• Title/Summary/Keyword: Carbon Fiber Grid

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Numerical Analysis on the Behavior of Carbon Fiber Grid Reinforced Concrete Members (탄소섬유그리드 보강 콘크리트 부재의 거동에 대한 수치해석적 연구)

  • 김학군;정재호;정상균;윤순종
    • Proceedings of the Korean Society For Composite Materials Conference
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    • 1999.11a
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    • pp.143-148
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    • 1999
  • In this paper we present the results of an analytical investigation on the existing concrete structures which are reinforced with carbon fiber grid. The carbon fiber grid and polymer mortar are utilized in the reinforcement of concrete column, beam, and tunnel lining. The physical and mechanical properties of the carbon fiber grid and polymer mortar were obtained experimentally and then used in the analytical investigation. In the analysis concrete structures are modeled with 3-D solid finite elements and the carbon fiber grid is modeled with space frame elements. Through the investigation reinforcing effect of carbon fiber grid on the existing concrete structures is confirmed.

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An Experimental Study on the Strengthening Effect of RC Beam with Carbon Fiber Grid (탄소섬유그리드를 이용한 RC보의 보강효과에 관한 실험적 연구)

  • Shim, Nak-Hoon;Kim, Jeong-Jae;Park, Young-Suk
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.6 no.4
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    • pp.107-118
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    • 2002
  • The purpose of this study is to investigate the strengthening effect of RC beams with carbon fiber grid. Carbon fiber grid that is very lightweight and stronger than steel reinforcement does not rust or corrode and has a very high resistance to salt. In this study, five real size specimens which are strengthened with different types of carbon fiber grid are tested. With the results of this tests, we found the physical and mechanical properties of carbon fiber grid and polymer mortar which are used to strengthen the damaged or cracked reinforcement concrete beams. we also investigate the strengthening effect of carbon fiber grid on the five flexural test specimens that have cracks.

An Experimental Study on the Behavior of Carbon Fiber Grid Reinforced Flexural Members (탄소섬유그리드 보강 휨부재의 거동에 대한 실험적 연구)

  • 박제용;안동준;정상균;윤순종
    • Proceedings of the Korean Society For Composite Materials Conference
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    • 1999.11a
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    • pp.154-159
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    • 1999
  • In this paper we present tile results of an experimental investigation on the physical and mechanical properties of carbon fiber grid, polymer mortar, and carbon fiber grid reinforced plain concrete flexural members. In order to repairing and reinforcing damaged and/or deteriorated existing concrete structural members, new materials have been developed and utilized in the construction industries. But the physical and mechanical behaviors of the material are not well understood. To use the material effectively various aspects of the material must be throughly investigated analytically as well as experimentally. In this investigation we found the physical and mechanical properties of carbon fiber grid and polymer mortar which are directly utilized in the repair and reinforcement design of damaged or deteriorated concrete structures. In addition, we also investigate the strengthening effect of carbon fiber grid on the plain concrete flexural test specimens. It was found that the material can be used to repair and strengthen the concrete structures effectively.

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Long-term Performance of Fiber Grid Reinforced Asphalt Pavements Overlaid on Old Concrete Pavements (노후 콘크리트포장 위에 덧씌운 섬유그리드 보강 아스팔트포장의 장기공용성)

