturing destruction of weir by piping action was based on the jet water through cracks at the construction and expansion joints. therefore the expansion joint should be designed and constructed with the insertion of water proof plate and asphalt filling, and the construction joint, with concaved shape structure and steel reinforcement. b. As the wrong design and construction of the weep holes on apron will cause water piping and weir destruction, the design and construction of filter based on the rule of filter should be kept for weep holes. c. The wrong design and construction of bank revetment caused the severe destruction of levee and weir body resulting from scoring and impulse by strong current and formation of water route behind the revetment. Therefore bank revetment should be designod and constructed with stone wall filled with concrete and anchored, or reinforced concrete wall to prevent the formation of water flow route behind the wall and to resist against the scoring and impulse of strong stream. 4. In the aspect of maintenance When the damaged parts occurred at head works the authorities and farmers concerned should find and mend them as soon as possible with mutual cooperation, and on the other hand public citizen should be guided for good use of public property.

• 한국산학기술학회논문지
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• 제17권11호
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• pp.604-609
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• 2016

본 논문에서는 추가 용지 없이 철도노선의 선로 용량을 증대시킬 수 있는 RSR(철도보강노반)의 장기성능을 평가하고 자 한다. 철도보강노반은 짧은 보강재를 강성벽체와 일체화하는 특징을 갖고 있어 협소한 공간에서의 적용이 가능하다. RSR의 장기성능을 평가하기 위한 시험시공은 높이 7m, 연장 40m의 규모로 장항선 주포역에서 실시되었다. 동 구간은 집중 호우로 인하여 노반이 붕괴된 구간으로 버스가 운행하는 도로가 인접한 구간이다. 시공 후 2년에 걸친 장기간의 계측을 통하여 새로운 형식의 철도보강노반에 대한 성능을 검증하였다. 성능평가를 위한 장기계측은 지표 및 원 지반 침하, 벽체 수평변위, 보강재 인장 변형률, 인접선로 레일의 연동침하에 대하여 실시하였다. 계측에 대한 분석결과 현 시점까지 철도노반으로서의 안전성 및 사용성은 충분히 확보 되고 있는 것으로 평가되었다. RSR기술은 쌓기재 부족현장 과 안전도 확보가 중요한 운행선 인접현장, 용지 경계 민원 발생구간 등을 중심으로 그 활용성이 높아질 것으로 기대된다.