• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2002년도 가을 학술발표회 논문집
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• pp.404-410
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• 2002

Dynamic compaction is an efficient ground improvement technique for loose soils and waste landfill. The improvement is obtained by controlled high energy tamping and its effects vary with the soil properties and energy input. This study demonstrated the application of dynamic compaction method for the improvement of waste landfill in construction site. Various tests and measurements such as standard penetration test, bore hole loading test, crater settlement, ground settlement, pore water pressure were peformed during dynamic compaction field test. From the field test results, the efficiency of dynamic compaction method for the improvement of waste landfill was proved.

• 지질공학
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• 제25권2호
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• pp.179-188
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• 2015

Although permeating injection is ideal for grouting reservoir embankments, it is usually combined with fracturing injection for grouting, which can disturb the original soil. Compaction with low expansive pressure followed by grout injection can overcome this problem. An expansive compaction (EC) packer was developed in this work to easily apply sequential injection and compaction at a work site. Furthermore, to achieve compaction around the grouting hole, a mixture of expansive admixtures and grout was injected with the EC packer to trigger an increase in volume of the grout material. This work verifies the compaction effect of the EC packer and the expansive admixture. It reports the concepts of the EC packer, the range of expansive compaction, the effectiveness of injection, and the results of indoor tests performed to verify the effectiveness of the expansive admixtures. The indoor testing comprised a preparatory test and the main test. The preparatory test assessed the admixtures for their compaction effects, while the main test measured and analyzed the admixtures' expansive force, pressure, and compaction effect with a mold to verify the effectiveness of the compaction effect.

• 한국도로학회논문집
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• 제17권3호
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• pp.27-33
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• 2015

PURPOSES : To ensure appropriate RCC properties with sufficient strength development and workability, it is necessary to secure a proper level of consistency. It is also necessary to secure maximum dry density, which is an important factor for increasing the interaction of aggregate interlocking, leading to an augmentation of RCC strength. On the other hand, the dry density of RCC can be changed owing to the compaction conditions, water content, and particle size distribution. A Proctor test and a modified Proctor test were used for determining the optimum water content needed to achieve maximum dry density with different amounts of compaction energy. A Vebe test, on the other hand, was used for checking the level of consistency, which is important for producing a workable mixture. METHODS : To confirm the degree of compaction at various particle sizes, RCC mixtures with different sand/aggregate ratios were evaluated. The Proctor test and modified Proctor test were applied to these mixtures to check the effect of the aggregate gradation and compaction energy on the maximum dry density and optimum water content. During each test, three specimens were produced for all types of water content under each aggregate gradation. A compaction curve and the optimum water content and maximum dry density for each aggregate gradation were then obtained for both tests. The range of water content for the appropriate consistency of each aggregate gradation was determined through a Vebe test. The optimum water content was then evaluated based on this range. RESULTS : The compaction test results show that the modified Proctor test provides a higher maximum dry density and lower optimum water content compared with the standard Proctor test. For the modified Proctor test, two cases of aggregate gradation (s/a = 30% and 70%) had the optimum water contents outside of the appropriate water content range. For the standard Proctor test, on the other hand, none of aggregate gradations provided the optimum water content within the desired range. CONCLUSIONS : The modified Proctor test should be used for an RCC mixture design because it can provide adequacy between maximum dry density and consistency. Moreover, the compaction roller has become highly developed for higher compaction energy.

• 한국지반공학회논문집
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• 제28권2호
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• pp.5-14
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• 2012

현장 다짐기에 가속도계를 이용한 연속다짐 평가장치를 부착하여 얻은 지반의 지지력 평가값 및 기존의 다짐도 평가장치의 결과 값들을 회귀분석하여 비교하였다. 회귀분석 평가 결과, 특정 성토재료에서 Geogauge와 동적콘관입시험은 기존 다짐도 평가(평판재하시험 및 다짐도시험) 결과와의 상관관계가 거의 없는 것으로 나타났다. 또한 CMV를 이용한 평가법이 기존 다짐도 평가를 대체할 수 있는지를 알아보기 위하여 여러 가지 다짐도 평가를 실시하였다. 그 결과 가속도계를 이용한 CMV는 다져진 지반의 강성 특성을 빠르고 편리하게 평가할 수 있을 것으로 판단된다.

