It has been well known that concrete structures exposed to chloride and sulfate attack environments lead to significant deterioration in their durability due to chloride ion and sulfate ion attack. The purpose of this experimental research is to evaluate the resistance against chloride ion and sulfate attack of the cementless concrete replacing the cement with ground granulated blast furnace slag. For this purpose, the cementless concrete specimens were made for water-binder ratios of 40%, 45%, and 50%, respectively and then this specimens were cured in the water of 20±3℃ and immersed in fresh water, 10% sodium sulfate solution for 28 and 91 days, respectively. To evaluate the resistance to chloride ion and sulfate attack for the cementless concrete specimens, the diffusion coefficient for chloride ion and compressive strength ratio, mass change ratio, and length change ratio were measured according to the NT BUILD 492 and JSTM C 7401, respectively. It was observed from the test results that the resistance against chloride ion and sulfate attack of the cemetntless concrete were comparatively largely increased than those of OPC concrete with decreasing water-binder ratio.

초고성능 콘크리트와 고연성 무시멘트 복합재료는 높은 압축강도 및 높은 연성 등 재료의 우수한 성능으로 인하여 유망한 건설재 료로 분류되고 있다. 이 연구의 목적은 초고성능 콘크리트와 고연성 무시멘트 복합재료의 압축강도와 인장거동에 대하여 실험적으로 조사하 여 성능을 비교하는 것이다. 이를 위하여 밀도, 압축강도, 일축인장실험 등 일련의 실험을 수행하였다. 실험결과 알칼리 활성 슬래그 기반 고연 성 무시멘트 복합재료의 압축강도와 인장강도는 초고성능 콘크리트의 압축강도와 인장강도에 비하여 낮게 나타났지만, 인장하중 하에서 알칼 리 활성 슬래그 기반 고연성 무시멘트 복합재료의 인장변형성능 및 인성은 초고성능 콘크리트의 인장변형성능 및 인성에 비하여 높은 것으로 나타났다. 또한 알칼리 활성 슬래그 기반 무시멘트 페이스트에 폴리에틸렌섬유를 보강하여 7.89 %에 달하는 높은 인장변형성능을 확보할 수 있는 것으로 나타났다.

The purpose of this experimental research is to evaluate the long-term resistance against sulfate attack of the alkali activated cementless concrete replacing the cement with ground granulated blast furnace slag. For this purpose, the cementless concrete specimens were made for water-binder ratios of 40%, 45%, and 50%, respectively and then this specimens were immersed in fresh water and 10% sodium sulfate solution for 28, 91, 182, and 365 days, respectively. To evaluate the long-term resistance to sulfate attack for the cementless concrete specimens, compressive strength ratio, mass change ratio, and length change ratio were measured according to the JSTM C 7401. It was observed from the test results that the resistance against sulfate attack of the cemetntless concrete was comparatively largely increased than that of OPC concrete irrespective of water-binder ratio.

The domestic research of the steel plate concrete structures have been focused on the nuclear structures that usually reqire large strength. This research tried to establish some basic design information of SC structures using non-cement concrete. This paper studied on the compressive characteristics, effective length factors subjected to the concentrated compression loadings. The effective length factors were calculated by Euler Column Theory rather than using Plate Buckling Theory. The strains which are requird in calculating the effective length factor were measured to caculate the effective length factor at the yield of surface steel plate, the buckling of surface steel plate and the failure of concrete.

This study is based on developing a free-cement. The Setting time of 100% GGBS(Ground Granulated Blast furnace Slag) admixed alkali-activators is measured, the influence of cation of alkali-activators on setting time is assessed. As a result, in case of mixing KOH or NaOH, setting time is getting shorter, although, GGBS admixed Ca(OH)2 has similar setting times regardless of concentration of alkali-activators.

In this study, it was developed eco-friendly zero cement fiber reinforced concrete using ground granulated blast furnace slag and alkali activator(water glass, sodium hydroxides). Also, it was evaluated the flexure capacity of the RC beams using zero cement concrete. The eco-friendly concrete using zero cement encouraged alkali activation reaction has rapid hardening speed and showed possibility as a high strength concrete. Also, the RC beams applied this showed similar movement and destroy tendency with RC used previous cement.

This study is purposed to analyze the compressive strength development with different produce of fly ash in order to develop cementless concrete. As a results, compressive strength of cementless mortar is related to effect on compressive strength development for the type of fly ash.