• 한국세라믹학회지
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• 제48권5호
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• pp.373-378
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• 2011

The composite added with surface-coated chopped carbon fiber showed the microstructure of a 3 dimensional discretional arrangements. The fiber reinforced reaction bonded silicon carbide composite, containing the 50 vol% carbon fiber, showed the porosity of < 1 vol%, 3-point bending strength value of 250MPa and fracture toughness of 4.5 $MPa{\cdot}m^{1/2}$. As the content of carbon fiber was increased from 0 vol% to 50 vol% in the composite, fracture strength was decreased due to the increase of carbon fiber, which has a less strength than SiC and molten Si. On the other hand, the fracture toughness was increased with increasing the amount of carbon fiber. According to the polished microstructure, carbon fiber was shown to have a random 3 dimensional arrangement. Moreover, the fiber pull-out phenomenon was observed with the fractured surface, which can explain the increased fracture toughness of the composite containing high content of carbon fiber.

• 한국구조물진단유지관리공학회 논문집
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• 제21권6호
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• pp.98-105
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• 2017

본 연구에서는 후크형 강섬유와 PVA 섬유의 혼합비에 따른 하이브리드 섬유보강 시멘트 복합체의 인장거동에 미치는 변형속도의 효과에 대하여 평가하기 위하여, 후크형 강섬유와 PVA 섬유를 각각 1.5+0.5, 1.0+1.0, 0.5+1.0vol.%의 혼합비로 보강한 하이브리드 섬유보강 시멘트 복합체를 제작하였다. 그 결과, 후크형 강섬유보강 시멘트 복합체는 변형속도가 증가함에 따라 섬유와 매트릭스의 부착력이 향상되어 인장강도, 변형능력 및 파괴인성이 크게 향상되었으며, 후크형 강섬유 주변의 매트릭스에 발생하는 마이크로 균열에 의해 직선형으로 인발되는 섬유의 수가 감소하고, 인장강도 점 이후의 응력 저하가 급격하게 발생하였다. 한편, PVA 섬유는 변형속도 $10^{-6}/s$에서는 끊어지는 파괴거동이 나타났으나, 변형속도 $10^1/s$에서는 변형속도가 증가함에 따라 섬유가 인발되는 파괴거동에 의해 다중균열 개수 및 변형능력이 감소하였다. 후크형 강섬유 1.5vol.%, PVA 섬유 0.5vol.%를 혼입한 시험체(HSF1.5PVA0.5)는 PVA가 후크형 강섬유의 주변 매트릭스에 발생하는 마이크로 균열을 억제하여 후크형 강섬유의 인발저항성능을 향상시키기 때문에 가장 높은 인장강도를 나타내었으며, 변형능력 및 파괴인성의 DIF가 크게 향상되었다. 또한, 변형속도 $10^1/s$에서는 후크형 강섬유의 인발저항성능의 증가로 인하여 직선형으로 인발되는 섬유의 수가 증가하기 때문에 인장강도 점 이후의 응력 저하가 감소하여 파괴인성의 시너지는 양의 값을 나타내었다.

• Journal of the Korean Wood Science and Technology
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• 제43권1호
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• pp.60-67
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• 2015

국내산 낙엽송 집성재와 봉형 GFRP의 접착성능을 평가하기 위해 집성재에 선공을 한 후 봉형 GFRP를 삽입하고 접착제로 목재와의 간극을 충진시켜 인발시험편을 제작하였다. 인발시험편은 접착 깊이, 접착층 두께, 접착제 종류를 다르게 적용하여 실험하였다. 봉형 GFRP를 삽입접착한 캔틸레버형 라멘구조 시험체는 인발시험 결과를 토대로 제작, 강판삽입형 시험체와 모멘트 저항 성능을 비교검토 하였다. 인발시험결과 봉형 GFRP의 삽입깊이가 봉형 GFRP 직경의 5배일 때 가장 우수한 접착력이 측정되었으며, 접착층 두께는 1 mm일 경우 2 mm일 때보다 17%~29% 향상된 접착력이 측정되었다. 또한 폴리우레탄(poly-urethane) 접착제를 사용한 시험편이 레조시놀(resorcinol) 접착제를 사용한 시험편보다 2.9~4.0배 높은 성능을 발휘하였다. 봉형 GRFP로 접합한 캔틸레버형 라멘구조 시험체는 드리프트 핀을 사용한 강판삽입형 시험체와 비교하여 평균 0.82배 낮은 모멘트 저항 성능이 측정되었지만 초기강성은 0.93배로 대등한 성능을 보였다.

• Computers and Concrete
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• 제19권4호
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• pp.375-385
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• 2017

In the present paper experimental and numerical analysis of hook-ended steel fiber reinforced concrete is carried out. The experimental tests are performed on notched beams loaded in 3-point bending using fiber volume fractions up to 1.5%. The numerical analysis of fiber reinforced concrete beams is performed at meso scale. The concrete is discretized with 3D solid finite elements and microplane model is used as a constitutive law. The fibers are modelled by randomly generated 1D truss finite elements, which are connected with concrete matrix by discrete bond-slip relationship. It is demonstrated that the presented approach, which is based on the modelling of concrete matrix using microplane model, able to realistically replicate experimental results. In all investigated cases failure is due to the pull-out of fibers. It is shown that with increase of volume content of fibers the effective bond strength and slip capacity of fibers decreases.

