The objective of this paper is to investigate the effect of spreading time of waste cooking oil (WCO) on durability of high volume blast furnace slag concrete. Carbonation and resistance to chloride attack were measured according to spreading time of WCO. WCO was spreaded on the surface of the concrete with different curing condition after demolding. Blast furnace slag with 60% was incorporated into concrete with 45% of W/B. Test results indicated that carbonation and penetration resistance of chloride attack had favorable results with the condition of 28days water curing and spreading WCO.

This study investigated the effect of cement type and ground granulated blast furnace slag (GGBS) on the mechanical properties and workability of grout for offshore PSC structures. As the replacement ratio of GGBS increased, the flowability of the grout increased and both intial and final setting times of grout was delayed regardless of cement type. However, the effects of GGBS on the bleeding of grout were different according to the type of cement: as the ratio of GGBS increased, less bleeding was observed for the grout with typeⅠ cement whereas higher bleeding was generated for the grout with type Ⅲ cement. However, there was no significant difference in their compressive strength at 28 day according the different replacement ratio of GGBS from 0 to 40%.

In this study, high performance fiber composites has developed using GGBS and Flyash with PVA fiber. Thus, four mixtures was determined accoding to the ratio of binder. A series of experiments, including slump flow, compressive strength, uniaxial tensile strength tests were carried out to characterize the mechanical properties of the fiber composites. The result of tests, slump flow showed an average 428mm and tensile strain 2% of behavior strain hardening of due to the occurrence multiple micro crack.

In this study, from the material properties of the aggregates into the actual applications were evaluated for utilizingthe air-cooled blast furnace slag as the coarse aggregates (SG) in PHC piles. The physical and chemical characters ofthe SG were satisfied the standards presented in KS F 2544 for concrete blast furnace slag aggregates. And it was satisfiedthe environmental-factor-evaluation, including the soluble, heavy metal elution and total mercury content, and etc. In casethe non-washed type SG is used, the S/A ratio adjustment according to micro-powder of the aggregate surface and chemicaladmixture adjustment are needed in order to satisfy the aimed material properties. As the replacement ratio of SGincreased, the manifestation rate of compressive strength of the PHC piles was decreased. Particularly, in case non-washingtype SG, the manifestation rate more decreased. Therefore, the elimination of the pop-out materials and cleaning processare necessary for the production process for using the SG as coarse aggregates of PHC Piles

작물학적 특성을 신속히 보완하며 확충할 수 있는 이점을 가지고 있는 돌연변이 육종을 통해 육성된 유용형질발현 돌연변이계통들의 다양한 작물학적 특성과 병해충 저항성은 유용한 유전자원으로 평가되고 있으며, 다양한 작물학적 특성 및 병해충 저항성에 대한 돌연변이 계통의 유용형질들을 교배를 통해 고품질 벼의 보완을 위해 이전하는 것이 용이한 이점을 가지고 있다. 농촌진흥청 국립식량과학원에서는 국내 육성 자포니카 벼품종인 남일에 아지드화나트륨을 돌연변이원으로 활용하여 단간이며 도열병 저항성 돌연변이 후대계통인 Namil(SA)- bl5를 육성하였다. 본 연구는 염색체상에서 Namil(SA)-bl5의 단간 특성과 도열병 저항성에 관련된 유전좌위를 탐색하고자 수행하였다. 주요 연구 결과로 Namil(SA)-bl5와 밀양23호간에서 유래한 F2 94 개체로부터 단간에 대한 표현형을 조사하고 68개 SSR 마커의 유전자형을 검정하여 연관분석(association analysis)을 수행한 결과 목표 유전좌위는 6번 염색체 중하단 부위와 7번 염색체 하단 부위로 간장의 단축은 주동유전자적 조절에 의한 것으로 추정되었다. 또한, 분자마커의 유전자형과 도열병저항성 간의 연관성평가를 수행한 결과를 보면, Namil(SA)- bl5의 도열병 저항성에 관여하는 주동 유전좌위는 12번 염색체 중단의 RM1337 좌위에 위치하는 것으로 추정되었다. 추후 목표 유전좌위에 대한 마커밀도를 선택적으로 높여 고밀도 유전자지도 작성함으로 초정밀 분자표지인자를 개발할 계획이다.

