In this study, the bond strength of FRP reinforced inorganic adhesive developed in previous studies was exposed to high temperature. As a result of the experiment, it was confirmed that the bond strength was increased at room temperature in the range of 100 to 200 ° C, but the width gradually decreased with increasing temperature.

Concrete structures are exposed to complex degradation environments depending on their environmental characteristics. The concrete members of bridges are exposed to water and salt by rivers and oceans, and there is always a possibility of freezing and thawing damage in the upper and lower part of the bridge due to the continuous heat and heavy snow in summer and winter. In this study, a freeze-thaw test method which indirectly evaluates the strength reduction of concrete according to the repeated cycle of freezing and thawing was proposed, and the strength reduction rate was measured by using the concrete specimen. As a result, the concrete strength was reduced by 20% in freeze-thaw test method. In the future, it can be used as a basic data of the study on strength of each cycles.

In this study, the setting times of mortar using the biopolymer in seaweed was evaluated by penetration resistance. The evaluation was based on the method presented in KS F 2436. Test results show that the biopolymer was used instead of the synthetic polymer, the termination time was delayed.

The purpose of this study was to evaluate the mechanical properties and bond performance of epoxy paint containing graphene materials. Experiment result, it was confirmed that graphene materials are effective to improve the mechanical properties of the epoxy paint, but it is not effective to improve the bond performance.

In this study, the chloride ion diffusion coefficient of ECC coated with silane-based protecting materials were evaluated. The evaluation was carried out according to NT BUILD 492. The test results show that when the protective material is applied to ECC, the chloride diffusion coefficient is reduced by 40-50%.

The effect of fine dust on indoor and outdoor atmospheric environment in Korea is getting larger and it is tried to solve this problem by incorporating photocatalyst. Conventional light transparent concrete (LEFC) arranges plastic rods to ensure light transmittance. However, it is difficult to secure sufficient fluidity due to the heterogeneity and spacing of the materials. In addition to the flow test, J-ring test and L-box test, which are ASTM standards or EN standards, are used to evaluate the fluidity and to find out the optimum mix design of light transparent concrete with self-consolidating performance.

This study was conducted to improve the economy, quality, and load of Soil paving concrete by using waste materials such as Oystery and Dolomitic to solve strength reduction and durability reduction caused by hardening agents in Korea. According to the results of the study, for the curing expenses, the Fine part agreement (FC) and the Furnace slag power lower (BS) are 5:5, It was possible to verify that the best results were obtained in terms of the quality of cement mortar when the natural organic lime and dolomitic lime were mixed at a ratio of 5:5.

The present study investigates the material and hydration properties of nPOFA mixed cement mortar with early carbonation curing based on the fact that each process contributes to fill capillary pores, to enhance compressive strength and to reduce CO2. Mortar samples were carried out compressive strength test, phenolphthalein test, MIP testt and SEM. Pulverized cement paste was analytically characterized by XRD, TG/DTA, and FTIR analzes. The fabricated specimens were cured for 0,7, and 28 days in the carbonation chamber which set to carbon dioxide concentration of 5%

In this study, the rate of change of electrical resistance with respect to the strength and load of cement composites was investigated by incorporating Carbon Nanotube(CNT) at 0.25, 0.5, 0.75, 1.0% of the binder weight. Compressive strength test It was shown that the load of 30% was repeatedly applied to impart conductivity through the rate of change of electrical resistance. The incorporation rate of CNT greatly affected the compressive strength and the rate of change of electrical resistance.

In this study, the orientation and distribution of fiber in the vertical members of cementitious materials were evaluated by using conventional and tapered nozzles. For this purpose, the specimens with ϕ 15 × 30 cm were cast to evaluate the fiber orientation and distribution coefficients on the cutting plane. The results showed that the tapered nozzle is more effective in improving the orientation and distribution of the fiber than the conventional nozzle.

This study was evaluated the chloride penetration resistance performance of Surface Protection Material(SPM). SPM was applied 0.25 and 0.51 kg/㎡ to the surface of the mortar and immersed aging of the chloride solution 7, 14, and 28 days. As a results, In the case of SPM was applied, chloride did not penetrate until the 28th day.

