• Title/Summary/Keyword: IPM bridge

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Behavior Analysis of IPM Bridge and Rahmen Bridge (토압분리형 교량과 라멘교의 거동분석)

  • Shin, Keun-Sik;Han, Heui-Soo
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.20 no.4
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    • pp.597-605
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    • 2019
  • IPM bridge is an integral bridge that can be applied from span 30.0m up to 120.0m, the shape conditions of IPM bridge is also applicable to the rahmen bridge. In this study, to perform the structural analysis of Rahmen bridge and IPM Bridge, the researchers compared the distribution types such as load, moment, and displacement of those bridges. Structural analysis was carried out on four span models ranging from single span bridges to four spans of 120.0 m, based on span length of 30.0 m. Structural analysis was carried out on those bridge with span 30.0m up to 120.0m. The conclusions drawn from this study are as follows. 1) The bending moments were calculated to be large for the Rahmen bridge, and the horizontal displacements were estimated to be large for the IPM bridge. 2) Since the bending moments are derived by the span length rather than the extension of the bridge, the permissible bending moment for the span length should be considered in the design. 3) The pile bent of the IPM bridge did not exceed the plastic moment of the steel pipe pile at 120.0m span, but because the horizontal displacement in the shrinkage direction is close to 25mm, the design considerations are needed. 4) In the actual design, it is important to ensure stability against member forces, so review of the negative moment is most important.

Behavior of integral abutment bridge with partially protruded piles

  • Park, Min-Cheol;Nam, Moon S.
    • Geomechanics and Engineering
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    • v.14 no.6
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    • pp.601-614
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    • 2018
  • This study presents structural and parametric analyses on the behavior of an integrated and pile-bent abutment with mechanically stabilized earth wall (IPM) bridge. The IPM bridge is an integral abutment bridge (IAB) with partially protruded piles, which excludes earth pressure by means of a mechanically stabilized earth wall developed by the authors. The results of the analysis indicate that the IPM bridge, as any other IAB, is influenced to a large extent by temperature and time-dependent loads. When these loads are applied, the stress on a pile in the IPM bridge decreases as the displacement of the pile top increases, because the piles protrude from the ground surface and no soil reaction is generated on the protruded pile. Because the length of an IAB is restricted by the forces acting on its piles, the IPM bridge is an effective alternative to extend its length.

Examination of Allowable Displacement by Structural Analysis of IPM Bridge (토압분리형 교량의 구조해석을 통한 허용 변위량 검토)

  • Kim, Hong-Bae;Han, Heui-Soo
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.20 no.4
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    • pp.534-544
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    • 2019
  • Because the pile-bent of IPM Bridge is projected from the soil surface, excessive displacement of abutment can be induced. According to design guide of IPM Bridge, the shape of the bridges used in this study was applied to the maximum applicable 120.0m span, 30-degree for skew angle, and 10.0m for the protruded pile-bent height. The maximum displacement by the maximum span application condition of the IPM Bridge was calculated using this bridge model, and the safety of a horizontal displacement of the IPM Bridge was investigated based on the allowable displacement presented by Bozozuk. The maximum horizontal displacement of the IPM Bridge was calculated to be larger in the winter shrinkage condition than in the summer expansion condition, the horizontal displacements were more affected by the length of a bridge than by the skew angle. And the vertical displacement was not affected by the skew angle and length. As the span increases, the horizontal displacement increases significantly, the horizontal displacement at 120.0m span length was found to exceed the allowable displacement proposed by Bozozuk. However, the moment generated in the pile-bent did not exceed the plastic moment.