작물학적 특성을 신속히 보완하며 확충할 수 있는 이점을 가지고 있는 돌연변이 육종을 통해 육성된 유용형질발현 돌연변이계통들의 다양한 작물학적 특성과 병해충 저항성은 유용한 유전자원으로 평가되고 있으며, 병해충 저항성에 대한 돌연변이 계통의 유용형질들을 교배를 통해 고품질 벼의 보완을 위해 이전하는 것이 용이하다. 농촌진흥청 국립식량과학원에서는 국내 육성 자포니카 벼 품종인 남일에 EMS를 돌연변이원으로 활용하여 도열병 및 벼멸구 저항성 돌연변이 후대계통인 Namil(EMS)-bl10,bph1를 육성하였다. 염색체 상에 Namil(EMS)-bl10,bph1의 도열병 및 벼멸구 저항성에 관련된 유전자좌위를 표지하기 위해 Namil(EMS)-bl10,bph1 x 밀양23호로부터 유래한 F2 97 개체로부터 도열병과 벼멸구에 대한 저항성을 검정하고 60개 SSR 마커의 유전자형을 검정하여 연관성분석(association analysis)을 수행하였다. 분자마커의 유전자형과 저항성 간의 연관성분석 결과, Namil(EMS)- bl10,bph1 의 도열병 및 벼멸구 저항성에 관여하는 주동유전자위는 12번 염색체 중단의 RM1337 및 RM0277에 각각 표지 되었다.

Rice blast (Magnaporthe oryza B.) is one of the most widespread and devastating diseases of rice. Screening of valuable genetic resources harboring resistance genes is one of the most efficient approaches against blast disease. Because the bioassay to rice blast in the field shows high variations, this study has performed to provide DNA profiles in the accessions of diverse countries using major blast resistant genes linked markers, identified and mapped in different genotypes of rice. Because durable resistance to blast is controlled by a combination of major resistance genes, we surveyed the distribution of blast resistant genes in the 1,500 accessions using major 12 blast resistance genes linked markers. These resistant genes found that the frequency distribution of Pi-39 (66.9%), Pik-m (41.9%), Pit (40.5%), Pii (21%), Pib (19.3%), Pi-d(t)2 (12.7%), but Pita, Pita/Pita-2, Pik, Piz-t, Pi5 genes were identified in less than 10% frequency. Most of accessions contain from 1 to 4 different resistant genes. Pi39 and Pik-m genes amplified in the 69.1% and 51.7% among 356 Korean accessions, Pi39 (79.6%) and Pib (55.8%) in 113 China, Pit (80.6%) and Pib (32%) in 103 Philippines, respectively. In this study, we evaluated the blast resistance degree and the information about the distribution of rice blast resistant genes in rice germplasm. This study will help to develop effective strategies for managing rice blast disease in rice germplasm.

Rice (Oryza sativa L.) is one of the most important staple foods that feed more than 50% of the world’s population. With the improving of people’s living standard, eating quality of rice become the most important aims in current breeding programs. Amylose content (AC) and gelatinization temperature (GT) are the two main measures to estimate the rice grain quality. In rice, a total of 27 genes directly involved the rice starch biosynthesis effecting on the rice eating quality. It clearly identified chromosome 6 to be rich in the genes related to AC and GT properties (GBSS I, SSIIa and SBE I) along with other genomic regions scattered in rice genome. Rice blast, caused by the fungal pathogen M. oryzae, is the most devastating disease of rice and severely affects crop stability and sustainability worldwide. Many fungal genes involved in pathogenicity and rice genes involved in effector recognition and defense responses have been identified over the past decade. A total of 99 and 22 blast resistance genes have been identified and cloned; in which 45% were found in japonica cultivars, 51% in indica cultivars, and the rest 4% in wild rice species. Among them, three major resistance gene clusters have been characeterized: the Pik locus on Chromosome 11, and the Pita locus on Chromosome 12, the Piz locus on Chromosome 6 closely to the starch synthesis-related genes. These results could be important clues for studying the relationship between resistance / susceptible materials and eating quality.

