1) integrated carbon felt
整体炭毡
1.
The growth rates of density and properties of integrated carbon felt C/C and needled non woven cloth C/C were compared.
比较整体炭毡、针刺无纬布预制体材料的增密速率及性能,结果表明密度不同的整体炭毡、针刺无纬布预制体经过3个周期CVD致密,坯体密度开始趋于一致;预制体对材料密度、开孔率、肖氏硬度影响不大,针刺无纬布较整体炭毡轴向纤维含量高,材料轴向强度明显高,且该结构易于获得粗糙层结构CVD炭,材料弯曲断口呈现出明显的假塑性断裂特征。
2) large-size integral felt C/C composites
大型整体毡炭/炭复合材料
3) integer felt
整体毡
1.
Effect of carbon fiber volume fraction within a integer felt on CVD process;
整体毡纤维体积分数对CVD增密的影响
2.
In this work three groups of integer felts with different fiber volume content were densified with CVD pyrolytic carbon,and,based on a model of gas transport within a integer felt during the CVD process,the effect of carbon fiber volume content on the densification course of CVD (chemical vapor deposition) was investigated.
将三组不同纤维体积含量的整体毡采用等温CVD进行沉积热解炭增密,结合CVD沉积过程中整体毡内气体传质数学模型,研究了整体毡的纤维体积含量对CVD增密过程的影响。
4) carbon fiber felt
炭毡
1.
EMS properties of metal-coated carbon fiber felt/resin composites;
镀金属炭毡/树脂复合材料的电磁屏蔽性能
5) integral felt reinforcement
整体毡增强体
6) activated carbon felt
活性炭毡
1.
Modified process of activated carbon felt and its influence on removing effect of formaldehyde;
活性炭毡改性工艺及其对净化甲醛效果的影响
2.
The PAN-based preoxidated felt as raw materials was carbonized in N2 atmosphere, then was activated by vapor of H2O to abtain the precursor (activated carbon felt) of CMS.
以PAN系预氧毡为原料,在惰性气体N2中炭化后,用水蒸气活化制取分子筛炭织物的前驱体活性炭毡。
3.
The typical redox mediator anthraquinonedisulphonate(AQDS) is used as doping anion,pyrrole(PPy)as carrier,and activated carbon felt(ACF) as electrode basic material for preparing polypyrrole(PPy) composites,ACF/PPy/AQDS.
以典型氧化还原介体蒽醌-2,6-二磺酸钠(AQDS)为掺杂剂,以吡咯为载体,以活性炭毡(ACF)为电极基体材料制备了聚吡咯(PPy)复合材料,ACF/PPy/AQDS,并使用元素分析对其进行了表征。
补充资料:整体毡增强体
分子式:
CAS号:
性质:复合材料增强体的一种,由短纤维呈三维无序分布并用粘接剂黏合而成,常利用气流喷射将短纤维和粘接剂沉积于与复合材料制件形状相应的筛摸上经干燥制成。在复合材料的制作中,由于整体毡增强体与复合材料制件的形状相应,纤维能够保持原有方向而不随基体组元流动,因此可以减少纤维在复合材料过程中的损伤。整体毡增强体能提供复合材料各方向均匀的性能,适于制作火箭头锥、发动机喷管喉部、刹车片等复合材料制件。
CAS号:
性质:复合材料增强体的一种,由短纤维呈三维无序分布并用粘接剂黏合而成,常利用气流喷射将短纤维和粘接剂沉积于与复合材料制件形状相应的筛摸上经干燥制成。在复合材料的制作中,由于整体毡增强体与复合材料制件的形状相应,纤维能够保持原有方向而不随基体组元流动,因此可以减少纤维在复合材料过程中的损伤。整体毡增强体能提供复合材料各方向均匀的性能,适于制作火箭头锥、发动机喷管喉部、刹车片等复合材料制件。
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