1) architecture keramics
建筑陶粒
1.
Directed at improving the efficiency of treating waste water in Biological Aerated Filter(BAF), the paper introduces the study of the effect of air flow rate, Hydration Retention Time (HRT), and organic loading of input water on the removal rate of Chemical Oxygen Demand (COD) and NH3-N using activated carbon, zeolite, architecture keramics and engineering keramics as stuffings.
为提高曝气生物滤池(BAF)处理废水的效率,以沸石、活性炭、建筑陶粒、工程陶粒作为填料测试气体流速、水力停留时间(HRT)、进水有机负荷对生物滤池的化学需氧量(COD)、NH3—N的去除效果及出水浊度的影响。
2) Construction ceramics
建筑陶瓷
1.
In this paper,the property of the construction ceramics such as good looking and durableness,especially the new ones are introduced.
本文分析了建筑陶瓷固有的美观、耐用等特点,特别是新一代建筑陶瓷所衍生出来的新特点,以及这些特点在发展中所遇到的困难及解决办法。
2.
Feasibility on gold ore tailings used instead of feldspar in construction ceramicswas studied by analyzing chemical composition,particle size,mineral composition of gold ore tailingsand comparing with feldspar.
在分析金尾矿的化学组成、粒度组成和矿物组成的基础上,将其与常用的国内外长石类原料进行了对比,讨论分析了金尾矿代替长石作建筑陶瓷原料的可行性,并对取代长石时尾矿的加工处理工艺进行了初步探讨。
3.
In this paper,the characters of construction ceramics in China were described briefly,the regional distribution,present status of industry,framework of products and problems were introduced,and the research status and tendency of construction ceramics were analyzed.
简述了我国建筑陶瓷的特点,介绍了建陶产业区域分布、生产现状、产品结构及其目前存在问题,分析了建陶产品的研究现状及趋势;并提出绿色环保、节能减排是实现我国建陶行业的可持续发展的必由之路。
3) building ceramics
建筑陶瓷
1.
Application of the building ceramics on environment space
建筑陶瓷在环境空间中的应用
2.
By research and development the building ceramics,the green R&D concept is given in this paper.
本文通过对建筑陶瓷的研发方法及产业进行分析,提出了建筑陶瓷绿色化研发的概念和研究方法,同时对绿色建筑陶瓷产品产业的现状及前景加以概述。
3.
The printing paste were prepared using Na-CMC,glycrin,glycol,purified water as main materials for building ceramics producing.
利用羧甲基纤维素钠(Na-CMC)、甘油、乙二醇和纯净水等为主要原料制备建筑陶瓷生产装饰用印膏,实验研究了工艺因素对印膏粘度和印刷性能的影响,优化出适合生产使用的印膏配方。
4) Building Ceramic
建筑陶瓷
1.
Application of Sodium Polyacrylate in the Building Ceramics;
聚丙烯酸钠在建筑陶瓷中的应用
2.
Moreover, the applications of these clay materials in building ceramics were also discussed.
结果表明:前二者可作为结合粘土用于建筑陶瓷。
3.
Seven stages of the building ceramic such as raw materials mining, raw materials preparation, moulding processing, glazing, firing production, use or disposal of products and the transportation were analyzed by means of LCA.
应用生命周期评价(LCA)方法,以一种建筑陶瓷—釉面砖为研究对象,对建筑陶瓷原材料开采、原料制备、成型加工、施釉、烧成生产、产品使用或废弃及运输等7个子过程进行了清单分析,并分别计算出能耗及对环境的影响。
5) architectural ceramics
建筑陶瓷
1.
The directions and the techniques completed in the single sintering process for producing antibacterial architectural ceramics by using new inorganic antibacterial materials prepared by oursevlves are introduced.
在陶瓷釉中引入自制新型无机抗菌材料 ,研究出了制备抗菌建筑陶瓷的配方和一次烧成工艺 ,并完成了工业性中间试验 。
2.
In order to protect the limited arable land resources,accomplish the goal to saving energy,reducing emission and protecting environment,via analysing and researching the local " white clay" and vitrifide bond to replace the majority of clay,discuss and analysis the feasibility of using the local " white clay" to replace the clay in the architectural ceramics.
为了保护有限的耕地资源,实现节能减排、保护环境的目标,通过对本地陶瓷原料及建筑陶瓷配方的分析研究,利用本地"白土"、粘结剂替代配方中大部分粘土,探讨分析在建筑陶瓷生产中用"白土"替代粘土的可行性。
6) construction ceramic
建筑陶瓷
1.
1 for 15 years in the world, but what is the high-point? This paper analysed product of construction ceramic of past 20 years by Malthusian model and Logistic model.
我国建筑陶瓷产量已连续15年保持世界第一,但其成长的极限在哪里?本文用Malthusian模型和logistic模型对我国过去20年的建陶生产情况进行了分析,然后根据生态学相关理论,对我国建陶的未来发展趋势进行了分析和判断,最后绘制了我国建陶未来发展趋势曲线,并对其中可能出现的情况进行了分析。
补充资料:陶粒混凝土
分子式:
CAS号:
性质:又称为轻骨料混凝土(1ightaggregate concrete)。它是由胶凝材料和轻骨料配制而成的,容重不大于1900kg/m3。可分为全轻混凝土(用轻砂)与砂轻混凝土(用普通砂)。按用途可分为保温用的:密度为800kg/m3以下;结构保温用的:密度为800~1400kg/m3;结构用的:密度为1400kg/m3以上。轻骨料混凝土的耐热、防火性能较普通混凝土的好,但弹性模量则较低。以陶粒为粗骨料,以普通砂或陶砂为细骨料的轻骨料混凝土称为陶粒混凝土。结构用陶粒混凝土的强度可大于40MPa,保温及耐热性能较好。可用于房屋建筑、桥梁、船及窑炉基础等。
CAS号:
性质:又称为轻骨料混凝土(1ightaggregate concrete)。它是由胶凝材料和轻骨料配制而成的,容重不大于1900kg/m3。可分为全轻混凝土(用轻砂)与砂轻混凝土(用普通砂)。按用途可分为保温用的:密度为800kg/m3以下;结构保温用的:密度为800~1400kg/m3;结构用的:密度为1400kg/m3以上。轻骨料混凝土的耐热、防火性能较普通混凝土的好,但弹性模量则较低。以陶粒为粗骨料,以普通砂或陶砂为细骨料的轻骨料混凝土称为陶粒混凝土。结构用陶粒混凝土的强度可大于40MPa,保温及耐热性能较好。可用于房屋建筑、桥梁、船及窑炉基础等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条