苏州混凝土水泥制品研究院有限公司

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发布时间:2020-01-06 00:00:00
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泵送混凝土的工作性变化及应对方案研究
Study on the Workability Changes of Pumping Concrete and Its Countermeasures
2020年第10期
混凝土;泵送;工作性;流动性;减水剂
Concrete; Pumping; Workability; Fluidity; Water reducer
2020年第10期
10.19761/j.1000-4637.2020.10.031.06
国家重点研发计划项目(2018YFC1903602)。
刘 洋1,王 倩2,张露瑶2,王晓英1,付海平1,张新民1
1.北京金隅水泥节能科技有限公司 水泥混凝土节能利废技术北京市重点实验室,北京 102403; 2.唐山冀东水泥外加剂有限责任公司,河北 唐山 063000

刘 洋1,王 倩2,张露瑶2,王晓英1,付海平1,张新民1

摘   要:从压力、温度、含气量、气泡聚并等角度研究了泵送条件下混凝土工作性变差的原因,提出了相应的解决方案。研究结果表明:在有效减水剂不足的情况下,泵压力可促使浆体发生稠化;含气量损失不是混凝土经泵稠化的原因;气泡排液和聚并会使混凝土经泵稀化;在缓释型聚羧酸减水剂掺量较高的情况下,经泵温升可促使浆体发生稀化;通过调整减水剂组分和掺量可有效缓解泵送条件下混凝土流动性变差的问题。

Abstract: The relative influence factors of changes in fluidity of concrete induced by pumping were studied. Some countermeasures were provided by concrete admixture adjustment. The results show that the pumping pressure accelerates the fluidity loss of the fresh paste containing insufficient dosage of superplasticizer. Air content loss is not the influential fator of pumping-thicking. Bubble coalescence promotes pumping-thinning. Temperature-rise can bring pumping-thinning in concrete containing sufficient dosage of superplasticizer with slump retention capacity. The adverse effects of pumping-thinning or pumping-thicking can be avoided by adjustment of concrete pumping agent.

刘洋,王倩,张露瑶.泵送混凝土的工作性变化及应对方案研究[J].混凝土与水泥制品,2020(10):31-36.

LIU Y,WANG Q,ZHANG L Y,Study on the Workability Changes of Pumping Concrete and Its Countermeasures[J].CHINA CONCRETE AND CEMENT PRODUCTS,2020(10):31-36.

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摘   要:从压力、温度、含气量、气泡聚并等角度研究了泵送条件下混凝土工作性变差的原因,提出了相应的解决方案。研究结果表明:在有效减水剂不足的情况下,泵压力可促使浆体发生稠化;含气量损失不是混凝土经泵稠化的原因;气泡排液和聚并会使混凝土经泵稀化;在缓释型聚羧酸减水剂掺量较高的情况下,经泵温升可促使浆体发生稀化;通过调整减水剂组分和掺量可有效缓解泵送条件下混凝土流动性变差的问题。 Abstract: The relative influence factors of changes in fluidity of concrete induced by pumping were studied. Some countermeasures were provided by concrete admixture adjustment. The results show that the pumping pressure accelerates the fluidity loss of the fresh paste containing insufficient dosage of superplasticizer. Air content loss is not the influential fator of pumping-thicking. Bubble coalescence promotes pumping-thinning. Temperature-rise can bring pumping-thinning in concrete containing sufficient dosage of superplasticizer with slump retention capacity. The adverse effects of pumping-thinning or pumping-thicking can be avoided by adjustment of concrete pumping agent.
英文名 : Study on the Workability Changes of Pumping Concrete and Its Countermeasures
刊期 : 2020年第10期
关键词 : 混凝土;泵送;工作性;流动性;减水剂
Key words : Concrete; Pumping; Workability; Fluidity; Water reducer
刊期 : 2020年第10期
DOI : 10.19761/j.1000-4637.2020.10.031.06
文章编号 :
基金项目 : 国家重点研发计划项目(2018YFC1903602)。
作者 : 刘 洋1,王 倩2,张露瑶2,王晓英1,付海平1,张新民1
单位 : 1.北京金隅水泥节能科技有限公司 水泥混凝土节能利废技术北京市重点实验室,北京 102403; 2.唐山冀东水泥外加剂有限责任公司,河北 唐山 063000

