• 제목/요약/키워드: A Foundation Stone

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석탑 탑구(塔區)의 역할 및 변천에 관한 연구 (A Study on the Role and Transition of the Tapgu in Stone Pagoda)

  • 정해두;장석하
    • 건축역사연구
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    • 제19권1호
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    • pp.91-104
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    • 2010
  • Korea's stone buildings are varied in their types such as stone pagodas, stone lanterns, stone bridges, stoneworks, etc. These account for more than 30% over the entire cultural properties, but research achievements are lacking compared to wooden buildings. Accordingly, this study aims to identify the shape, role and transition of Tapgu, which had been used to set up boundary at a stone pagoda, one of the stone buildings. The 20th stone pagodas, which have relative accuracy in its forming year, have been studied around national treasure or treasure between 7th century and 9th century. There are a lot of different opinions about the role and meaning of Tapgu, and at this writer's option, Tapgu is defined as follows: First, each structure plays a different role. A structure to pass the load in the upper part to the ground can be seen as a stair or a pedestal, but a structure to form double foundations can be considered as Tapgu. Second, Tapgu can be used to divide areas with stones or stepping stones. As a result, the shape, role and transition of Tapgu is as follows: Firstly, when it comes to its shape, Tapgu includes flagstone type, belt type, double foundation type, compound type. Flagstone type had been used to set up boundary at stone pagodas by using foundation stone, belt type by keeping apart from stone pagodas, and double foundation stone by installing dual foundation stones. Secondly, Tapgu is considered to set up boundary in the case of flagstone and plate stone, and acts like a structure which can prevent surrounding area of stone pagoda from coming up while being stuck around stone pagodas. Belt type was installed only for the purpose of forming boundary. At the bottom, double foundation stone had been used to pass the load in the upper part to the ground in the same way as the foundation stone in the upper part, and the boundaries were set varying the size. Thirdly, when it comes to the transition of Tapgu, flagstone type of boundary stone had been installed in the 7th century, and belt type of boundary stone had been mainly installed in the 8th century. And double foundation stone had been installed in the 9th century. Comprehensively, flagstone type and belt type had been made around the 7th and 8th century when Tapgu was regarded important and stone pagoda started to be built. At the turn to the 9th century, the role of Tapgu had been increasingly losing in the construction of stone pagoda, and foundation stone started to appear.

석탑 기단부 적심구성방법에 대한 특성 고찰 - $7{\sim}8$세기 석탑 중 해체 수리한 석탑을 중심으로 - (A study on characteristics of composition method of inner foundation in stone stupa)

  • 정해두;장석하
    • 건축역사연구
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    • 제16권5호
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    • pp.55-66
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    • 2007
  • Through analysing on construction cases of stupa built in A.D. 7,8th, I have researched about these : constructive methods of inner soil of stupa, spatial compositions, characteristics of structures, arrangements of inner soil and etc. And cases analysed are six ; Mireuksajiseoktap(stone pagoda of Mireuksa Temple site), Gameunsajisamcheumgseoktap(three storied stone pagoda of Gameunsa Temple site), Goseonsajisamcheungseoktap(three storied stone pagoda of Goseonsa Temple site), Wolseong nawolliocheungseoktap(five storied stone pagoda in Nawonri, Wolseong), Guksagokseoktap(three storied stone pagoda in Guksa valley), Giamgokseoktap(three storied stone pagoda in Giam valley). Additionally we researched about inner soil of Sacheonwangsaji tapji(basement of stone stupa site in Sacheonwang Temple site) to speculate on composition of Synthetically, the foundation could be divided as core space and outer space. ; the former as structural function and the latter as ornamental function. And the core area could be divided again as center column space and buffer space. The relationship between core spaces and its formation are as belows; First, according to the area of foundation and scale of stone pagoda, formations of core are differed. As the scale of stone pagoda goes bigger, and the area of foundation goes larger, the structure of stone pagoda comprised by center column type and layered-core which endure upper load independently. On the contrary, as the scale of stone pagoda goes smaller, and the area of foundation goes lesser, the structure of stone pagoda tend to use only center column to endure upper part. Second, spatial composition of core area is comprised as two spaces, one which endure upper load and buffer space which absorb side pressure and upper pressure. The buffer space tend to be used in case of those structures which could not endure side pressure or have lots of joint. In some cases, it was located below the cover stone of foundation and gained upper load. And in case that have not gained pressure from side stone, the buffer space are comprised by smalle stone or roof tile to get structural supplement.