• International Journal of Concrete Structures and Materials
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• 제3권2호
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• pp.119-126
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• 2009

This paper provides a brief summary of the performance of an innovative slip hardening twisted steel fiber in comparison with other fibers including straight steel smooth fiber, high strength steel hooked fiber, SPECTRA (high molecular weight polyethylene) fiber and PVA fiber. First the pull-out of a single fiber is compared under static loading conditions, and slip rate-sensitivity is evaluated. The unique large slip capacity of T-fiber during pullout is based on its untwisting fiber pullout mechanism, which leads to high equivalent bond strength and composites with high ductility. Due to this large slip capacity a smaller amount of T-fibers is needed to obtain strain hardening tensile behavior of fiber reinforced cementitious composites. Second, the performance of different composites using T-fibers and other fibers subjected to tensile and flexural loadings is described and compared. Third, strain rate effect on the behavior of composites reinforced with different types and amounts of fibers is presented to clarify the potential application of HPFRCC for seismic, impact and blast loadings.

• 한국염색가공학회지
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• 제9권4호
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• pp.47-53
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• 1997

To improve the interfacial bonding of carbon fiber-nylon 6 composite, carbon fiber(CF) were oxidized by nitric acid treatment, and two types of graft polymer(GP) of nylon 6-g-polyacrylamide (PAAm) -water dispersable GP(WDGP) and m-cresol solu ble GP(CSGP) were treated as coupling agents. Introduction of polar groups such as -COOH, -OH, etc, on the surface of the oxidized CF was confirmed by IR spectra. The stem polymer of nylon 6 in the coupling agent (GP) could be compatible with'matrix nylon 5, and the grafted branch of PAAm on GP could react to the polar groups on the oxidized CF in composite. The interfacial strength was measured by the transverse tensile test to the fiber direction for single CF embedded nylon 6 film especially prepared and by the pull-out test method. The interfacial strength of the composite reinforced with oxidized CF is greater than that reinforced with unoxidized CF. The interfacial strength of the composite was increased by treatment of coupling agents(GPs) considerably, and the increasing tendency by the WDGP is greater than that by the CSGP. The optimum conditions of coupling agent treatment are as follows: the concentration, adsorption tlme of GP, and curing temperature are 2%, 20 minutes, and $170^{\circ}$, respectively.

• The Korean Journal of Ceramics
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• 제7권2호
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• pp.74-79
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• 2001

Alumina composite reinforced by chopped alumina fiber was fabricated by filter-pressing the fiber slurry followed by the infiltration of alumina slurry. The chopped fiber was coated with nickel by electroless plating method. The green samples were densified by hot-pressing. Microstructures were studied by SEM and the mechanical properties such as bending strength and fracture toughness were measured. The resulting mechanical properties were analyzed in relation with processing parameters such as preform density and resulting microstructures. The load-displacement curve of the specimen with Ni interlayer but without Ni inclusion showed brittle fracture mode due to the direct contact between matrix and fiber. The load-displacement curve of the specimen with Ni interlayer and Ni inclusion in the matrix which is introduced by high applied pressure during specimen preparation showed non-brittle fracture mode due to the fiber pull-out and dutile phases in the matrix.

• 수산해양기술연구
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• 제37권3호
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• pp.240-245
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• 2001

섬유함유율이 0%, 20% 그리고 30%인 단섬유 GF/PP 복합재료를 사용하여 8$0^{\circ}C$, 5$0^{\circ}C$ 그리고 실온에서 인장시험을 통하여 온도의 변화에 대한 파괴강도의 거동을 고찰한 결과는 다음과 같다. 1) 유리섬유로 강화하지 않은 순수 PP보다 유리섬유로 강화한 복합재료의 인장강도가 높게 나타났으며 섬유함유율이 증가할수록 그 값은 높게 나타났다. 2) 동일한 섬유함유율을 가지는 GF/PP 복합재료의 온도변화에 따른 인장강도는 실온의 경우가 가장 높게 나타나고 고온으로 갈수록 그 값이 낮게 나타났다. 3) GF/PP 복합재료의 파괴기구는 온도의 변화에 따라 매트릭스의 변형이 나타났으며 섬유의 풀아웃, 섬유와 매트릭스 사이의 디본딩을 관찰할 수 있었으며, 이와 같은 파괴기구가 종합적으로 상호작용한다고 생각된다.

• Computers and Concrete
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• 제26권2호
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• pp.115-125
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• 2020

To reduce the damage of concrete in fire, a new type of lightweight cinder aggregate concrete was developed due to the excellent fire resistance of cinder. To further enhance its fire resistance, Polypropylene (PP) Fibers which can enhance the fire resistance of concrete were also used in this type of concrete. However, the bond behavior of this new type of concrete after fire exposure is still unknown. To investigate its bond behavior, 185 specimens were heated up to 22, 200, 400, 600 or 800℃ for 2 h duration respectively, which is followed by subsequent compressive and tensile tests at room temperature. The concrete-rebar bond strength of C30 PP fiber-reinforced cinder concrete was subsequently investigated through pull-out tests after fire exposure. The microstructures of the PP fiber-reinforced cinder concrete and the status of the PP fibre at different temperature were inspected using an advanced scanning electron microscopy, aiming to understand the mechanism of the bonding deterioration under high temperature. The effects of rebar diameter and bond length on the bond strength of PP fiber-reinforced cinder concrete were investigated based on the test results. The bond-slip relation of PP fiber-reinforced cinder concrete after exposure at different temperature was derived based on the test results.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2000년도 가을 학술발표회 논문집(II)
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• pp.1019-1024
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• 2000

Carbon fiber sheet has been widely used for the strengthening of the concrete buildings structures due to its excellent physical properties such as high strength, lightness and high durability. Bond strength or behavior, on the other, hands, between carbon fiber sheet and concrete is very important in strengthening the concrete member using CFS. Also the bond failure mechanism between CFS and concrete should be fully verified and understood. This study is to investigate the bond strength of CFS to th concrete by the direct pull-out test and the tensile-shear test methods. From the tests, the average bond stress, $$\tau$_{y}$ and the effective bond length, $$\ell$_{ｕ}$ are acquired.