[Retracted]Analysis of Minimum Penetrated Depth of Pile bent of IPM Bridge ([논문철회]토압분리형 일체식 교대 교량의 파일벤트에 대한 최소근입깊이 해석)

  • Kim, Hongbae;Kim, Taesu;Park, Jongseo;Han, Heuisoo
    • Journal of the Korean GEO-environmental Society
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    • v.18 no.5
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    • pp.45-53
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    • 2017
  • IPM bridge was developed to revise the problems of IAB bridge by Nam et al, (2016). This research conducted the p-y analysis to examine the parameter traits among the protruded length (H), penetrated length (L) of pile bent and soil conditions. From the results, the maximum bending moment happened in the top segment of pile bent, because it is integrated to the upper structure. Also, the maximum shear force was shown in the boundary of the sand and weathered soil zones according to the analysis soil conditions. The maximum member force and unbraced length is converged when the ratio (L/H) of protruded length (H) and penetrated length (L) is 1.0. The larger material force is happened, if the pile bent is penetrated shallowly compared to the protruded length. The definite inflection points were shown in the horizontal displacement curve from the p-y analysis, also the smaller penetrated length made the curve grade slower.

A Study on Settlement according to Height and Ground stiffness on the MSEW on the IPM Bridge (토압분리형 교량의 보강토옹벽의 높이와 기초지반 강성에 따른 침하량 검토)

  • Park, Min-Cheol
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.19 no.5
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    • pp.399-409
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    • 2018
  • The mechanically stabilized earth wall (MSEW) of the IPM bridge is an important structure that constitutes the bridge, and supports the horizontal earth pressure and approach slab. Therefore, it is necessary to carefully analyze the settlement of MSEW of the IPM bridge. This study examined the settlement according to the height and ground stiffness on the MSEW on the IPM Bridge. According to the design guideline, the IPM Bridge (2016) was designed to have a height of 4.0 ~ 10.0m and the elastic settlement was calculated. The base area and the grounding pressure of the MSE wall increased linearly with the height, and the elastic settlement also increased linearly. In addition, the stiffness of the foundations satisfying the allowable settlement of the approach slab is a N value of 35 or more. The settlement of finite element analysis was estimated to be smaller than the elastic settlement, and the stiffness of the foundation ground satisfied the allowable settlement of the approach slab above N value of 20. Because the elastic settlement of the MSEW of the IPM Bridge was overestimated, it will be necessary to examine it carefully by finite element analysis.

Development of Enhanced Interleaved PFC Boost Converter typed 650V Intelligent Power Module for up to 10kW HVAC Systems (10kW급 HVAC 시스템을 위한 Enhanced Interleaved PFC Boost 컨버터 형태의 650V IPM 개발)

  • Lee, Kihyun;Hong, Seunghyun;Kim, Taehyun;Jeong, Jinyong;Kwon, Taesung
    • Proceedings of the KIPE Conference
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    • 2018.07a
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    • pp.536-538
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    • 2018
  • This paper introduces an enhanced interleaved (IL) PFC (Power Factor Correction) boost converter typed 650V Intelligent Power Module (IPM), which is fully optimized hybrid IGBT converter modules; Silicon (Si) IGBT and Silicon Carbide (SiC) diode, for up to 10kW HVAC (Heating, Ventilation, and Air Conditioning) systems. It utilizes newly developed $4^{th}$ Generation Field Stop (FS) trench IGBTs, $EXTREMEFAST^{TM}$ anti-paralleled diodes, SiC Junction Barrier Schottky (JBS) diodes, Bridge rectifiers, Multi-function LVIC, and Built-in thermistor provide good reliable characteristics for the entire system. This module also takes technical advantage of DBC (Direct Bonded Copper) substrate for the better thermal performance. It is shown that the Si IGBT/SiC diode hybrid IL PFC module can achieve excellent EMI performance and greatly enhance the power handling capability or switching frequency of various applications compared to the Si IGBT/Diode. This paper provides an overall description of the newly developed 650V/50A Hybrid SiC IL PFC IPM product.

