Flexural Load-Carrying Capacity and Failure Mechanism of RC Beams with Low Effective Depth under Running Wheel-Load
スポンサーリンク
概要
- 論文の詳細を見る
Cracking damage occurs in the reinforced concrete (RC) slabs of highway bridges due to the passage of heavy vehicles. Tests were conducted to determine the ultimate flexural capacity and failure mechanism of two types of RC beam with different effective depths (Type A: d = 17.2 cm/Type B: d = 21.2 cm) modeled on RC slabs and subjected to running wheel-loads. The flexural load-carrying capacity for beams subjected to running wheel-loads decreased 16% for both Type A and Type B, as compared to beams subjected to static loads. The failure configuration for static loads and following running wheel-loads was a diagonal tension failure with a spread of approximately 50 - 55 deg. starting from directly beneath the wheels. For running wheel-loads of a constant strength and running wheel-loads that included vibrations, the crack that occurred at the lower edge progressed to the compression bars due to increased load strength and repeated running and became flexural tension failure. In the case of running vibration-loads, it was learned that the frequency greatly affected the cracking interval and the reduction in bending rigidity.
- 社団法人日本材料学会の論文
- 2001-09-15
著者
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Abe Tadashi
Department Of Civil Engineering College Of Industrial Technology Nihon University
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Kato K
Department Of Civil Engineering College Of Industrial Technology Nihon University
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ABE Tadashi
College of Industrial Technology, Nihon University
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KIDA Tetsukazu
College of Industrial Technology, Nihon University
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SAWANO Toshiaki
College of Industrial Technology, Nihon University
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HOSHINO Masaaki
College of Science and Technology, Nihon University
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KATO Kiyoshi
College of Industrial Technology, Nihon University
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KIDA Tetsukazu
Department of Civil Engineering, College of Industrial Technology, Nihon University
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Sawano Toshiaki
Department Of Civil Engineering College Of Industrial Technology Nihon University
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Hoshino Masaaki
College Of Science And Technology Nihon University
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Abe Tadashi
Department Of Civil Engineering College Of Industrial Engineering Nihon University
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KIDA Tetsukazu
College of Ind. Tech., Nihon Univ.
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KATO Kiyoshi
College of Ind. Tech., Nihon Univ.
関連論文
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- Evaluation of Deterioration and Specification of Defect of RC Structure by Natural Potential and External Impact-Acoustic Methods
- Flexural Load-Carrying Capacity and Failure Mechanism of RC Beams with Low Effective Depth under Running Wheel-Load
- Upper-Bound Equation of Compressive Load-Carrying Capacity of RC Column Considering Characteristic of Material and Buckling of Primary Reinforcement
- EFFECT OF RUNNING LOAD ON FLEXURAL LOAD-CARRYING CAPACITY OF REINFORCED CONCRETE BEAMS AND DYNAMIC EFFECTS
- Flexural Load-Carrying Capacity and Dynamic Effects of RC Beam due to Running Vibration Load
- EXPERIMENTAL RESEARCH RELATED TO THE EFFECT OF TRAVELIN LOAD ON THE FLEXURAL LOAD-CARRYING CAPACITY OF RC BEAMS
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- New Deterioration Index and Overdesign Factor of Strength for Structural Concrete due to Freezing and Thawing Action
- EVALUATION OF CORROSION DEGREE AND MECHANISM OF SURFACE CRACKING OF RC STRUCTURE
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