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내부그라우팅으로 미세균열이 보수된 철근콘크리트 시공이음부의 역학적 특성에 관한 연구
오병환 ( Oh Byung-hwan ),김세훈 ( Kim Se-hoon ),이근희 ( Lee Keun-hee ) 한국구조물진단유지관리공학회 2003 한국구조물진단유지관리공학회 논문집 Vol.7 No.1
Grouting internally with grout materials can repair the micro-cracks and micro-voids of construction joints more efficiently than injecting grouts from the surface of cracks. A new internal grouting method using perforated bundled-cables was developed in this study to enhance the structural integrity of the construction joints. The extensive experiments were performed to examine the mechanical behavior of construction joints which are repaired internally by the developed method. The tests were conducted for rectangular-shaped box wall structures and straight wall structures. The strength and permeability tests at grouted construction joints were conducted to evaluate the structural behavior of repaired construction joints. The present study indicates that the internal grouting method developed in this study enhances greatly the performance of construction joints and may be efficiently used for the leak-tight integrity of construction joints in concrete structures.
현장 모형실험을 통한 벽체구조물의 온도 및 응력발생 특성 분석
오병환 ( Oh Byung-hwan ),최성철 ( Choi Seong-cheol ),박해균 ( Park Hae-kyun ),주태성 ( Joo Tae-sung ) 한국구조물진단유지관리공학회 2002 한국구조물진단유지관리공학회 학술발표대회 논문집 Vol.6 No.1
Recently, the underground reinforced concrete(RC) box structures have been increasingly built in Korea. In such structures, the heat of hydration may cause serious crackings in wall member. Thus, the RC box structures needs much attention to control the hydration heat during construction. The purpose of the present study is to analyse temperature and thermal stress of base-restrained wall member which had been made in field. The time-dependent behaviors of early age concrete including temperature and thermal stress are analyzed through experimental results.
[제4분과/구조거동/재료Ⅱ] 반복하중을 받는 철근콘크리트의 부착슬립 모델
오병환(Oh Byung Hwan),김세훈(Kim Se Hoon),김지상(Kim Ji Sang) 한국구조물진단유지관리학회 2004 한국구조물진단학회 학술발표회논문집 Vol.- No.-
The crack widths of reinforced concrete flexural members are influenced by repetitive fatigue loadings. The bond stress-slip relation is necessary to estimate these crack widths realistically. The purpose of the present study is, therefore, to propose a realistic model for bond stress-slip relation under repeated loading. To this end, several series of tests were conducted to explore the bond-slip behavior under repeated loadings. Three different bond stress levels with various number of load cycles were considered in the tests. The present tests indicate that the bond strength and the slip at peak bond stress are not influenced much by repeated loading if bond failure docs not occur. However, the values of loaded slip and residual slip increase with the increase of load cycles. The bond stress after repeated loading approaches the ultimate bond stress under monotonic loading and the increase of bond stress after repeated loading becomes sharper as the number of repeated loads increases. The bond stress-slip relation after repeated loading was derived as a function of residual slip, bond stress level. and the number of load cycles. The models for slip and residual slip were also derived from the present test data.
오병환 ( Oh Byung-hwan ),조인호 ( Cho In-ho ),이영생 ( Lee Young-saeng ),이근희 ( Lee Keun-hee ) 한국구조물진단유지관리공학회 2003 한국구조물진단유지관리공학회 논문집 Vol.7 No.1
Developed is a new environment-friendly concrete-block retaining wall system. The conventional analysis methods are not directly applicable because the proposed concrete-block wall system is made of by interlocking the blocks with shear keys. Therefore, the shear analysis as well as stability analysis have been conducted to secure the safety of block-wall system. Overall slope stability analysis was also performed. An appropriate strengthening method was developed to ensure the safety when the block-wall system is relatively high. The method of analysis for strengthening the concrete-block wall system was also proposed. The proposed environment-friendly concrete block retaining wall system shows reasonable safety and can be a good construction method for retaining walls and river bank walls.