末端约束条件对能量桩性能的影响

M. Sutman, G. Olgun, L. Laloui, T. Brettmann
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引用次数: 21

摘要

能源桩是一种深层基础构件,其设计目的是利用地面相对恒定的温度,为建筑物提供高效的供暖和制冷,同时起到基础的作用。能源桩运行过程中的温度变化会产生轴向位移,其中一部分轴向位移受到周围土体或顶部建筑物的约束。沿能量桩轴向位移约束部分在升温时产生压应力,在降温时产生拉应力。另外,由于位移的不受约束部分,会引起动轴阻力的变化,这在能源桩设计时需要考虑。为了量化这些影响,在德克萨斯州里士满对三个具有不同端约束条件的能源桩进行了一系列全尺寸现场测试。现场测试程序包括常规桩荷载测试和温度应用。采用温度变化的方法,研究了结构荷载对能量桩的影响。此外,还确定了测试桩的长度,以代表趾部不同的极限条件。本文比较了两根相同端承试桩在有和没有保持机械荷载的情况下的热诱导轴向应力和动员轴阻力,并给出了全尺寸现场试验的细节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of End-Restraint Conditions on Energy Pile Behavior
Energy piles are deep foundation elements designed to utilize the relatively constant temperature of the ground for efficient heating and cooling of the buildings while at the same time serve as foundations. The temperature changes during the operation of energy piles result in axial displacements, a part of which is restrained by the surrounding soil or the building on top. The restrained part of the axial displacements induces compressive stresses during temperature increase and tensile stresses during temperature decrease along energy piles. Moreover, the unrestrained part of the displacement results in changes in the mobilized shaft resistance, which need to be taken into consideration during design of energy piles. With the aim of quantifying these effects, a series of full-scale field tests on three energy piles with different end-restraint conditions was carried out in Richmond, TX. The field test program included conventional pile load tests and application of temperature. Temperature changes were applied to the test piles with and without maintained mechanical loads to investigate the effects of structural loads on energy piles. Moreover, the lengths of the test piles were determined to represent different endrestraint conditions at the toe. In this paper, a comparison of the thermally induced axial stresses and mobilized shaft resistance of two identical, end-bearing test piles with and without maintained mechanical loads are presented along with the details from the full-scale field test.
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