• 한국산업융합학회 논문집
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• 제7권4호
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• pp.341-348
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• 2004

This study experimented dividing compaction load by dynamic compaction test and an oil pressure hammer compaction test for consolidation strength characteristics experimental feedback about soil change aspect of waste landfill ground and revelation of compaction effect as underground research about consolidation behavior of waste landfill ground by compaction load, foot weight and percussion number of times were adapted differently each other with uniformity drop head when dynamic compaction test, and hammer scale and percussion number of times were adapted differently also when oil pressure hammer compaction test.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2004년도 춘계학술발표회
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• pp.910-921
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• 2004

In this study, the pilot tests on the reclaimed land were performed in order to find the suitable construction method with dynamic compaction Type I, Type II at different dynamic energy and hydraulic hammer compaction. The estimation of the compaction through the various pilot tests was performed by the CPT-qc, SPT-N and field density tests. As the result of the pilot tests, it shows that the dynamic compaction method is better than the hydraulic hammer compaction method in the effect of the ground improvement, especially dynamic compaction Type I is much superior to others. When it comes to method for measuring the intensity of the ground, the value of the cone penetration test-resistance(qc) is much suitable for the ground. Besides, the standards for the compaction control, which showed that over 10Mpa at 0 through 5meters in the upper layer and 7Mpa at 5 through 8meters in the lower layer in the CPT-qc, could be found without discrimination of the upper road and lower road on the reclaimed land. And it also found that the intensity of the reclaimed land gets back to the original status in about 10 through 15 days.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2006년도 춘계 학술발표회 논문집
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• pp.301-310
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• 2006

A series of laboratory tests was carried out for analyzing compaction characteristics of hydraulic fill soils(or hydraulically filled soils). Hydraulic fill soils were settled down by the weight of soil particle itself in water and consolidated by the extraction of water from the soil structures. Water content and dry unit weight were observed as the depth of sedimentation and consolidation soil. It was found from the result that the optimum water content $(W_{cpt})$ of the maximum unit weight$(\gamma_{dmax})$ is higher than that of laboratory compaction test(KS F 2312 A method). It was due to difference in compaction energy and compaction effect between two methods. And the maximum dry unit of hydraulic fill soil is smaller than that of laboratory compaction test. Especially in terms of compaction effect, the maximum relative compaction degrees$(R_{cmax})$ of Seamangum dredged sand, river sand and mixed sand, half and half of dredged and river sands, were 85%, 91% and 86%, respectively. It means that the compaction effect can be $85\sim91%$ of the maximum unit weight in laboratory compaction test.

• 한국지반환경공학회 논문집
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• 제20권2호
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• pp.41-48
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• 2019

국내에 많은 도로공사, 공항공사, 항만공사, 구조물 되메우기 공사 등의 토목공사에서 흙의 다짐은 가장 중요한 공정 중 하나이다. 특히 도로공사에서 흙의 다짐공사는 노체다짐과 노상다짐으로 구분하며 다짐도 부족으로 부실공사의 원인으로 작용하기도 하는 중요한 작업이다. 현재는 여러 가지 다짐도 측정방법이 있으나 가장 많이 사용되는 평판재하시험이나 모래치환법에 의한 흙의 단위중량 시험방법을 가장 많이 사용하고 있으나 경제성이 없어 여러 측정방법이 개발되고 있다. 간편한 다짐도 측정 방법의 목적으로 측정기를 개발하고 제작한 것이 자유낙하 관입깊이별 다짐도 시험기(Free-Fall Penetration Test; FFPT)이다. 본 연구에서는 실내시험을 위하여 균질한 시료를 공사현장에서 확보하여 체가름 시험을 통해 흙을 분류하고 입도분석시험과 비중시험을 실시하였다. 자유낙하 관입깊이별 다짐도 시험기(FFPT)의 원리는 지구중력을 이용한 자유낙하 물체의 선단에 설치된 관입 침이 노체 또는 노상의 다짐이 완료된 노면에 관입 되는 깊이를 관측하고 그 위치에 모래치환법에 의한 흙의 단위중량시험을 통하여 다짐도 값을 구하여 분석하고 연관성을 검증하는 것으로 흙의 최대허용입경이 2.36mm로 시험하였으며 $A_1$다짐의 경우는 낙하고 10cm에서 시험한 결과 값으로 추세선을 작성하고 추세선의 결정계수 $R^2=0.8677$ 값을 도출하였으며 $D_2$다짐의 경우는 낙하고 20cm에서 측정 시 결정계수 $R^2=0.9815$ 값이 관측되었다. 자유낙하시험은 낙하높이를 10cm에서 50cm까지 10cm 간격으로 변경을 하면서 시험하였다. 본 연구는 모래치환법에 의한 흙의 단위중량시험을 통하여 얻은 다짐도 값과 FFPT 시험기를 통해 얻은 관입침의 관입깊이와의 연관성을 비교 분석하여 현재의 다짐도 측정방법의 단점인 시간, 장비, 인력의 소모를 최소화하여 경제성을 확보하고 정확성과 간편성을 보장하는 다짐도 측정기 제작으로 여러 공사현장에서 다짐도 측정이 간단하게 진행될 것이다.

