Concrete subjected to dynamic loading shows local failure and it can be suppressed by improvement of flexural toughness with reinforced of fiber. Since bonding properties of fiber with matrix, specific surface area and numbers of fiber are different by fiber reinforcement type, mechanical properties of fiber reinforced concrete and improvement of impact resistance performance need to be considered. In this study, improvement mechanical properties by dynamic lodaing have been evaluated according to SF, PA fiber.

The purpose of this study is to evaluate the effect of improvement on the impact resistance and strength properties of cement composites by surface modification of aramid fiber. For aramid fiber reinforced cement composites, therefore, dispersion capability and the bonding efficiency between the fibers and the cement composite material need to be improved. It is possible by modifying surface properties to hydrophobic, it is considered that oiling agent ratio of 1.2 % and improvement of performance is in need to be investigated. In this study, short aramid fibers were mixed by different fiber length and oiling agent ratio. And improvement of strength properties and impact resistance performance of hybrid cement composites were evaluated under the influence of steel fiber. As a result, strength properties of aramid fiber reinforced cement composites are different by mixing ratio of fiber, oiling agent ratio and length of fiber. In case of cement composites which have same volume fraction and fiber length, tensile strength and flexural strength were improved with increase of the emulsions throughput of the fiber surface. The results of evaluation on the static strength properties had effects on impact resistance performance by high-velocity impact. And it was observed that the scabbing of rear was suppressed with increase of the oiling agent ratio.

The expansive behaviour of heat-cured mortars containing fly ash was investigated. The use of fly ash(replacement 20%) to the mortar reduced the long term expansion. But increase of SO3 in cement led to increase the long term expansion, and gave impetus to the formation of monosulphate for elevated temperature.

Tensile stress and strain of rear by shock wave become the cause of rear side scabbing of concrete subjected to high-velocity impact. Improvement of flexural and tensile performance by fiber reinforcement has great effect on the suppression of the rear scabbing.

In this study, local fracture of concrete was evaluated through high-velocity impact test. As results, increase of bending tension performance by fiber reinforcement did not affect penetration depth Control, but it decreased rear side fracture thickness and diameter. Therefore, it was observed that fiber reinforcement decreases scabbing limit thickness.

In this study, impact of high-velocity projectile by mixing steel fiber, polyamide, nylon, polyethylene fiber which have different shape and properties respectively. Scabbing is restrained because of micro-crack caused by the shock wave offset effect and energy dispersive of synthetic fibers are mixed populations.

본 연구에서는 섬유종류에 따른 인발특성과 섬유보강 콘크리트의 휨특성에 대하여 평가하기 위하여, 섬유의 재질 및 형상 다른 후크형강섬유, 비정질 강섬유 및 폴리아미드 섬유에 대하여 인발시험과 섬유보강 콘크리트 시험체를 제작하여 휨특성을 평가하였다. 그 결과, 후크형 강섬유의 경우 최대인발하중에서 섬유가 매트릭스로부터 인발되었지만, 비정질 강섬유는 섬유와 매트릭스의 부착강도가 섬유자체의인장강도보다 높아 섬유가 매트릭스로부터 인발되지 않고 파괴되는 현상을 나타내었다, 한편, 폴리아미드 섬유는 연신율에 의해 최대인발하중까지 변위가 크게 발생하였으며, 최대하중이후에 섬유가 끊어지는 파괴특성을 나타내었다. 섬유보강 콘크리트의 휨특성에 있어서 비정질 강섬유는 매트릭스와의 부착강도가 높고, 섬유의 혼입개체수가 많아 콘크리트의 최대휨강도는 높았지만, 균열발생 이후 섬유가 매트릭스로부터 인발되지 않고 섬유가 파괴되는 것에 의해 응력의 저하가 급격하게 발생하지만, 후크형 강섬유보강 콘크리트는 균열발생 이후 섬유가 인발되면서 응력의 저하가 완만하게 발생하였다. 폴리아미드 섬유보강 콘크리트는 균열발생이후 섬유의 연신률에 의해 응력이 급격하게 저하하는 구간이 발생하였으며, 섬유와 매트릭스의 부착에 의해 재상승하였다가 섬유가 끊어지면서 파괴되었다. 섬유와 매트릭스의 인발특성은 섬유보강 콘크리트의 휨강도 및 변형 능력에 큰 영향을 미치는 것으로 판단된다.

In this study, it evaluates autogenous Shrinkage of high strength concrete with polymix fiber and type of aggregate. Consequently, When concrete is mixed with limestone aggregate and spalling prevention fiber, Compressive strength, modulus of elasticity and autogenous shrinkage was better.

It was evaluated penetration depth and spalling resist thickness by compressive strength. As a result, it was found that the more compressive strength is increased, the penetration depth is suppressed. And the result of this study are similar to modified NDRC formula and US ACE formula.

본 연구에서는 탱자의 미성숙배로부터 캘러스 유도와 재분화에 관하여 연구하였다. 탱자 배발생 캘러스들은 3% sucrose와 44.4 μm BA로 처리된 ½MS배지에서 광조사(2,000 1x, 16h)시에 미성숙종자의 배로부터 유도되었으며 식물체 재분화는 MS배지에 5.0 μm BA를 첨가하였을 때 가장 양호하였다. 탱자는 배양2~3주경에 담황색의 캘러스가 유도되었으며 배양5~6주경부터는 딱딱한 녹색의 캘러스로 변하였다. 기내 재분화는 3% sucrose와 5.0 μm BA가 첨가된 MS배지에서 배발생 캘러스로부터 직접 유도되었다. 또한 배양 12주 후에 Multishoot가 재분화되었으며, 배양 16주 후에 뿌리가 형성되었다. 또한 뿌리가 형성된 식물체들은 토양으로 옮겨져 완전한 식물체로 잘 자랐다. 광학 현미경 관찰시 탱자에서는 배양4주경에 하얀색의 조밀한 배양된 세포들이 나타났다. 배양6주경부터는 세포들이 신장되면서 배발생 돌기가 나타났으며 주변의 세포들은 액포화 되었다. 또한 배양12주경에는 미성숙 잎에서 발달된 유낭과 전형성층을 관찰하였다.