Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention relates to the technical field of materials, in particular to an impermeable material and a preparation method thereof. The impermeable material comprises 142-148 parts of electrolytic manganese residues, 34-38 parts of a solvent, 34-38 parts of a dispersing agent, 0.5-1 part of a cross-linking agent, 5-8 parts of a waterproof agent and 22-26 parts of an initiator; the component ratio of the electrolytic manganese residues to the solvent is 4: 1; the grain size of the impermeable material is 1-3.5 [mu] m, the ratio of grains with the size of 1-2 [mu] m is 50-60%, and the ratio of grains with the size of 2-3.5 [mu] m is 40-50%. The method comprises the following steps: blending electrolytic manganese residues, a solvent, a dispersing agent, a cross-linking agent and an accelerant to obtain a first solution; adding a waterproof agent, an initiator and a coupling agent into the first solution, blending, and curing to obtain the anti-seepage material. By means of the component arrangement and the preparation method, the obtained anti-seepage material has good strength, corrosion resistance, anti-seepage performance and the like.
本发明涉及材料技术领域,具体而言,涉及一种防渗材料及其制备方法。防渗材料包括电解锰渣142~148份,溶剂34~38份,分散剂34~38份,交联剂0.5~1份,防水剂5~8份和引发剂22~26份;电解锰渣和溶剂的组份比例为4:1;防渗材料的晶粒尺寸为1~3.5μm,其中,尺寸为1~2μm的晶粒占比为50~60%,尺寸为2~3.5μm的晶粒占比为40~50%。通过电解锰渣、溶剂、分散剂、交联剂和促进剂共混,获得第一溶液;于第一溶液中添加防水剂、引发剂和偶联剂共混,并养护,获得防渗材料。通过本发明的组份设置和制备方法,得到的防渗材料具有较好的强度、耐腐蚀和防渗等性能。
The invention relates to the technical field of materials, in particular to an impermeable material and a preparation method thereof. The impermeable material comprises 142-148 parts of electrolytic manganese residues, 34-38 parts of a solvent, 34-38 parts of a dispersing agent, 0.5-1 part of a cross-linking agent, 5-8 parts of a waterproof agent and 22-26 parts of an initiator; the component ratio of the electrolytic manganese residues to the solvent is 4: 1; the grain size of the impermeable material is 1-3.5 [mu] m, the ratio of grains with the size of 1-2 [mu] m is 50-60%, and the ratio of grains with the size of 2-3.5 [mu] m is 40-50%. The method comprises the following steps: blending electrolytic manganese residues, a solvent, a dispersing agent, a cross-linking agent and an accelerant to obtain a first solution; adding a waterproof agent, an initiator and a coupling agent into the first solution, blending, and curing to obtain the anti-seepage material. By means of the component arrangement and the preparation method, the obtained anti-seepage material has good strength, corrosion resistance, anti-seepage performance and the like.
本发明涉及材料技术领域,具体而言,涉及一种防渗材料及其制备方法。防渗材料包括电解锰渣142~148份,溶剂34~38份,分散剂34~38份,交联剂0.5~1份,防水剂5~8份和引发剂22~26份;电解锰渣和溶剂的组份比例为4:1;防渗材料的晶粒尺寸为1~3.5μm,其中,尺寸为1~2μm的晶粒占比为50~60%,尺寸为2~3.5μm的晶粒占比为40~50%。通过电解锰渣、溶剂、分散剂、交联剂和促进剂共混,获得第一溶液;于第一溶液中添加防水剂、引发剂和偶联剂共混,并养护,获得防渗材料。通过本发明的组份设置和制备方法,得到的防渗材料具有较好的强度、耐腐蚀和防渗等性能。
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