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Optimal design of stone columns reinforced soft clay foundation considering design robustness

  • Yu, Yang;Wang, Zhu;Sun, HongYue
    • Geomechanics and Engineering
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    • 제22권4호
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    • pp.305-318
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    • 2020
  • Stone columns are widely used to treat soft clay ground. Optimizing the design of stone columns based on cost-effectiveness is always an attractive subject in the practice of ground treatment. In this paper, the design of stone columns is optimized using the concept of robust geotechnical design. Standard deviation of failure probability, which is a system response of concern of the stone column-reinforced foundation, is used as a measure of the design robustness due to the uncertainty in the coefficient of variation (COV) of the noise factors in practice. The failure probability of a stone column-reinforced foundation can be readily determined using Monte Carlo simulation (MCS) based on the settlements of the stone column-reinforced foundation, which are evaluated by a deterministic method. A framework based on the concept of robust geotechnical design is proposed for determining the most preferred design of stone columns considering multiple objectives including safety, cost and design robustness. This framework is illustrated with an example, a stone column-reinforced foundation under embankment loading. Based on the outcome of this study, the most preferred design of stone columns is obtained.

경주 불국사 삼층석탑(석가탑) 기초에 관한 조사연구 (A Research Study on the Foundation of the Three Storied Stone Pagoda(Seokgatap) of Bulguksa temple in GyeongJu)

  • 지성진;문정민
    • 건축역사연구
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    • 제24권5호
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    • pp.49-58
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    • 2015
  • The purpose of this study is to analyze the overall condition of the foundation for the three storied stone pagoda of Bulguksa temple in GyeongJu. As a research method, exploration of the electrical resistivity, refraction seismic, surface wave exploration, GPR exploration, Reputation loading test. The results of the investigation, the range of the foundation was formed in foundation stone outskirts of 1.5 ~ 2.0m. It was confirmed to be about 2.0m depth. The depth of the foundation becomes shallower from the base portion to the outside. And the bearing capacity of foundation was sufficient conditions to weight. It can sufficiently support the weight of pagoda. And, the result of this investigation becomes basis data for repair work.

Foundation size effect on the efficiency of seismic base isolation using a layer of stone pebbles

  • Banovic, Ivan;Radnic, Jure;Grgic, Nikola
    • Earthquakes and Structures
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    • 제19권2호
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    • pp.103-117
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    • 2020
  • The effect of the foundation size on the efficiency of seismic base isolation using a layer of stone pebbles is experimentally investigated. Four scaled models of buildings with different stiffnesses (from very stiff to soft) were tested, each with the so-called small and large foundation, and exposed to four different accelerograms (different predominant periods and durations). Tests were conducted so that the strains in the model remained elastic and afterwards the models were tested until collapse. Each model was tested for the case of the foundation being supported on a rigid base and on an aseismic layer. Compared to the smaller foundation, the larger foundation results in a reduced rocking effect, higher earthquake forces and lower bearing capacity of the tested models, with respectable efficiency (reduced strain/stress, displacement and increase of the ultimate bearing capacity of the model) for the considered seismic base isolation compared to the foundation on a rigid base.