One of the biotic stresses in rice production is rice blast disease caused by Magnaporthe oryzae, which is one of the most destructive fungal diseases in rice. We outlined an approach towards genome wide association study for the blast disease resistance in rice. In total, 295 rice accessions including 137 Heuristic Set accessions (HS) and 158 Korean Bred varieties (KB) were screened for the rice blast disease resistance. Firstly, Magnaporthe oryzae were inoculated to the rice seedlings of two weeks after germinations. Then, evaluation of the disease symptoms and checking the crossing point (CP) value were conducted one week after inoculation. To quantify the CP value, real-time polymerase chain reaction (PCR) was employed in combination with the primer pair and Taqman probe specific to Magnaporthe oryzae HYDROPHOBIN class 1 (MHP1) which is an indispensable unigene encoding HYDROPHOBIN for normal virulence expression. Based on these CP values from the PCR reactions containing a series of increasing concentration of cloned amplicon or fungal genomic DNA, correlation among the template’s copy number or its amount and amplification pattern was calculated. Reliability of this equation was further confirmed using the DNA samples from the rice leaves infected with compatible or incompatible strains of M. oryzae. These steps are still being undertaken, and after the complete process of disease resistance phenotyping for the whole population containing 295 accessions, GWAS will be performed to examine the associated genes involving in blast resistance mechanism using the whole genome resequencing data of 295 accessions. This approach would be a useful technique for identifying genetic loci responsible for natural variation in rice blast disease resistance and ultimately, new R genes which can improve the blast resistance in rice.

Geopolymer foam block was prepared and its characteristics discussed to evaluate the possibility of replacing blastfurnace slag (below BFS) with melting slag in this study. 10~20wt% of BFS was replaced with melting slag. And also10wt% of mine tailing was replaced with fly ash discharged from municipal solid waste incinerator (below MSWI). Thecompressive strength of foam block prepared was similar to that of foam block prepared without replacing BFS. Andalso it was increased by replacing 10wt% of mine tailing with MSWI fly ash. Considering these results, melting slagmay be used instead of BFS without damaging the quality of foam block.

In this study, Blast furnace-based has been manufactured by utilizing recycled aggregates and gypsum as alkali activator. Comparing with the common geopolymer concrete, Using recycled aggregates and gypsum as activator could be identified to applied in low strength concrete.

To evaluate the durability characteristics of low permeable concrete using ground granulated blast-furnace slag with fineness 4,650 cm2/g, carbonation depth was measured. From the test results, persisting period of that was calculated. And it was found that carbonation depth of concrete was proceed 29.5 mm for 100 years.

Mortar laboratory tests were conducted for analyzing fundamental properties of tunnel shotcrete materials used the furnace blast slag power and the surry-type accelerating admixture. This study tested and compared the shotcrete materials used various accelerating admixtures.

야생벼는 재배벼의 병해충 저항성과 불량환경 적응성 등을 제고할 수 있는 유용한 유전자원으로 평가되고 있다. 농촌진흥청 국립식량과학원에서 국내육성 자포니카 벼 품종인 ‘화성’과 야생벼 O. minuta (BBCC 게놈; Acc.=101141)간의 종간교잡을 통하여 흰잎마름병과 도열병에 저항성인 ‘수원506호’를 육성하였으며, 본 계통에 대한 야생벼 유래 도열병 저항성 유전자의 유전양상 구명 및 유전자위 표지에 대한 연구결과는 다음과 같다.1.반복친인 ‘화성’에 높은 친화성을 발현하는 6개 도열병 균주 검정에서 ‘수원506호’는 반복친 ‘화성’과 5개 비교품종들과 다른 저항성 반응을 보여 이들과 다른 야생벼 유래 도열병 저항성 유전자를 보유하는 것으로 판단되었다.2.분자마커의 유전자형과 도열병 저항성 간의 연관성평가를 수행한 결과, ‘수원506호’의 도열병 저항성에 관여하는 주동유전자위는 12번염색체 중단의 RM101-S10704-RM1337 좌위에 위치하는 것으로 추정되었다.3.STS 마커 S10704에서 확인된 ‘화성’과 ‘수원506호’의 이질적인 유전자형은 해당부위에 야생벼 O. minuta의 염색체 단편이 이입되었다는 것을 증명하였다.4.이 좌위는 적어도 9개의 도열병 저항성 유전자들이 위치하는 것으로 보고된 바 있는데, 추후 정밀분석을 통해 ‘수원506호’의 도열병 저항성 유전자위와 기 보고된 유전자들과의 관계를 분석할 계획이다.