刘 洋1,王 倩2,张露瑶2,王晓英1,付海平1,张新民1

摘   要:从压力、温度、含气量、气泡聚并等角度研究了泵送条件下混凝土工作性变差的原因,提出了相应的解决方案。研究结果表明:在有效减水剂不足的情况下,泵压力可促使浆体发生稠化;含气量损失不是混凝土经泵稠化的原因;气泡排液和聚并会使混凝土经泵稀化;在缓释型聚羧酸减水剂掺量较高的情况下,经泵温升可促使浆体发生稀化;通过调整减水剂组分和掺量可有效缓解泵送条件下混凝土流动性变差的问题。

Abstract: The relative influence factors of changes in fluidity of concrete induced by pumping were studied. Some countermeasures were provided by concrete admixture adjustment. The results show that the pumping pressure accelerates the fluidity loss of the fresh paste containing insufficient dosage of superplasticizer. Air content loss is not the influential fator of pumping-thicking. Bubble coalescence promotes pumping-thinning. Temperature-rise can bring pumping-thinning in concrete containing sufficient dosage of superplasticizer with slump retention capacity. The adverse effects of pumping-thinning or pumping-thicking can be avoided by adjustment of concrete pumping agent.

刘洋,王倩,张露瑶.泵送混凝土的工作性变化及应对方案研究[J].混凝土与水泥制品,2020(10):31-36.

LIU Y,WANG Q,ZHANG L Y,Study on the Workability Changes of Pumping Concrete and Its Countermeasures[J].CHINA CONCRETE AND CEMENT PRODUCTS,2020(10):31-36.

摘要
参数
结论
参考文献
引用本文

摘   要:从压力、温度、含气量、气泡聚并等角度研究了泵送条件下混凝土工作性变差的原因,提出了相应的解决方案。研究结果表明:在有效减水剂不足的情况下,泵压力可促使浆体发生稠化;含气量损失不是混凝土经泵稠化的原因;气泡排液和聚并会使混凝土经泵稀化;在缓释型聚羧酸减水剂掺量较高的情况下,经泵温升可促使浆体发生稀化;通过调整减水剂组分和掺量可有效缓解泵送条件下混凝土流动性变差的问题。

Abstract: The relative influence factors of changes in fluidity of concrete induced by pumping were studied. Some countermeasures were provided by concrete admixture adjustment. The results show that the pumping pressure accelerates the fluidity loss of the fresh paste containing insufficient dosage of superplasticizer. Air content loss is not the influential fator of pumping-thicking. Bubble coalescence promotes pumping-thinning. Temperature-rise can bring pumping-thinning in concrete containing sufficient dosage of superplasticizer with slump retention capacity. The adverse effects of pumping-thinning or pumping-thicking can be avoided by adjustment of concrete pumping agent.

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(1)在有效减水剂不足情况下,经泵压力可促使浆体发生稠化,具体影响机理有待进一步研究。
(2)含气量的损失不是混凝土经泵稠化现象产生的原因;气泡排液和聚并在理论上促进了混凝土的经泵稀化。
(3)在缓释型聚羧酸减水剂掺量较高的情况下,经泵温升可促使浆体发生稀化。
(4)通过调整减水剂组分和掺量可以有效控制经泵混凝土流动度大幅变化。

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刘洋,王倩,张露瑶.泵送混凝土的工作性变化及应对方案研究[J].混凝土与水泥制品,2020(10):31-36.

LIU Y,WANG Q,ZHANG L Y,Study on the Workability Changes of Pumping Concrete and Its Countermeasures[J].CHINA CONCRETE AND CEMENT PRODUCTS,2020(10):31-36.

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