• Title/Summary/Keyword: Design Aid Charts

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Structural Performance of H-shaped Column-Rafter Connection in the P.E.B Systematic Steel Frames (P.E.B 시스템 강골조에서 H형강 기둥 - Rafter 접합부의 구조성능)

  • Kim, Jong Sung
    • Journal of Korean Society of Steel Construction
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    • v.17 no.3 s.76
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    • pp.347-356
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    • 2005
  • Recently, pre-engineering building (P.E.B.) systematic frames are increasingly being used in steel factory buildings, but almost of the related techniques are dependent on the engineering program (e.g, MBS, LTI), which is usually imported from other countries. These are designed under the AISC-ASD because at present there is no Korean design code for P.E.B. frames. Also, there are few studies onbehaviour and we need to develop the element techniques by using H-shaped components.In particular, there is a tendency towards overestimated design because column-rafter connections have been designed with extended end plate type joint, which is treated asrigid joint,so structural examinations are needed. Therefore, this study represents a basic step in ascertaining the application of P.E.B. systematic frames by using H-shaped column-rafter connectionwith flush type end plate. Its structural performance is compared with that of existing extended type joint using a structural performance test. The structural behaviour of specimen was understood qualitatively and the possibility of application (e.g, design aid charts) of semi-connection (flush type) with H-shaped column-rafter was determined.

Development of Prediction Method for Behavior of Reinforced Very Soft Clay (표층보강 초연약지반 거동의 예측 방법 개발)

  • Lee, Jong-Sun;Lee, Chul-Ho;You, Seung-Kyong;Choi, Hang-Seok
    • Proceedings of the Korean Geotechical Society Conference
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    • 2009.09a
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    • pp.482-491
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    • 2009
  • In this study, the mechanical behavior of very soft ground that is reinforced on the surface has been investigated with the aid of a series of numerical analyses. Key material properties of each dredged soft ground, reinforcement and backfill sand mat have been parametrically estimated in the numerical analysis. Along with the result of the study previously performed, a series of in-situ loading conditions and settlement exerted by surface reinforcing operation by construction vehicles has been numerically simulated. These result have been used to evaluate the limit bearing capacity for the unreinforced and reinforced soft ground. Also, the results of the numerical analysis obtained in this research were compared with Yamanouchi's empirical correlation for the limit bearing capacity. Engineering charts listed in this paper for estimating the limit bearing capacity provide field engineers with preliminary design tool for surface reinforcement of very soft ground.

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