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Study on the Cooling Performance of Heatsink for Induction Cooktop using Computational Fluid Dynamics (인덕션 쿡탑 기구물 형상변경이 Heatsink 및 Coil 냉각성능에 미치는 영향에 대한 연구)

  • Park, Dong Ho;Kwon, Myoung Keun;Lee, Dong Beom;Seo, Eung Ryeol;Park, Yong Jong
    • The KSFM Journal of Fluid Machinery
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    • v.18 no.3
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    • pp.33-37
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    • 2015
  • A numerical study on the IPM/Bridge Diode cooling and coil cooling has been performed. Results are presented as plots of thermal resistance, temperature drop and RPM-ratio. CFD analysis for conventional cooling system has been performed as a reference case. As the RPM-Ratio was increased, heatsink thermal resistance and coil temperature were decreased. IPM/Bridge Diode thermal resistance and temperature of the coil is tended to be trade-off. The temperature of coil closest to the AC-motor fan showed the most significant change in accordance with duct design. The temperature of coil located at the top of DC-motor fan showed the most significant variation as the cooling air passes the heatsink fin area.

A method to analyze the strength of bridge in IPM type permanent magnet motor considering the effect of mechanical fatigue characteristic (피로한계를 고려한 IPM타입 영구자석 전동기 Bridge부 구조 해석 방법)

  • Kang, Kyong-Ho;Yu, Suk-Jin;Ahn, Hyo-Chul;Kim, Ji-Hyun;Jung, Sang-Yong
    • Proceedings of the KIEE Conference
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    • 2011.07a
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    • pp.999-1000
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    • 2011
  • 영구자석을 삽입하는 IPM(Interior Permanent Magnet : 이하 IPM) 방식의 동기전동기 설계에서 브리지의 형상 결정은 기계적인 안정성을 확보하고 출력 요구사양을 만족시키기 위해 구조해석과 자기회로 해석을 병행하여 검토하는 것을 요구한다. 본 논문에서는 IPM타입 동기전동기를 대상으로 회전자 원심력이 정적상태로 인가되는 정하중 조건과 속도변화가 시간에 따라 변하는 동하중 조건일 경우를 구분하여 설계 여유를 분석하였으며, 영구자석의 접착여부에 따라 브리지에 발생하는 응력 분포의 차이를 해석하였다. 또한, 동하중 상태에서 재료의 응력-피로 특성을 통해 피로 한계 조건을 설계단계에서 예측하였다.

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Characteristics Analysis of IPM Motor Considering Magnetic Saturation of Electrical Steel (IPM 모터 철심의 포화를 고려한 특성 해석)

  • Ha, Kyung-Ho;Ahn, Young-Jun;Na, Min-Su
    • Proceedings of the KIEE Conference
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    • 2011.07a
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    • pp.1031-1032
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    • 2011
  • This paper deals with the characteristics analysis of Interior Permanent Magnet Type Motor varying with magnetization curve of electrical steel interpolated with several method in the high field region. The data of magnetization curve of electrical steel given by the steel maker is not enough in order to analysis the characteristics by menas of FEM. Especially, the core in the bridge part have a severe saturation because the bridge width is narrow to reduce the flux leakage produced by the permanent magnet. This paper make the three kinds of magnetization curve by extrapolation and then the motor is analyzed by using these magnetization curve. The motor parameters are compared to explain the effects of magnetization curve.

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Behavior Analysis of Approach Slabs of IPM Bridges according to Unsupported Length and Settlement (토압분리형 교량 접속슬래브의 비지지길이와 지반 침하에 따른 거동 해석)

  • Park, Min-Cheol
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.19 no.5
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    • pp.650-660
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    • 2018
  • The approach slab plays an important role in the driving comfort of the connection section on a bridge. On the other hand, the approach slab only calculates the section force of a simple beam, and does not analyze the behavior. In this study, the unsupported length and settlement of approach slabs of IPM Bridges were examined using structural analysis. First, the section force was calculated by designing a simple beam, according to the length of the approach slab. The structural analysis was conducted to examine the behavior of the unsupported length and settlement. As the result, the bending moment decreased when the unsupported length was increased, and the bending moment increased when the settlement was increased. In addition, the design section force was estimated to be larger than the force of structural analysis, and the design of the approach slab according to the design guideline showed no problem in stability. Nevertheless, the vertical displacement exceeded the maintenance criterion of a 1/200 curve when the settlement exceeded 10 mm regardless of the unsupported length. Therefore, excessive settlement occurs in the reinforced earth retaining wall supporting the approach slab, and the design bending moment may be exceeded. Therefore, strict management is required.