이 연구에서는 고로슬래그 미분말을 사용한 프리캐스트 보의 전단성능에 대하여 평가하였다. 실험체는 고로슬래그 미분말 치환율에 따라 총 4체의 실험체를 제작하였다. 모든 실험체는 전단경간비 2.5, 보의 폭 200mm, 유효깊이 300mm이며, 3점 가력을 받는 단순보로 계획하였다. 또한 이 연구에서는 실험체의 전단강도를 예측하기 위하여 기존 전단강도 예측식을 이용하여 실험결과와 비교하였으며, 총 89개의 기존 전단 실험결과를 이용하여 실험결과와 비교 분석하였다. 실험결과, 고로슬래그 미분말을 치환한 실험체는 포틀랜드 시멘트만을 사용한 실험체와 비교분석한 결과 유사한 전단성능을 나타내었다.

조숙 내병 고품질 찰벼를 육성할 목적으로 2000년 하계에 조숙 내도열병 내도복성인 SR20261-5-4-10 계통을 모본으로 조생찰벼인 진부찰을 인공교배하여 SR26688-1-2-2 계통을 선발하여 철원77호로 계통명을 부여하였다. 2008～2010년 3 개년 간 지역적응시험 실시결과 그 우수성이 인정되어 2010 년 12월 직무육성 신품종 선정위원회에서 국가목록등재 품종 으로 선정됨과 동시에 ‘청백찰’로 명명되었다. ‘청백찰’의 출 수기는 보통기 재배에서 평균 출수기가 7월27일로 ‘오대’보 다 4일 빠른 극조생종이다. 벼키는 68 cm로 ‘오대’의 69 cm 와 비슷하며, 이삭길이와 주당 이삭수도 19 cm와 14개로 ‘오 대’와 비슷하나 이삭당 입수는 80개로 ‘오대’보다 많으며, 등 숙율은 78.5%로 ‘오대’보다 약간 낮고, 현미 천립중이 22.3 g으로 중립종이다. ‘청백찰’은 도열병저항성은 ‘오대’보다 강 하나, 흰잎마름병, 줄무늬잎마름병 및 벼멸구에 대한 저항성 이 없다. ‘청백찰’은 불시출수 현상은 ‘오대’와 비슷하였고 위 조현상은 없고, 내랭성검정 결과 내랭성이 ‘오대’와 비슷한 정도를 보였으며, 도복에 강한 편이다. ‘청백찰’의 제현율은 80.8%로 ‘오대’(82.5%) 보다 약간 낮고, 현미 장폭비가 1.86 으로 중단원립이다. 백미외관은 찹쌀이므로 뽀얗게 보이고, 알칼리 붕괴도는 ‘오대’의 6.7에 비해 5.5로 낮으며 단백질함 량은 7.1%로 ‘오대’의 6.7보다 약간 높다. 북부평야, 중산간 지 및 남부 고랭지 5개소, 동북부 해안 1개소, 중북부 고랭지 1개소에서 보통기 보비재배 평균 쌀수량은 5.35 MT/ha로 대 비품종 ‘오대’의 5.39 MT/ha과 비슷한 수량성을 보였다. ‘청 백찰’의 재배적지는 북부평야, 중산간지, 남부 및 중북부 고랭 지 및 동북부 해안지이다.

Usually, columns are the key load bearing elements in concrete frame structures. They are typically weak, not to long distance explosive loadings, but to short distance loadings. In this study, the effect of blast loadings occurring within a short distance was examined analytically. Various aspect ratios of column sections with the same sectional area and reinforcement ratio were considered as variables in order to evaluate damage levels. It was found that ratio of residual strength to nominal axial strength of columns decreased as contact area of column to the blast loading became smaller.

Columns, plays a very important role to support the building. Columns failure causes the structure to collapse. In this study, numerical model was prepared using AUTODYN. The purpose of this study damaged by the blast load residual resistance of reinforced concrete columns is to evaluate the performance. As a result, axial load ratio indicated the highest correlation.

In this study, manufactured of cement mortar using high early strength cement(10 ~ 50 wt%) and blast furnace slag powder(50 ~ 90 wt%), according to compressive strength and flexural strength of hardened cement mortar. XRD and SEM were evaluated utilizing the initial cement hydration properties.

Comparing with using ordinary Portland cement, using blast furnace slag as binder in concrete shows low resistance for carbonation phenomenon. In this research, we focus on carbonation of high volume blast furnace-blended concrete, analysis the reason and find a more efficient method which comparing with using ordinary Portland cement, using FC shows better effort on concrete carbonate resistant.