本发明公开了改性玻化微珠保温隔热砂浆及其制备方法。
The invention discloses a modified vitrified micro bubbles thermal insulation mortar and a preparation method thereof.
玻化微珠保温混凝土剪力墙结构体系经课题组研究证实为一种良好的自保温结构体系。
It is proved that thermal insulation glazed hollow bead concrete shear wall structure system is a good self-insulation structural system.
最终得出结论:在该工程上应用玻化微珠节能保温系统具有良好的经济效益和环境效益。
Eventually come to the conclusion: in the project on the application of glass beads of energy-saving insulation system has good economic and environmental benefits.
优质的矿石,先进的矿砂加工工艺,为生产优质玻化微珠以及系列产品提供了根本保证。
High-quality ore and advanced ore processing technology guarantee the production of high quality glazed hollow bead and its series.
其组成材料主要为:水泥、粉煤灰、玻化微珠、EPS颗粒、高分子粘结剂、纤维网格布等。
Its main constituents are cement, fly ash, vitrified microsphere, EPS grain, macromolecule binding agent and fiber.
玻化微珠;膨胀珍珠岩;保温砂浆;骨料级配;力学性能;保温性能;工作性;
Vitrified microsphere; expanded perlite; insulating mortar; aggregate gradation; mechanical property; insulation property; workability;
在此背景下,对新型建筑保温节能材料——玻化微珠保温混凝土进行理论分析与试验研究具有重要意义。
In this context, material and structural test and theoretical analysis research is meaningful on new energy-saving building material, glazed hollow bead insulation concrete.
然后,通过试验研究来探索玻化微珠混凝土导热性能、强度及工作度随玻化微珠掺量变化而变化的情况。
Then, it was explored that the concrete heat conduction performance, the intensity and the job degree development with the quantity change of the glazed hollow bead.
在此背景下,对玻化微珠保温混凝土这一新型建筑保温节能材料及其结构进行试验与理论分析研究具有重要意义。
Under this context, material and structural test and theoretical analysis research is meaningful on new energy-saving building material, glazed hollow bead insulation concrete.
玻璃微珠玻化质的表面更抗化学腐蚀,对光有反射作用。
The vitrified surface of glass microspheres can realize the chemical corrosion resistant, and reflex action on light.
玻璃微珠玻化质的表面更抗化学腐蚀,对光有反射作用。
The vitrified surface of glass microspheres can realize the chemical corrosion resistant, and reflex action on light.
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