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The residual strength of geosynthetic reinforcement subjected to accelerated creep testing and simulated seismic events

机译:经受加速蠕变测试和模拟地震事件的土工合成材料增强材料的残余强度

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All geosynthetic materials used as soil reinforcements creep and it is necessary to obtain data on their creep behaviour before they can be used. During an earthquake the structure is subjected to additional loads, as may be the case with mining subsidence, blast loading or the application of abnormal loads, which may influence the creep characteristics of the reinforcement. The stepped isothermal method (SIM) is a recently developed procedure that is used to predict the long-term creep behaviour of geosynthetics from short-term tests. These tests can typically be performed in one day and use a single specimen, loaded continuously whilst being exposed to a sequence of timed isothermal events of increasing temperature. The development of the SIM Test provides an opportunity to study the effect of simulated seismic events or the influence of other additional loads, occurring at different intervals of the life of the structure, on the long-term strength of geosynthetic reinforcement. This is the subject of the paper. Five simulated seismic SIM Tests were performed, one with a simulated seismic event in each of the 26, 40, and 82℃ temperature steps, with two tests carried out with during the 54℃ step. The reason for varying the time of application of the simulated seismic load was to study the effect of the timing of real life earthquakes. This procedure facilitated the fulfilment of the first primary aim of the research, to assess the SIM as a device for investigating the effect of simulated seismic events on the creep mechanism of geosynthetic reinforcement. With respect to this, the research has shown that for lower temperatures, the SIM procedure can produce satisfactory results. However, at temperatures of 54℃ and above, the SIM procedure described proved unsuccessful for the simulation of seismic events. The second aim was to assess the residual strength of geosynthetic reinforcement subjected to seismic episodes. From the successful simulated seismic SIM Tests, it was found that the residual strengths of the material, after exposure to a seismic loading equivalent to 80% of the ultimate tensile strength of the reinforcement were the same as that of a virgin specimen. It is thought that the unsuccessful seismic SIM Tests illustrate a deficiency on the part of the test, rather than the geosynthetic material being unable to sustain seismic loading later in the design life. This was confirmed by a conventional creep test specimen sustaining a seismic loading at the end of its design life, and retaining its full tensile strength.
机译:所有用作土壤加固材料的土工合成材料都会蠕变,在使用前必须获得有关其蠕变行为的数据。在地震期间,结构会承受额外的载荷,例如开采沉陷,爆炸载荷或施加异常载荷时,可能会影响钢筋的蠕变特性。阶梯式等温法(SIM)是最近开发的一种程序,用于从短期测试中预测土工合成材料的长期蠕变行为。这些测试通常可以在一天之内完成,并使用单个样本,连续暴露于温度升高的一系列定时等温事件中,连续加载。 SIM Test的开发为研究模拟地震事件或在结构寿命的不同时间间隔发生的其他附加载荷对土工合成材料的长期强度的影响提供了机会。这是本文的主题。进行了五次模拟地震SIM测试,其中一项在26、40和82℃的温度阶跃中分别进行了一次模拟地震事件,在54℃的阶跃中进行了两项测试。改变模拟地震荷载作用时间的原因是为了研究现实生活中地震时间的影响。该程序促进了该研究的第一个主要目标的实现,即评估SIM作为一种用于调查模拟地震事件对土工合成材料加筋蠕变机理影响的设备。对此,研究表明,对于较低的温度,SIM程序可以产生令人满意的结果。然而,在54℃及以上的温度下,所描述的SIM程序无法成功地模拟地震事件。第二个目的是评估遭受地震影响的土工合成材料增强材料的残余强度。从成功的模拟地震SIM测试中可以发现,材料在承受地震载荷后的残余强度等于增强材料的极限抗拉强度的80%,与原始试样的残余强度相同。可以认为,失败的地震SIM测试说明了测试的不足,而不是土工合成材料无法在设计寿命的后期承受地震载荷。常规蠕变测试样品在设计寿命结束时承受地震载荷,并保持其完全抗拉强度,从而证实了这一点。

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