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횡구속 콘크리트의 압축 응력-변형률 모델 : Part I. 원형단면 부재 KCI 등재

Stress-Strain Model for Laterally Confined Concrete : Part I. Circular Sectional Members

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  • URLhttps://db.koreascholar.com/Article/Detail/320597
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한국지진공학회 (Earthquake Engineering Society of Korea)
초록

In order to avoid collapse of bridges in earthquakes bridge piers are generally designed to attain sufficient ductility. This full-ductility design method has merits for securing the seismic safety readily against strong earthquakes but, it has weakness of high cost design because of excessive safety margin. Recently, in many countries with high seismic technologies, the seismic design concept tends to shift from the collapse prevention design to the performance-based one which requires different performance (damage) levels according to the structural importance. In order to establish this performance-based design method the displacement ductility of confined concrete members should be evaluated quantitatively. And the stress-strain model of confined concrete is indispensible in evaluating displacement ductility. In this study, 6 test groups with different lateral reinforcement ratios were prepared. 10 same specimens with circular section for each group were tested to obtain more reliable test results. The characteristic values necessary for composing the stress-strain model were obtained from experiments. Based on these characteristic values the new stress-strain model modifying the Hoshikuma's one has been proposed.

저자
  • 선창호(University of Ulsan) | Sun, Chang Ho
  • 정혁창(TAEIN ENC) | Jeong, Hyeok
  • 김익현(University of Ulsan) | Kim, Ick hyun Corresponding author