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Chapter 5. Classification of Soil
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5.1 Textural Classification texture of soil : surface appearance ※ In most cases, natural soils are mixtures of particles from several size groups. USDA system in Table 2.3 ; ‣ Sand-size : 2.0 to 0.05 mm in diameter ‣ Silt-size : 0.05 to 0.002 mm in diameter ‣ Clay-size : smaller than 0.002 mm in diameter
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5.2 Classification by Engineering Behavior textural classification : based entirely on the particle-size distribution. ※ It is necessary to consider plasticity, which results from the presence of clay minerals, in order to interpret soil characteristics. Two Classification System : 1)AASHTO Classification System - Highways 2)Unified Classification System - Geotechnical Engineers
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5.3 AASHTO Classification System -Developed in 1929 as the Public Road Administration Classification system. -Incorporate a number called the group index(GI). ※ Soil is classified into seven major groups : A-1~A-7 A-1, A-2, and A-3 : Granular materials where 35% or less of the particles pass through the No. 200 sieve. A-4, A-5, A-6 and A-7 : More than 35% pass through the No. 200 sieve.
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5.4 Unified Soil Classification System Proposed by Casagrande in 1942 during World war II for the US army. ASTM designation D-2487 -Soil classification system to determine the group symbols.
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Soil classification, seepage through earth retaining structure, Shear strength Karl Terzaghi Award (1 st Award ) President of ISSMGE (1961~1965) Institute of Civil Engineers – Rankine Lecturer ASCE – Terzaghi Lecturer Arthur Casagrande(1902-1981) 지반공학 인물 평전
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Primary letter G S M C O (organic silts and clays) WPWP #200 passing < 5% GP-GM SW-SM dual symbol 5 ~ 12 % Secondary letter L : Low plasticity (LL < 50%) H : High plasticity (LL ≥ 50%) < 50% ≥ 50% #4 #200 < 50% ≥ 50% M : Non plastic C : Plastic #200 passing > 12%
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LH CHCL ML OL MH OH CL CL-ML ML 7 4 # 200 passing > 12% 50 %20 SM, GM; Below A line SC, GC; Above A line ④
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For proper classification according to this system, some or all of the following need to be known : 1.Percent of gravel – that is, the fraction passing the 3 in. sieve (76.2mm opening) and retained on the No.4 sieve(4.75 mm opening) 2.Percent of sand – that is, the fraction passing the No.4 sieve (4.75 mm opening) and retained on the No.200 sieve (0.075 mm opening) 3.Percent of silt and clay – that is, the fraction finer than the No.200 sieve (0.075 mm opening) 4.Uniformity coefficient(Cu) and the coefficient of Gradation(Cc) 5.Liquid limit and plasticity index of the portion of soil passing the No.40 sieve
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5.4 Unified Soil Classification System Proposed by Casagrande in 1942 ASTM designation D-2487
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5.5 Comparison Between the AASHTO and Unified Systems AASHTO system : 35% passes through the No. 200 sieve No. 10 sieve is used to separate gravel from sand. Gravelly and sand soils are not clearly separated. (The A-2 group, in particular, contains a large variety of soils.
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Unified system : 50% passes through the No. 200 sieve No. 4 sieve is used to separate gravel from sand. Gravelly and sandy soils are clearly separated. ※ Symbols like GW, SM, CH, and others that are used in the Unified system are more descriptive of the soil properties than the A symbols used in the AASHTO system. ※ The classification of organic soils as OL, OH, and Pt is provided in the Unified System. Under the AASHTO system, there is no place for organic soils.
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USCS vs AASHTO 의 비교 ①흙의 입도분포와 #200 sieve 통과량을 기준으로 조립토와 세립토를 구분 하는 것은 동일하나 USCS 는 50%, AASHTO 는 35% 를 기준 ② AASHTO 는 모래 자갈을 2.0mm 를 기준으로 하나 USCS 는 4.76mm 를 한 계로 함 ③ USCS 는 모래, 자갈을 세밀히 구분하고 있으나 AASHTO 는 개략적으로 구분 ④유기질토는 USCS 로서 가능하나 AASHTO 는 제외
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