백제(百濟) 목탑지(木塔地) 편년(編年)과 축기부(軸基部) 축조기법(築造技法)에 관한 연구(硏究) (A study on the Chronological Recordings and construction method of Wooden Pagoda Sites of Baekjae)

  • 조원창
    • 건축역사연구
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    • 제17권4호
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    • pp.65-82
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    • 2008
  • The wooden pagoda sites which have been confirmed in Baekjae's former territory so far have flattened surface of the earth or foundation pert made by digging up the earth. In particular, the latter is found more often in the pagoda sites of Baekjae, which is essential and absolutely necessary because of the characteristics of pagoda structure. The wooden pagoda sites with foundation part made by digging up the earth under the stylobate are found at Yongjeongli ruined temple site of Woongjin area, and at Neung-sa temple site, Wangheung-sa temple site, Geumgang-sa temple site, and Mireuk-sa temple site of Sabi period. They are also observed at Hwanglyong-sa nine-storied wooden pagoda of Shilla and at Biin five-storied stone pagoda of early Goryeo. They are important data improving that the construction technologies of Baekjae continued to be applied to build stone or wooden pagodas, transcending time and space. Recently, the site assumed as a wood pagoda site of Hanseong area was examined in Gyeongdang sect ion of Pungnap mud fortification. If this is proved to be a real wooden pagoda site, this digging-up construction technology of foundation part ann be concluded to be a traditional engineering technology of Baekjae which was frequently used from Hanseong period to Sabi period. On the other hand, this digging-up construction technology of foundation part has been found only at pagoda sites and main building sites of temple ruins, and it helps examine their symbolism.

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구조물 기초하중 작용시 지오그리드 보강 쇄석말뚝의 하중지지 특성에 관한 수치해석 연구 (Numerical Investigation of Load Carrying Capacity of Geogrid-Encased Stone Columns under Foundation Load)

  • 유충식
    • 한국지반공학회논문집
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    • 제25권11호
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    • pp.75-86
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    • 2009
  • 본 논문에서는 쇄석말뚝의 하중 지지력 향상을 위해 지오그리드를 이용하여 주면을 감싸는 일명 "지오그리드 보강 쇄석말뚝"의 하중지지특성에 관한 내용을 다루었다. 이를 위해 지오그리드 감쌈 쇄석말뚝의 근본적인 기능인 배수 효과와 지오그리드 보강 효과를 현실적으로 모사할 수 있는 3차원 응력-간극수압 수치해석 모델을 이용하여 재하하중에 대한 다양한 시공조건에 대한 매개변수 해석을 수행하고 그 결과를 분석하였다. 그 결과, 기존의 연구에서 발표된 성토 하중 조건에서 확인할 수 있었던 장기 하중지지력 향상 효과와 유사하게 재하하중 조건에서도 지지력이 현저히 향상하는 결과를 확인할 수 있어 지오그리드 보강 쇄석말뚝 공법은 연약지반 성토시 적용성 뿐만 아니라 구조물 기초로도 활용성을 확보할 수 있는 것으로 검토 되었다. 해석 결과는 지오그리드 보강 쇄석말뚝의 하중지지력과 영향 인자간의 관계 설정이 가능하도록 제시하였으며 현장적용성 측면에서의 고찰을 시도하였다.

고려시대의 호남지역 신라계 석탑 연구 (A Study on Stone Pagodas with Silla Style in the Honam Region of Korea in Goryeo Period)

