1) infrared ceramics
红外发射陶瓷
1.
The infrared ceramics with Al 2O 3SiO 2 as the main constituent was prepared and the influence of composition and microstructure on the infrared emissivity in the wavelength region from 8μm to 12μm was investigated,when several kinds of additive such as GeO 2,Fe 2O 3 and MnO 2 were added.
研究了以Al2O3SiO2为基本组成的红外发射陶瓷。
2) infrared radiation ceramics
红外辐射陶瓷
1.
This paper has discussed the method of manufacturing cordierite infrared radiation ceramics.
介绍了堇青石红外辐射陶瓷材料的研制方法,指出堇青石陶瓷和铁氧陶瓷的复合是研制高效红外辐射陶瓷材料 的有效途径,并对堇青石红外辐射陶瓷的应用进行了全面综述。
3) far-infrared radiation ceramic
远红外辐射陶瓷
1.
Clininical study of far-infrared radiation ceramic applied in pulp capping;
远红外辐射陶瓷盖髓术的临床应用研究
4) infrared radiation ceramics
红外线辐射陶瓷
5) infrared ceramic
红外陶瓷
1.
Introduced characteristic of cordierite base infrared ceramics, and then summarized the research actuality of two kind of cordierite base infrared ceramics include multiphase complex system and impured solid solution.
介绍了堇青石基红外陶瓷的特性,总结了堇青石基红外陶瓷的多相复合体系和掺杂固溶体两种类型研究现状,并对堇青石基红外陶瓷的低成本化发展方向进行了着重阐述。
6) far-infrared ceramic
远红外陶瓷
1.
Measurement of thermal expansion coefficient of far-infrared ceramic coated semiconductor membrane;
带有半导体电热膜的远红外陶瓷热胀系数测定
2.
The new way of treatment for environment pollution by application of far-infrared ceramic material and tourmaline coating is suggested.
探讨远红外陶瓷材料用于燃油节能、降低大气污染的机理,提出了远红外陶瓷材料及电气石制成各种涂料的特性及应用,这是治理大气环境污染的新途径。
补充资料:碲化镉透红外陶瓷
分子式:
CAS号:
性质: 碲化镉为主晶相的多晶材料。密度5.85g/cm3。克氏硬度40kg/mm2。不溶于水。折射率(n)很高,在波长5μm处达2.7。热膨胀系数5.9×10-6/℃。透射波段为2~30μm。在整个透射波段没有吸收带。反射损失较大。以碲化镉为原料,加入适量添加物配料,经成型、热压烧结而成。在8~30μm波段内的产品可用于制造红外系统部件。
CAS号:
性质: 碲化镉为主晶相的多晶材料。密度5.85g/cm3。克氏硬度40kg/mm2。不溶于水。折射率(n)很高,在波长5μm处达2.7。热膨胀系数5.9×10-6/℃。透射波段为2~30μm。在整个透射波段没有吸收带。反射损失较大。以碲化镉为原料,加入适量添加物配料,经成型、热压烧结而成。在8~30μm波段内的产品可用于制造红外系统部件。
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