共查询到18条相似文献,搜索用时 125 毫秒
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废弃玻璃粗细骨料混凝土的性能和强度对比研究 总被引:2,自引:0,他引:2
采用相同配合比,相同材料,相同环境和施工情况,配制废弃玻璃粗骨料和细骨料混凝土,对比分析废弃玻璃粗细骨料的混凝土的施工性能和强度,从而研究分析废弃玻璃是作为粗骨料使用好,还是作为细骨料使用好,为废弃玻璃大量应用混凝土中提供理论依据。试验表明:废弃玻璃作为骨料替代混凝土天然骨料使用时,细骨料要好于粗骨料,且取代率在15%之内与天然骨料相差不多。 相似文献
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对废弃泡沫玻璃进行破碎、筛分等处理,作为一种轻骨料掺入混凝土,可制备热工性能更好的轻集料混凝土空心砌块.用正交试验,分析不同掺量的粗、细废弃泡沫玻璃填料、砂率、水灰比对混凝土砌块强度的影响.结果表明,掺加废弃泡沫玻璃后混凝土空心砌块强度仍可达到MU5.0~MU7.5,影响强度的各因素主次顺序分别为粗泡沫玻璃填料取代率>水灰比>砂率>细泡沫玻璃填料取代率. 相似文献
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Yasser SHARIFI Mahmoud HOUSHIAR Behnam AGHEBATI 《Frontiers of Structural and Civil Engineering》2013,7(4):419
With increasing environmental pressure to reduce solid waste and to recycle as much as possible, the concrete industry has adopted a number of methods to achieve this goal by replacement of waste glass with concrete composition materials. Due to differences in mixture design, placement and consolidation techniques, the strength and durability of Self Compacting Concrete (SCC) may be different than those of conventional concrete. Therefore, replacement of waste glass with fine aggregate in SCC should deeply be investigated compared to conventional concretes. The aim of the present study is to investigate the effect of glass replacement with fine aggregate on the SCC properties. In present study, fine aggregate has been replaced with waste glass in six different weight ratios ranging from 0% to 50%. Fresh results indicate that the flow-ability characteristics have been increased as the waste glass incorporated to paste volume. Nevertheless, compressive, flexural and splitting strengths of concrete containing waste glass have been shown to decrease when the content of waste glass is increased. The strength reduction of concrete in different glass replacement ratios is not remarkable, thus it can be produced SCC with waste glass as fine aggregate in a standard manner. 相似文献
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The effect of replacement of fine and coarse aggregates with recycled glass on the fresh and hardened properties of Portland cement concrete at ambient and elevated temperatures is studied. Percentages of replacement of 0–100% of aggregates with fine waste glass (FWG), coarse waste glass (CWG), and fine and coarse waste glass (FCWG) were considered. Soda-lime glass used for bottles was washed and crushed to fine and coarse aggregate sizes for use in the concrete mixes. Samples were cured under 95% RH at room temperatures (20–22 °C), heated in the oven to the desired temperatures, allowed to cool to ambient temperatures, and then tested for their residual compressive strength. The compressive strength of the concrete samples made with waste glass was measured at temperatures up to 700 °C. Moreover, the effect of the percentages of replacement with recycled glass on the slump values and initial and final setting time of concrete has also been measured. 相似文献
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ASR膨胀是限制废弃玻璃作为细骨料运用到混凝土中的主要因素之一,玻璃粉具有潜在的火山灰活性,当一定细度的玻璃粉替代部分水泥可以有效的抑制ASR同时还可以增强混凝土后期强度;在玻璃细骨料混凝土(细骨料替代率分别为10%、20%、30%)中采用玻璃粉取代20%作为辅助胶凝材料,通过混凝土抗压试验和砂浆棒试验,研究玻璃粉对玻璃细骨料混凝土力学性能及ASR影响;研究表明,玻璃粉掺入可以提升玻璃细骨料混凝土后期强度,特别是90 d后玻璃粉混凝土抗压强度超越普通混凝土;同时,玻璃粉可以有效抑制玻璃细骨料混凝土ASR,掺入20%玻璃粉的玻璃细骨料混凝土14 d砂浆棒膨胀率均小于规范限定值0.1%,而未掺入玻璃粉的试件恰恰相反。所以,玻璃粉可以有效的改良玻璃细骨料混凝土的后期强度和ASR膨胀不足。 相似文献
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废弃混凝土作再生细骨料研究 总被引:1,自引:0,他引:1
利用废弃的混凝土破碎制成混凝土用细骨料是解决废弃混凝土的一种较好的方法。通过对比研究利用废弃混凝土制作的混凝土再生细骨料与其它细骨料性能,及测试两种细骨料配制混凝土的拌合物和易性、立方体抗压强度、轴心抗压强度和弹性模量,得出以下结论:混凝土再生细骨料与其它细骨料性能相近,可以替代其它混凝土细骨料配制混凝土,提高资源利用率,减少环境污染。 相似文献
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《Construction and Building Materials》2007,21(1):164-175
The use of recycled aggregates for preparing concrete products has been successfully implemented and gaining wider acceptance. However, the allowable level of contaminating materials (e.g., crushed clay bricks, crushed ceramic tiles, waste glass cullet, wood chips, etc.) in the recycled concrete aggregate, in the some of the current specifications, is low (<1%) due to stringent quality control standards that are usually taken from specifications for raw granular virgin materials. This paper presents a recent study on the properties of concrete paving blocks prepared with recycled concrete aggregates that are contaminated by materials (tiles, clay bricks, glass, wood) commonly found in the construction and demolition waste. The density, compressive strength, tensile splitting strength, water absorption value, abrasion resistance, skid resistance and some durability parameters were measured for laboratory prepared samples. The results show that it is feasible to allow a higher level of contamination in the recycled concrete aggregates for making the concrete products. Recommendations are made on how the specifications could be revised to facilitate a wider application of recycled aggregates that is contaminated by foreign materials. 相似文献