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        검색결과 4

        1.
        2019.10 서비스 종료(열람 제한)
        CFRP (Carbon Fiber Reinforced Plastic) has high tensile strength, light weight, and excellent corrosion resistance, so it is used for construction such as seismic reinforcement and explosion proof in construction area. Dynamic loads, such as earthquakes and explosions, cause rapid deformation of the material and the material behaves differently from its static condition. Therefore, in this study, tensile tests of CFRP were conducted under static and dynamic loads, and the tensile performance of was evaluated according to the strain rate.
        2.
        2019.04 서비스 종료(열람 제한)
        In this research, Sensing Performance in Tensile Strain of Strain-Hardening Cement Composites by Containing of Carbon nanotube have been studied. The ultimate strength and strain were improved with increasing in amounts of CNT, and fractional change in resistivity were improved when same tensile strain. and %LE were decreased with increasing in amounts of CNT.
        3.
        2018.04 서비스 종료(열람 제한)
        The flexural behavior of ECC according to the tensile strain capacity was analytically estimated with the layered section method. Moment-curvature curve was first obtained, then load-deflection relation was calculated. The analytical result indicated that there was noticeable increase in deflection at peak load with the higher tensile strain capacity within 3.0%, and it was found that more than 3% strain capacity did not provide higher deflection but helped improve the load resistance.
        4.
        2015.10 서비스 종료(열람 제한)
        This research investigated the effects of matrix strength on the direct tensile behavior of high performance hybrid fiber reinforced cementitious composites (HPHFRCCs) at high strain rates. 3 different type matrixes were used (56 MPa, 81 MPa and 180 MPa). And macro fiber was long hooked fiber (H, =0.3 mm,=30 mm) and micro fiber was short smooth fiber (S, =0.2 mm,  =13 mm). The volume content of macro fibers was 1.0% and the volume content of micro fibers was 1.0%. The high matrix strength clearly increased the tensile strength and peak toughness of HPHFRCCs even at high strain rates (74 ~ 161 /sec).