Environmental and geotechnical properties of lightweight aggregates made of reused solid wastes

IF 2.2 4区 工程技术 Q3 ENGINEERING, GEOLOGICAL
D. Porcino, G. Tomasello, F. Mauriello, A. Malara
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引用次数: 0

Abstract

In the present research, a comprehensive experimental investigation was carried out for the geotechnical characterisation of new synthetic lightweight aggregates (SLAs) composed of reused biomass fly ash and waste plastics (i.e. high-density and low-density polyethylene, i.e. HDPE and LDPE). Aggregate fly ash-to-plastic ratio, by weight, was 50:50. Both aggregates were characterised by low specific gravity values, i.e. 0.98. The physical, chemical and mechanical properties (i.e. one-dimensional compressibility, creep properties, compaction features and stress-strain-strength behavior) of lightweight aggregates were evaluated together with hydraulic conductivity and water absorbability. Based on one-dimensional compression test results, lightweight aggregates made of fly ash and HDPE resulted to be less compressible upon loading compared to the companion material made of fly ash and LDPE and exhibited an overall response similar to that of traditional aggregates of expanded clay. Moreover, the analysis of the time-dependent compressive behavior of the two synthetic lightweight aggregates showed that the creep rate depends on applied stress in the range of 50 kPa to 400 kPa with values of creep coefficients C αε slightly higher than those of compacted sand, but comparable, or even lower, than those of other recycled materials. Shear strength parameters, including peak friction angle (ϕ′) and cohesion intercept (c′), determined by isotropically consolidated drained triaxial compression tests, were very satisfactory for both aggregates. The ϕ′ is within the range of 42.3 to 46.3°, and c′ is in the range of 1.3 to 8.6 kPa, with the highest values concerning the fly ash-HDPE aggregate. Constant head permeability tests provided values of the hydraulic conductivity (k)in the range 3÷4·10−4 m/s evidencing favourable permeability properties of both investigated synthetic aggregates. Leaching tests and thermal stability analyses proved the sustainability of both aggregates from an environmental point of view. Finally, the results obtained in the present study demonstrate the suitability of the investigated lightweight synthetic aggregates for valuable use in many geotechnical applications.
由重复使用的固体废物制成的轻质集料的环境和岩土特性
在本研究中,对由重复使用的生物质粉煤灰和废塑料(即高密度和低密度聚乙烯,即HDPE和LDPE)组成的新型合成轻质骨料(SLA)的岩土工程特性进行了全面的实验研究。骨料粉煤灰与塑料的重量比为50:50。两种聚集体的特征都是比重值较低,即0.98。对轻质集料的物理、化学和机械性能(即一维压缩性、蠕变性能、压实特性和应力应变强度行为)以及导水性和吸水性进行了评估。根据一维压缩试验结果,与由粉煤灰和LDPE制成的配套材料相比,由粉煤灰或HDPE制成的轻质集料在加载时的可压缩性较低,并且表现出与传统膨胀粘土集料相似的总体响应。此外,对两种合成轻质集料随时间变化的压缩行为的分析表明,蠕变速率取决于50范围内的外加应力 kPa至400 kPa,蠕变系数Cαε值略高于压实砂,但与其他再生材料相当,甚至更低。通过各向同性固结排水三轴压缩试验确定的剪切强度参数,包括峰值摩擦角(ξ′)和内聚截距(c′),对两种骨料都非常满意。ξ′在42.3到46.3°的范围内,c′在1.3到8.6的范围内 kPa,其中最高值与粉煤灰HDPE骨料有关。恒定水头渗透率测试提供的水力传导率(k)值范围为3÷4·10−4 m/s,证明两种所研究的合成骨料具有良好的渗透性能。浸出试验和热稳定性分析从环境角度证明了这两种骨料的可持续性。最后,本研究中获得的结果证明了所研究的轻质合成骨料在许多岩土工程应用中的适用性。
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来源期刊
Environmental geotechnics
Environmental geotechnics Environmental Science-Water Science and Technology
CiteScore
6.20
自引率
18.20%
发文量
53
期刊介绍: In 21st century living, engineers and researchers need to deal with growing problems related to climate change, oil and water storage, handling, storage and disposal of toxic and hazardous wastes, remediation of contaminated sites, sustainable development and energy derived from the ground. Environmental Geotechnics aims to disseminate knowledge and provides a fresh perspective regarding the basic concepts, theory, techniques and field applicability of innovative testing and analysis methodologies and engineering practices in geoenvironmental engineering. The journal''s Editor in Chief is a Member of the Committee on Publication Ethics. All relevant papers are carefully considered, vetted by a distinguished team of international experts and rapidly published. Full research papers, short communications and comprehensive review articles are published under the following broad subject categories: geochemistry and geohydrology, soil and rock physics, biological processes in soil, soil-atmosphere interaction, electrical, electromagnetic and thermal characteristics of porous media, waste management, utilization of wastes, multiphase science, landslide wasting, soil and water conservation, sensor development and applications, the impact of climatic changes on geoenvironmental, geothermal/ground-source energy, carbon sequestration, oil and gas extraction techniques, uncertainty, reliability and risk, monitoring and forensic geotechnics.
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