1) calcined attapulgite
煅烧凹土
1.
Study on effects of calcined attapulgite on properties of waterproofing mortar
煅烧凹土对防水砂浆性能影响的研究
2) calcined kaolin
煅烧高岭土
1.
Study on preparation and performance of calcined kaolin/PAA-AM super absorbent composite;
煅烧高岭土/PAA-AM高吸水保水复合材料的合成与性能研究
2.
Surface modification of Yichang coal-serial calcined kaolin and it's application in cable rubber;
宜昌煤系煅烧高岭土表面改性及其在电缆胶料中的应用
3.
To improve ink absorption of coated paperboard by using calcined kaolin;
使用煅烧高岭土提高涂布白纸板的油墨吸收性能
3) calcined Kaolinite
煅烧高岭土
1.
Three kinds of NBR water-roller vulcanizates were developed by filling with lignocellulose,treated velveteen fibre,calcined Kaolinite and silica,and the mechanical property and the water resistance were tested.
分别用木质纤维素粉、预处理棉绒短纤维和煅烧高岭土与白炭黑并用作为填料,试制了NBR印刷用水辊胶料,并测试了硫化胶物理机械性能和常温下的耐水性能。
2.
Effects of calcining temperature on the physical and chemical properties of calcined kaolinite such as brightness,bulk density,oil absorption,active Al 2O 3,scattering coefficients were investigated with the kaolinite containing coal from Shanxi province of China.
煅烧高岭土是一种性能独特的新型无机非金属矿物粉体材料。
3.
The surface modification technical conditions of calcined kaolinite and diatomite composite fillers as well as the activation mechanism of surface modification agents on the surface of composite fillers are studied.
研究了表面改性剂配方、用量、改性时间等对煅烧高岭土 /硅藻土复合填料表面改性效果的影响以及表面改性剂与煅烧高岭土 /硅藻土复合填料表面的作用机理。
4) Calcined kaoline
煅烧高岭土
1.
Study on quality control of calcined kaoline for reinforcing filler in butyl rubber closure;
医用橡胶瓶塞补强填料—煅烧高岭土的质量控制
2.
Preparation and characterization of series nanosized zeolite from calcined kaoline;
煅烧高岭土制备系列纳米分子筛及表征
3.
Preparation and characterization of series nanosized material from calcined kaoline;
煅烧高岭土制备系列纳米材料及表征
5) clay burner,clay burning unit
粘土煅烧窑
6) calcined clay
煅烧的粘土
补充资料:煅烧
分子式:
CAS号:
性质:在一定温度下,于空气或惰性气流中进行热处理,称为煅烧或焙烧。煅烧过程主要发生的物理和化学变化有:(1)热分解。除去化学结合水,CO2,NOx等挥发性杂质,在较高温度下,氧化物还可能发生固相反应,形成有活性的化合状态;(2)再结晶,可得到一定的晶形、晶体大小、孔结构和比表面;(3)微晶适当烧结,以提高机械强度。
CAS号:
性质:在一定温度下,于空气或惰性气流中进行热处理,称为煅烧或焙烧。煅烧过程主要发生的物理和化学变化有:(1)热分解。除去化学结合水,CO2,NOx等挥发性杂质,在较高温度下,氧化物还可能发生固相反应,形成有活性的化合状态;(2)再结晶,可得到一定的晶形、晶体大小、孔结构和比表面;(3)微晶适当烧结,以提高机械强度。
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