用恒水头法和降水头法测量的透水水泥砂浆渗透系数

Q3 Engineering

Journal of Applied Engineering Science Pub Date : 2023-11-20 DOI:10.5937/jaes0-44066

E. Yogafanny, R. Triatmadja, F. Nurrochmad, Intan Supraba

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引用次数: 0

摘要

改性透水混凝土和水泥砂浆，即透水水泥砂浆 (PCM)，采用特定成分设计，以形成孔隙。粗骨料被去除，以形成较小的孔隙。PCM 具有滤水作用，需要比水泥砂浆更高的渗透性，但低于透水混凝土。它的孔隙可以排水，同时截留杂质。本研究比较了砂灰比 (S/C)、试样厚度和龄期对渗透性和孔隙率的影响。它还对比了通过恒定水头法和下降水头法确定的 PCM 渗透系数。许多研究都使用这些方法对透水混凝土的渗透系数进行了比较，但没有对透水水泥砂浆等以水泥为基础的细骨料复合材料的渗透系数进行比较。PCM 使用厚度为 3、5 和 10 厘米的细骨料（0.6 - 0.85 毫米），S/C 比为 4 和 5。研究结果表明，S/C 5 试样的孔隙率明显高于 S/C 4。S/C 比率对渗透性有显著影响；比率越高，渗透性越大。S/C 4 的渗透系数在 0.006 - 0.075 厘米/秒之间，而 S/C 5 的渗透系数在 0.010 - 0.147 厘米/秒之间。在 90 天龄期的试样中，恒定水头法和水头下降法的渗透系数之间的关系分别为 Kc = 1.0516 Kf（S/C 4.2）和 Kc = 0.9325 Kf（S/C 5.2）。根据这些研究结果，较细的集料会导致明显较小的渗透率，因此恒定水头法比下降水头法更可靠。

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PERMEABILITY COEFFICIENT OF PERVIOUS CEMENT MORTAR MEASURED BY THE CONSTANT HEAD AND FALLING HEAD METHODS

The modified pervious concrete and cement mortar, known as pervious cement mortar (PCM), is designed with a specific composition to create pores. The coarse aggregate is removed to form smaller pore sizes. PCM acts as a water filter, needing higher permeability than cement mortar but less than pervious concrete. Its pores drain water while trapping impurities. This study compares the effects of sand-to-cement ratio (S/C), specimen thickness, and age on permeability and porosity. It also contrasts PCM's permeability coefficient determined by constant head and falling head methods. Numerous studies compare permeability coefficients in pervious concrete using these methods, but not for finer aggregate cement-based composite materials like pervious cement mortar. PCM uses fine aggregate (0.6 – 0.85 mm) at 3, 5, and 10 cm thickness with S/C ratios of 4 and 5. Findings show that S/C 5 specimens have significantly higher porosity than S/C 4. The S/C ratios notably impact permeability; the higher ratio means the higher permeability. Permeability coefficients for S/C 4 ranging from 0.006 – 0.075 cm/s, while S/C 5 ranging from 0.010 to 0.147 cm/s. The relationship between the permeability coefficient between the constant head and falling head methods at the age of 90 days specimen are Kc = 1.0516 Kf (S/C 4.2) and Kc = 0.9325 Kf (S/C 5.2). According to these findings, finer aggregates result in a significantly smaller permeability, to the extent that the constant head method is more reliable compared to the falling head method.

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来源期刊

Journal of Applied Engineering Science Engineering-Engineering (all)

CiteScore

2.00

自引率

0.00%

发文量

122

审稿时长

12 weeks

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