• 한국지반환경공학회 논문집
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• 제19권11호
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• pp.5-14
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• 2018

전 세계적으로 토목공사 현장에서 토사의 다짐작업은 중요한 공종 중 하나의 공종이다. 특히 도로공사에서의 다짐작업은 공사 후에도 부실시공과 밀접한 관계를 가지고 있으므로 매우 중요하게 평가된다. 현재는 여러 가지 다짐도 측정방법 중에 평판재하시험이나 모래 치환법에 의한 흙의 단위 중량 시험방법을 가장 많이 사용하고 있으나 많은 시간과 장비가 필요하며 인력도 많이 소모되어 경제성을 확보하지 못하고 있다. 본 연구에서는 중력에 의한 자유낙하 물체의 관입 깊이에 따라 다짐도 측정방법인 자유낙하 관입깊이별 다짐도 시험(Free-Fall Penetration Test, FFPT) 일명 휴대용 다짐도 측정기를 이용하여 현장실험을 실시하여 다짐도와 관입깊이 그래프를 작성하였고 낙하고 10cm에서 결정계수 값이 0.963으로 가장 정확도가 높았으며 그래프는 가로축과 세로축 모두 10진법 그래프로 작성하였으며, 허용오차범위는 관입깊이 기준으로 ${\pm}1.28mm$로 작성되었다. 휴대용 다짐도 측정기를 통하여 현장에서 간단하고 신속, 정확한 다짐도 측정이 가능하여 경제성 확보와 공정 관리가 편리하게 진행될 것이다.

• 한국농공학회지
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• 제31권1호
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• pp.82-95
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• 1989

This study was carried out for the stability analysis of earth dam by the variation of compaction density. The test samples were taken from five kinds of soil used for banking material and the degree of compaction for this samples were chosen 100, 95, 90, 85, and 80 percent. The stability problems were analysed by the settlement and camber( extra banking) of dam, strength parameter and dam slope, and coefficient of permeability and seapage flow through dam body. The results of the stability analysis of earth dam are as follows. 1. The more the fine particle increases and lower the compaction degree becomes, the lower the preconsolidation load becomes but the compression index becomes higher. 2. Sixty to eighty percent of settlement of dam occurs during the construction period and the settlement ratio after completion of dam is inversly proportional to the degree of compaction. 3. The camber of dam has heigher value in condition that it has more fine particle(N) and heigher dam height(H) with the relation of H= e(aN-bH-e). 4. The cohesion(C) decreases in proportion to compaction degree(D) and fine particle(N) with the relation of C= aD+ bN-c, but the internal friction angle is almost constant regardless of change of degree of compaction. 5. In fine soil, strength parameter from triaxial compression test is smaller than that from direct shear test but, they are almost same in coarse soil regardless of the test method. 6. The safety factor of the dam slope generally decreases in proportion to cohesion and degree of compaction but, in case of coarse soil, it is less related to the degree of compaction and is mainly afected by internal friction angle. 7. Soil permeability(K) decreases by the increases of the degree of compaction and fine particle with relation of K=e(a-bl)-cN) 8. The more compaction thickness is, the less vertical permeability (Kv) is but the more h6rzontal permeability (KH) is, and ratio of Kv versus KH is largest in range from 85 to 90 percent of degree of corn paction. 9. With the compaction more than 85 percent and coefficient of permeability less than ${\alpha}$X 10-$^3$cm/sec, the earth dam is generally safe from the piping action.