  • Lee, Ju Myeong;Baek, Seung Beom;Lee, Kang Hoon;Kim, Jo Soon;Jeong, Jin Hoon
    • International Journal of Highway Engineering
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    • v.19 no.3
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    • pp.31-43
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    • 2017
  • PURPOSES : The objective of this study is to verify the effect of fiber grid reinforcement on the long-term performance of asphalt pavement overlaid on old concrete pavement by performing field investigation, laboratory test, and finite element analysis. METHODS : The reflection cracking, roughness, and rutting of fiber grid reinforced overlay sections and ordinary overlay sections were compared. Cores were obtained from both the fiber grid reinforced and ordinary sections to measure bonding shear strength between the asphalt intermediate and asphalt overlay layers. Fracture energy, displacement after yield, shear stiffnesses of the cores were also obtained by analyzing the test results. Finite element analysis was performed using the test results to validate the effect of the fiber grid reinforcement on long-term performance of asphalt pavement overlaid on the old concrete pavement. The fatigue cracking and reflection-cracking were predicted for three cases: 1) fiber grid was not used; 2) glass fiber grid was used; 3) carbon fiber grid was used. RESULTS : The reflection-cracking ratio of fiber grid reinforced sections was much smaller than that of ordinary sections. The fiber grid reinforcement also showed reduction effect on rutting while that on roughness was not clear. The reflection-cracking was not affected by traffic volume but by slab deformation and joint movement caused by temperature variation. The bonding shear strength of the fiber grid reinforced sections was larger than that of the ordinary sections. The fracture energy, displacement after yield, and shear stiffnesses of the cores of the fiber grid reinforced sections were also larger than those of the ordinary sections. Finite element analysis results showed that fatigue cracking of glass or carbon fiber grid reinforced pavement was much smaller than that of ordinary pavement. Carbon fiber grid reinforcement showed larger effect in elongating the fatigue life of the ordinary overlay pavement compared to glass fiber grid reinforcement. The binder type of the overlay layer also affected the fatigue life. The fiber grid reinforcement resisted reflection-cracking and the carbon fiber grid showed the greater effect. CONCLUSIONS :The results of field investigation, laboratory test, and finite element analysis showed that the fiber grid reinforcement had a better effect on improving long-term performance of asphalt pavement overlaid on the old concrete pavement.

Flexural Strengthening Effect on R.C Beam with Structural Damage (구조적 손상을 입은 R.C보의 휨보강 효과)

  • Kim, Sung-Yong;Han, Duck-Jeon;Shin, Chang-Hoon
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.8 no.1
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    • pp.147-156
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    • 2004
  • The Rehabilitation and repair of structurally deteriorated, reinforced concrete structures will be highly demanded in the near future. The purpose of this study is to investigate whether damaged beams that crack and deflection are developed by bending moment are restored to the former state. In conclusion, when specimens strengthened with Steel Plate, CFS(Carbon Fiber Sheet) and CFRP-Grid(Carbon Fiber Reinforced Plastic-Grid) are compared with standard specimen, flexural capacity is increased and ductility and energy absorbtion capacity are similar with undamaged specimen. Therefore Steel Plate, CFS(Carbon Fiber Sheet) and CFRP-Grid (Carbon Fiber Reinforced Plastic-Grid) have highly efficiency as material of flexural strengthening.

Flexural Behavior of Reinforced Concrete Beams Strengthened with Grid-typs Carbon Fiber Plastics (탄소격자섬유로 보강한 철근 콘크리트보의 휨파괴 특성에 관한 연구)

  • 태기호
    • Journal of Ocean Engineering and Technology
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    • v.14 no.1
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    • pp.52-59
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    • 2000
  • Flexural fracture characteristics of newly-developed Grid-type carbon fiber plastics in the deteriorated reinforced concrete structures were investigated by the four-points fracture test to verify the strengthening effects in the beam specimens. Results showed that initial cracks appeared in the boundary layers of fibers embedded in the newly-placed mortar concrete slowly progressed to the direction of supports and showed fracture of fiber plastics and brittle failure of concrete in compression in sequence after the yielding of steel reinforcement. Accordingly the reasonable area of Grid-type carbon-fiber plastics in the strengthening design of deteriorated RC structures should be limited and given based on the ultimate strength design method to avoid the brittle failure of concrete structures.

