The new wet blanket product is a combination of high-purity amorphous silica fibers and an inorganic silica binder.
这种新型的湿层产品是由高纯度的无定形二氧化硅纤维和无机二氧化硅粘结剂结合而成的。
In this paper, experimental observation and theoretical analysis of self-focusing of picosecond laser pulses in large-core silica fibers are reported.
本文报道了对大芯径石英光纤中皮秒脉冲激光自聚焦现象的实验研究和理论分析。
Types ASPA-1 and ASPA-2 alumina-silica fiber paper are premium grade lightweight refractory material made from high-purity alumina-silica fibers formed into highly flexible sheets.
ASPA - 1型和aspa - 2型的氧化铝—氧化硅纤维纸是优质的轻质耐火材料,它们由高纯度的氧化铝—氧化硅纤维制造成高弹性的薄片状的。
The physical processes of laser pulse propagation in fused-silica fibers are discussed, focuses on the linear and nonlinear properties of optical fiber that alter the intensity of laser pulses.
讨论了激光脉冲在熔石英光纤中传输的物理过程,给出了能够改变激光脉冲强度的线性和非线性因素。
Silicosis is a disabling respiratory disease caused by inhaling silica dust, which is used in the production of glass products, optical fibers, cement, and more.
矽肺病是一种因长期吸入二氧化硅粉尘而导致的呼吸系统衰竭的疾病,二氧化硅可用于生产玻璃制品,光纤,水泥等物品。
One can obtain high birefringence due toa sharp index contrast between air and silica in photonic crystal fibers.
在光子晶体光纤中,人们利用空气和氧化硅之间的高折射率对比,可以得到很强的双折射。
With increasing of silica content, fibers diameter became fine and spindly beads increased.
随着二氧化硅含量的增加,直径变细,纺锤形珠节结构增加。
Microstructured fibers made of silica undergo high loss in transmission due to the intrinsic material absorption in mid-infrared region.
由于强的红外吸收,石英玻璃材料拉制成的光纤或微结构光纤在中红外波段的传输损耗很大。
Non-silica glass materials are good candidates for fabricating microstructured fibers used for mid-IR supercontinuum generation because of their high transmittance in the region.
为产生中红外波段的超连续谱,须使用在该波段具有高透过率的非石英材料来拉制光纤或微结构光纤。
Non-silica glass materials are good candidates for fabricating microstructured fibers used for mid-IR supercontinuum generation because of their high transmittance in the region.
为产生中红外波段的超连续谱,须使用在该波段具有高透过率的非石英材料来拉制光纤或微结构光纤。
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