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.
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.
高结晶温度的保护渣具有较强的脱玻化能力,且脱玻化温度较低;
The powder for higher crystallization temperature has stronger crystallization capability in annealing and lower devitrified temperature;
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;
在对铜、铁冶炼液态渣进行玻化试验、研制玻璃饰面材料的基础上,对其玻化的工艺进行了研究。
The vitrification process is studied on the basis of vitrification tests of copper and iron slages as well as development of glass decorative material.
材料与方法:材料:选取三种(玻化地砖、水磨石及木地板)质地地面作为载体,建立室内现场环境。
Meterial and method: Material: Select the three (glass flooring, terrazzo and wood floors) texture of the ground as a carrier to establish the indoor environment of the scene.
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.
本文利用随动表象下处理反常问题的路径积分方法,给出(1+1)维空间费米场玻色化的统一推导方案。
Using the path integral method for handling the anomaly problem under the comoving representation, we present a unified scheme for deriving the bononization of fermion fields in (1+1) dimensions.
北玻引领行业走近玻璃钢化的完美境界——纯平无斑平钢化终极产品!
Northglass guides the industry to the perfect realm of glass tempering, the ultimate product of super flat tempered glass without any stains.
灰色装饰图案在淡色玻璃上用可''。'玻'。''''。'化'。''颜料绘成并经烧结后形成的花边图案。
A lacy pattern painted on light glass with vitrifiable paint and fired.
本设计实现了玻屏表面外形和曲率变化及玻壳结构设计的全参数化,提高了玻壳的设计效率。本文还给出了计算玻壳外型的公式和一些技术参数。
Since the design of the glass shell geometry, such as its structure, its surface shape and the variations in curvature, can well be parameterized, the design efficiency has been considerably improved.
介绍一种实用的工艺,在平板显示器件的批量生产中,采用石英晶体切片机来机械化切割器件所需的框架玻条,是一种行之有效的好方法。
A new sort of production technology is recommended in this paper. Glass strip for flat display devices frame constitution can be well fabricated with multi-knife machine tool.
对尼龙6添加阻燃剂,可实现玻纤增强尼龙6复合材料的阻燃化。
By adding flame retardant into nylon 6, can reinforce insulation of composite materials in which glass fiber adds.
90年代,陈金全等人在点群的表示理论上提出了一种新的方法,对称化玻色表象方法(SBR)。
In 1990s based on the eigenfunction method of representation theory of groups, a new method, the symmetrized boson representation (SBR) method, was brought forward.
为实现玻壳缺陷检测的自动化,本文对基于机器视觉的玻壳缺陷多级自动检测方法进行了研究。
In the thesis, multiple-grade detecting method by machine vision is studied in order to inspect the defect of glass-bulb automatically.
基于普鲁士蓝修饰玻碳电极结合二氧化硅溶胶凝胶固定化酶技术构造具有“三明治”式结构的酶电极。
A highly sensitive glucose biosensor was prepared based on the Prussian Blue modified electrode combined with SiO 2 Sol-Gel immobilization method in a "sandwich configuration".
基于普鲁士蓝修饰玻碳电极结合二氧化硅溶胶凝胶固定化酶技术构造具有“三明治”式结构的酶电极。
A highly sensitive glucose biosensor was prepared based on the Prussian Blue modified electrode combined with SiO 2 Sol-Gel immobilization method in a "sandwich configuration".
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