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Probabilistic Analysis on the Fatigue-Life of the Strengthened Bridge Decks (성능향상된 교량 바닥판에서의 피로수명에 대한 확률론적 해석)

  • 심종성;오홍섭;류승무;박성재
    • Proceedings of the Korea Concrete Institute Conference
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    • 2002.05a
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    • pp.393-398
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    • 2002
  • This study shows the fatigue test results of experiment on the strengthened slabs, the probability analysis of the fatigue behavior is also presented. Static und fatigue tests were performed on bridge decks strengthened with fiber plastics(Carbon Fiber Sheet, Glass Fiber Sheet, Grid Type Carbon Fiber). In this study, to analyze the probabilistic distribution of the fatigue life, the Weibull distribution was adopted. The Weibull distribution coefficient is inferred from the S-N diagram and the number of repeated load. As the result analysis, as the stress level is higher, the fatigue limit of the strengthened bridge deck are similarly discovered but in the range of the fatigue limit, CG specimen that was strengthened with Grid Type Carbon was proved most effective of reinforcement.

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Reinforcement Effect of Reinforced Concrete Beams Strengthened with Grid-type Carbon Fiber Plastics (격자형 탄소섬유로 보강한 R/C보의 보강효과)

  • Jo, Byung-Wan;Tae, Ghi-Ho;Kwon, Oh-Hyuk
    • Journal of the Korea Concrete Institute
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    • v.15 no.3
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    • pp.377-385
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    • 2003
  • Flexural characteristics of the R.C beams strengthened with newly-developed grid-type carbon fiber plastics(CFRP-GRIDS) were investigated. The tests were conducted under the four-points load to the failure to investigate the strengthening effects of CFRP-GRIDS on the beams. Results showed that initial cracks appeared in the boundary layers of fibers embedded in the newly-placed mortar concrete slowly progressed to the direction of supports and showed fracture of fiber plastics and brittle failure of concrete in compression in sequence after the yielding of steel reinforcement. Accordingly, the appropriate area of Grid-type carbon-fiber plastics in the strengthening design of deteriorated RC structures should be limited and given based on the ultimate strength design method to avoid the brittle failure of concrete structures.

An Investigation of the Strengthening Effects of the Strengthened Bridge Deck with Grid Typed Carbon Fiber Plastic for Fatigue Loading (격자형 탄소섬유로 성능 향상된 교량 바닥판의 피로 성능 효과 분석)

  • 심종성;오홍섭;유재명;최광민
    • Proceedings of the Korea Concrete Institute Conference
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    • 2001.11a
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    • pp.745-750
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    • 2001
  • Considerable research was done to study the fatigue behavior of the reinforced concrete bridge deck which is strengthened by carbon fiber. The purpose of this experimental study is to investigate the fatigue behavior and strengthening effects of the strengthened bridge deck with grid type carbon fiber plastic. The results of this study show that the displacement and the total released energy of strengthening of bridge deck are greater than the case of unstrengthened bridge deck. By strengthening of bridge deck, applied load is so distributed on whole deck member that crack concentration is efficiently controled.

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Failure Mode and Design Guideline for Reinforced Concrete Slab Strengthened Using Carbon FRP Grid (Carbon FRP Grid로 휨 보강한 철근콘크리트 슬래브의 파괴형태와 설계기준)

  • Park Sang-Yeol;Xian Cui
    • Journal of the Korea Concrete Institute
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    • v.16 no.5 s.83
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    • pp.667-675
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    • 2004
  • This paper presents the failure mode and strengthening design of reinforced concrete slab strengthened with Carbon Fiber Reinforced Polymer(CFRP) grid. Parameters involved in this experimental study are FRP grid reinforcement quantity, repair mortar thickness, the presence of anchor, and strengthening in compression. In this study, there are different failure types with increasing the CFRP grid strengthening reinforcement. On the low strengthening level, CFRP grid in repair mortar cover ruptures. On the moderate strengthening level, there is a debonding shear failure in the interface of carbon FRP grid because of the excessive shear deformation. On the high strengthening level, diagonal shear failure occurs. With the increasing of FRP grid reinforcement, the strengthening effect increased, but the ductility decreased. By limiting the strengthening level, it can be achieved to prevent shear failure which result in sudden loss in the resisting load capacity. CFRP rupture failure is desirable, because CFRP ruptured concrete slab keeps the same load capacity and ductility haying before strengthening even after failure. Finally, design guideline and procedure are given for strengthening of concrete slab with CFRP grid.