This paper describes the hydration heat properties of cement composite different with phase change material (PCM) type. The test results indicated that use of barium materials has more effective to delayed time of hydration of cement composite. On the other hand, strontium based PCM more effective to reduction of hydration heat of cement composite.

In order to study carbonation progress after surface repair of carbonated concrete, each carbonation penetration velocity from different repair materials of concrete structure is compared through the experiment of carbonation accelerating CO2 concentration to 100%

Result of test, adhesive strength improved 7% in 4℃ when test object used vibrating roller than unused vibrating roller. In case of 20℃, it improved 16.9%. Therefore, using vibrating roller is useful in construction of waterproofing layer because the test showed that using vibrating roller has excellent adhesive strength han unused it.

In this study, we tried to review the potential of commercialization of the developed product of aerated concrete and floor mortar used in the construction of residential buildings such as apartment buildings. As a result, it was analyzed that the difference was negligent in terms of the depth of subsidence, though the developed product was good enough in terms of compressive strength and economic efficiency.

Dowel rebar is key parameter to control the lateral displacement in the sliding slab track. The lateral support block of the sliding slab track is supported by the dowel rebar. In this study, selected parameter (rebar diameter) was expected to affect the performance and behavior of the dowel rebar in the sliding slab track. Furthermore, evaluation of the shear behavior of dowel rebar compared to the results of the Soroushian et al. (1986) and CEB-FIP (2010).

Based on the theory of the chemical reaction and the Tixier Model, we established a time-varying function of the porosity of concrete. The function, which has taken the filling effect of the ettringite to the capillary porosity into consideration, can obtain the change of the porosity at different stages of the corrosion subjected to external sulfate attack. Numerical simulation is utilized to analyze the distribution of porosity and sulfate ion concentration inside the concrete at different moment of the corrosion.

A numerical model which can simulate the entire process of corrosion-induced concrete damage is developed. In this model, we can find the change of carrying capacity of reinforced concrete structures according to the exposure time directly.

In the study, we review the resistance to freezing of alkali-activated slag-red mud cement according to the red mud content. The purpose of the paper is improved durability and application for alkali-activated slag-red mud cement.

In this study, it is intended to find out clearly whether there are any initial damages by frost by analyzing the temperature characteristics of the reinforcing bars of each area depending on the changes of surface curing methods for the exposed areas of some reinforcing bars by modelling the wall reinforcing bar areas of a wall-type apartment.

In the modern construction industry, some methods for enhancing the quality of a building have been sought in various ways. Accordingly, this research team intends to mutually compare the overall kinds of quality of products, such as, the temperature characteristics of PE films and the exposed surface, etc., by applying the single-layered bubble sheet that was developed as a surface curing material for summer to the construction site for a wall-type Apartment which is under construction.

Recently, Advanced water treatment facilities with Ozone are being introduced domestically. However, waterproofing/corrosion prevention construction method of concrete structure for existing advanced water treatment makes waterproofing/corrosion prevention materials and concrete deteriorated because of strong oxidation of ozone. Therefore, in this study, It was evaluated in ozone resistance and bond strength of metal spraying coating.

In this paper, the finite element analysis of RC frame with concrete compressive material models proposed by many researches were conducted. As a results of FEA, the concrete model suggested by Saenz was compatible than other concrete models from the perspective of initial stiffness and maximum strength.

Change in the adhesion strength between AR-glass textile and concrete was performed through pull-out test with longitudinal (load direction) and transverse development length. In case of longitudinal development length, adhesion performance was not shown. But in case of transverse, adhesion performance was increased according to the increasing transverse textile length.

As the industrialization is rapidly growing, the quantities of industrial waste glass have been quickly increased. However the most of them are not recycled. Therefore, it is needed to investigate the possibility of industrial waste glass as concrete material ingredient. In this paper, it is compared and evaluated that the characteristics of freeze-thaw resistance according to industrial waste glass substitution ratio in concrete specimens. From the results, the weight change was not affected by the waste glass substitution ratio. And, the relative dynamic modulus of elasticity was increased slightly with the waste glass substitution ratio. The relative dynamic modulus of elasticity was above 80% up to 300cycles in all of the mixes.

The purpose of the present study is to investigate some effects of concrete according to addition of blast furnace slag and sulfuric alkali-activator. Blast furnace slag was used at 30~80% replacement by weight of cement, and liquid sulfur having NaOH additives was chosen as the alkaline activator. In order to evaluate characteristics of blast furnace slag concrete with sulfuric alkali activators, compressive strength test, carbonation test were performed.

Concrete with a pore solution of pH 10-12 is less alkaline than sound concrete but would still produce a strong color hange with phenolphthalein indicator. It therefore follows that the indicator test is likely to underestimate the depth to which carbonation has occurred. The indicator has not changed color near the top and bottom surfaces, suggesting that these near-surface regions are carbonated to a depth of at least 3 mm from the top surface and 5 mm from the lower surface. Where the indicator has turned purple - the center of the slab - the pH of the concrete pore fluid remains high (above 8.6, probably nearer 10).. Based on the above technical background, this study was devoted to examine the depth analysis of carbonated concrete quantitatively.

Submerged concrete is subjected by water pressure. Unfortunately, there is a definite lack of well-established research to deal with the effect of permeability on chloride penetration in concrete. This study developed new modeling to predict chloride penetration in submerged concrete subjected to various water pressures.

The thermal properties of high temperature cementitious thermal storage material were investigated in this paper. Ordinary portland cement was used as basic binder and the effect of the replacement of slag was investigated.

The Chloride ion penetration resistance of Engineered cementitious composite using surface coating material was evaluated in this study. The test results showed that the amount of chloride ion of surface coated specimens were decreased approximately 22 % lower than that of plain specimens

There structures are build up due to marine concrete development. These marine concrete long-term exposure to water occurs when the rebar corrosion or cracks destroyed. We study to improve this phenomenon. We had the Salt durability assessment that accompanies.