  • 탁경백
    • 헤리티지:역사와 과학
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    • 제49권4호
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    • pp.4-21
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    • 2016
  • 이제까지 호남지역의 석탑은 대체로 백제의 고토란 이유로 백제계 석탑에 대한 연구가 대부분이었다. 그러나 지정문화재를 중심으로 검토한 결과 호남지역의 석탑은 94기이고, 이중 고려시대에 만들어진 백제계 석탑은 15기, 신라계 석탑은 34기로 확인할 수 있었다. 이에 본 논문은 이제까지 백제계 석탑에 편중한 연구에서 신라계 석탑에 대한 검토를 통해 호남지역 석탑의 새로운 면모를 밝히고자 하였다. 석탑의 지역적인 배치를 통해 본 결과, 통일신라시대에는 전라남도에 치중하여 신라 석탑이 만들어졌다. 그러나 고려시대에 들어오면 호남지역 전역에 걸쳐 불국사 삼층석탑을 모방한 신라계 석탑이 건립된다. 이러한 점은 이전의 시기보다 신라계 세력의 호남지역에 대한 불교지배력이 강화된 것으로 판단된다. 이러한 현상은 백제계 석탑과 신라계 석탑이 공존하는 김제, 정읍, 순창 담양, 영암 강진을 중심으로 확인할 수 있다. 호남지역 신라계 석탑의 기단부의 형식은 이층기단은 21기, 단층기단은 12기이다. 이러한 현상은 신라 석탑이 가지고 있는 특징 중 하나인 이층기단을 계승하고자 했던 의도로 파악된다. 단층기단도 1매석, 또는 자연암반을 하층기단 삼아 단층기단으로 만들어진 탑도 2기가 있었다. 탑신부는 삼층석탑이 21기, 오층석탑이 12기이며, 1층탑신석을 1매석으로 만든 탑이 25기로 신라석탑의 전형적인 3층탑신부와 탑신석 1매석 제작 전통을 잘 계승하고자 하였던 것으로 판단된다. 그러나 옥개받침은 3단, 4단, 5단 등 그 구성방법이 다양하게 확인되었다. 전체적으로 이층기단을 가지고 있는 석탑 중 상층기단과 하층기단에 탱주가 있는 석탑은 16기 중 12기가, 삼층석탑은 21기 중 15기가 전라남도에 분포하고 있었다. 따라서 신라계 석탑의 정형성을 잘 계승하여 더 많이 유행한 지역은 전라남도임을 알 수 있었다.

일본 국분사 목탑의 하부구조 고찰 (A Study on the Foundations of Wooden Pagodas of 'Kokubunji' in Japan)

  • 탁경백
    • 건축역사연구
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    • 제19권5호
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    • pp.81-98
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    • 2010
  • In the middle of the 8th century, we met the new high-rise building, the 7th storied wooden pagodas in 'Kokubunji' in Japan. I tried to analyze and study this building to show how the wooden pagoda had changed itself because of appearance of new style. The conculusions are as follows; 1. The construction of the foundation was mainly composed namely 'Panchuk'. It was proceeded by two ways. One is the earthen-digging, laying foundations named 'Gulkwangpachuk' and the other is simply laying foundation named 'Jisangpanchuk'. In that period, due to the progress of the technique, we assumed that the main stream is 'Jisangpanchuk'. 2. The elevation of base was mostly the single foundation from archaeological study. The material was stone. The middle case of pagoda had the base of tile-roofed. We knew the just one pagoda had the base of brick, but that was not main stream. 3. The new device had appeared in the central base stone. It was the stone point. But in that period the existing method, a hole style and the new style was used in the central base stone. This fact is showed that the central government was not hold the reigon(it names 'Kook') in the respect of the technique. 4. The plan scale is classified of 3 group. As a result, the first body is larger, the main-unit and the sub-unit is a equal unit. But smaller, the length of main-unit is longer than the one of sub-unit. And the very small pagoda was build in that period.

Evaluation of the Structural Stability of Rammed Earth Construction :The Case Restoration Project of the Stone Pagoda at Mireuksa Temple Site in Iksan

  • Min, Hwang-Sik;Choen, Deuk-Youm
    • Architectural research
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    • 제20권3호
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    • pp.65-73
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    • 2018
  • The restoration of foundations supporting the immense load of the stone pagoda at Mireuksa Temple Site prioritizes securing its structural stability. But so far, rammed earth construction is still not easy to determine the structural stability. This paper aims to emphasize that a scientific experimental study was conducted on a rammed earth construction, to identify its methodology and obtain objective data about structural stability of the foundation work. An experimental study fabricated specimens from the soil that had been removed during the excavation survey, determined the allowable bearing capacity through plate load tests, and compared the results with the predicted stress after reassembly of the stone pagoda to estimate the structural stability. Then, the repair method was selected based on the experimental study result. The evaluation method of the restoration of foundations consisted of an examination of the allowable bearing capacity and settlement. The allowable bearing of the reinforced foundation was more than twice the contact pressure under the stacked stones of the pagoda. The possibility of settlement of the rammed earth foundation soil layer during the pagoda assembly is expected to be very low because the settlement amount of the reformed soil layer is less than half of the settlement of the stabilized existing soil layer.