When steel members are corroded, both static and dynamic load carrying capacities are damaged. Static load carrying capacity is easily evaluated because it is only effected by the minimum cross sectional area. However, dynamic load carrying capacity is not easily evaluated because it is effected by distribution of stress and the distribution of stress is not easy to measure. To prevent fracture, it is important to investigate highly stressed region when corrosion occur. In this study, a simple evaluation method for stress concentration factor directly from corroded surface to simply evaluate dynamic load carrying capacity.

The importance of maintenance in steel structures is to be emphasized according to increase of their service time. To protect the corrosion damages, the repainting on steel bridges are usually applied every 10 to 13 years by visual inspection. However, the coating durability was rapidly decreased by airborne salt under marine environment. In this study, the time-dependence deposited salts were measured at several types and locations of structural member in marine bridge.

This paper describes the effect of steel fiber volume fraction and aspect ratio on mechanical properties of SFRC with compressive strength of 40 MPa. In this study, The fiber volume fractions consist of 0.25%, 0.50% and 0.75% and aspect ratios are 64 and 80 used. The prisms with 150×150×550 mm were made and tested in accordance with EN-14651. Test results show that the superior flexural performance was observed in SFRC with higher fiber volume fraction and aspect ratio.

The purpose of this study is to compare the strength according as variables of Hwang-Toe activation temperature based on existing references. Compressive strength tests were carried out when the activation temperature was set to 450℃, 600℃, 850℃ and the replacement ration was set to 30%, 50%. As a result, it showed that strengths of specimens overall increased to 850℃. However, strengths of specimens with 50% replacement of Hwang-Toe were significantly reduced at 450℃ and 600℃. In this regard, it is necessary to study the proper quality of activated Hwang-Toe for mortar application in the future.

The purpose of this experimental study is to increase the strength of mortar mixed with activated Hwang-Toh (AHT) and granulated blast furnace slag (GGBS) as a compound for the development of eco-friendly concrete. The compressive strength test was carried out by making mortar specimens with a certain ratio of AHT and GGBS. The percentage of AHT were at 30% and 50% and the GGBS were a 40% and 50% as Major variables. The results of this study showed that for specimens with percentage of AHT at 30% with GGBS increased above the strength of the mortar without the binding. However, the compressive strength of experimentation with percentage of AHT at 50% with partially replace GGBS has decreased by more than the mortar without the binding. Therefore, further study is deemed necessary.

When the reinforced concrete structure is in a high salinity environment, chlorine ions penetrate from the surroundings, resulting in corrosion of the reinforcing bars, resulting in low durability. Therefore, studies on the immobilization of chlorine ions are underway, and anion exchange resin, one of them, was used in this study. In this study, chloride ion fixing ability was confirmed by replacing OPC, conventional bead anion exchange resin, and powder anion exchange resin with mortar and then using an electron probe X-ray micro-analyzer. The bead anion exchange resin replaced 3% of the fine aggregate volume and the powder anion exchange resin 5% of the cement volume. The fabricated specimens were cured for 28 days, immersed in NaCl solution for 28 days, and confirmed by electron probe X-ray micro-analyzer.

In this research is underway to determine the exact damage level of concrete structures damaged by fire. Cement paste hardened at 700℃ was characterized by TGA. As the depth increased, the mass reduction rate increased and the mass reduction rate decreased as the retention time increased.

In this study, the development of gravity type collecting device for nuclear dismantling through CFD simulation is shown as follows. As a result of investigating the dust removal efficiency according to the treatment air velocity of 5 m/s (low speed) ～ 30 m/s (high speed), large dusts (80 ～ 100 ㎛) As the wind speed increases, the damping efficiency decreases and the particle size of the dust behavior increases with the increase of the wind speed. As a result, the wind speed (wind speed) 5 m/s is considered to be suitable for improving the vibration damping efficiency.

In this study, CGS is a concrete admixture material that has been investigated as a way to promoto recycling of CSG. As results, Show that the early strength is low and the activity index is according to the degree of fineness is insignificant