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5.1 The procedure described in this test method for determination of the shear resistance of the soil and geosynthetic or geosynthetic and geosynthetic interface is intended as a performance test to provide the user with a set of design values for the test conditions examined. The test specimens and conditions, including normal stresses, are generally selected by the user.
5.2 This test method may be used for acceptance testing of commercial shipments of geosynthetics, but caution is advised as outlined in 5.2.1.
5.2.1 The shear resistance can be expressed only in terms of actual test conditions (see Note 2 and Note 3). The determined value may be a function of the applied normal stress, material characteristics (for example, of the geosynthetic), soil properties, size of sample, moisture content, drainage conditions, displacement rate, magnitude of displacement, and other parameters.
5.2.2 This test method measures the total resistance to shear between a geosynthetic and a supporting material (substratum) or a geosynthetic and an overlying material (superstratum). The total shear resistance may be a combination of sliding, rolling and interlocking of material components.
5.2.3 This test method does not distinguish between individual mechanisms, which may be a function of the soil and geosynthetic used, method of material placement and hydration, normal and shear stresses applied, means used to hold the geosynthetic in place, rate of shear displacement, and other factors. Every effort should be made to identify, as closely as practicable, the sheared area and failure mode of the specimen. Care should be taken, including close visual inspection of the specimen after testing, to ensure that the testing conditions are representative of those being investigated.
5.2.4 Information on precision among laboratories is incomplete. In cases of dispute, comparative tests to determine whether a statistical bias exists among laboratories may be advisable.
5.3 The test results can be used in the design of geosynthetic applications including, but not limited to, the design of liners and caps for landfills, mining heap leach pads, tailings impoundments, cutoffs for dams and other hydraulic barriers, geosynthetic-reinforced retaining walls, embankments, and base courses; in applications in which the geosynthetic is placed on a slope; for determination of geosynthetic overlap requirements; or in other applications in which sliding may occur between soil and a geosynthetic or between two geosynthetic materials.
5.4 The displacement at which peak strength and post-peak strength occurs and the shape of the shear stress versus shear displace......
原位测试和实验室测试的结果往往都与设计参数相关,这些参数可能不能直接测得。初步设计涉及的参数有抗剪强度和变形。表1总结了现场和实验室确定地质参数的方法。...
该单剪试验系统可以直接研究排水和不排水条件下的剪切应力和剪切应变的关系,也可以用于海底结构,滑坡和地震性能研究的常规试验。02VDDCSS多向动态循环单剪系统VDDCSS允许两个方向进行简单剪切,而不是标准单向。这通过具有作用于其上的次级剪切作动器来实现,此剪切作动器与主剪切作动器相差90度。当用作变向系统时,次剪切轴可以独立于主剪切轴或与其一起使用,因此可以在任何水平方向上执行简单的剪切。...
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