采用挤压注塑法制备BN/N y lon1010复合电子基板材料,研究了不同BN纤维填充量的复合基板材料的微观组织结构和复合电子基板材料的介电性能及导热性能。结果表明,当BN纤维体积含量小于40%时,BN纤维基本上以孤岛形式分布在N y lon1010基体...采用挤压注塑法制备BN/N y lon1010复合电子基板材料,研究了不同BN纤维填充量的复合基板材料的微观组织结构和复合电子基板材料的介电性能及导热性能。结果表明,当BN纤维体积含量小于40%时,BN纤维基本上以孤岛形式分布在N y lon1010基体上;当BN纤维体积含量大于40%时,BN纤维开始形成连续网络。复合基板的介电常数随着BN纤维含量的增加而线性增加,介质损耗则随着BN纤维含量的增加而线性降低,复合基板的热导率随BN纤维的加入量增加而增大,但起初变化较小。当BN纤维体积含量大于40%时,热导率开始迅速增加。展开更多
Rod-like single-phase seed crystals of yttrium-α-SiAlONs were synthesized by combustion synthesis method. The XRD patterns, the morphologies of products and formation mechanism were investigated. The SEM observation ...Rod-like single-phase seed crystals of yttrium-α-SiAlONs were synthesized by combustion synthesis method. The XRD patterns, the morphologies of products and formation mechanism were investigated. The SEM observation of crystals exhibits well developed elongated hexagonal crystals with highly agglomerative features, assigned to pure and well-crystallized α-SiAlON. After special chemical treatments and water washing, the powders are well dispersed and still keep elongated hexagonal crystals, and the XRD pattern shows that the rod-like structure is crystalline yttrium-α-SiAlON with only a trace of β-SiAlON.展开更多
文摘采用挤压注塑法制备BN/N y lon1010复合电子基板材料,研究了不同BN纤维填充量的复合基板材料的微观组织结构和复合电子基板材料的介电性能及导热性能。结果表明,当BN纤维体积含量小于40%时,BN纤维基本上以孤岛形式分布在N y lon1010基体上;当BN纤维体积含量大于40%时,BN纤维开始形成连续网络。复合基板的介电常数随着BN纤维含量的增加而线性增加,介质损耗则随着BN纤维含量的增加而线性降低,复合基板的热导率随BN纤维的加入量增加而增大,但起初变化较小。当BN纤维体积含量大于40%时,热导率开始迅速增加。
文摘Rod-like single-phase seed crystals of yttrium-α-SiAlONs were synthesized by combustion synthesis method. The XRD patterns, the morphologies of products and formation mechanism were investigated. The SEM observation of crystals exhibits well developed elongated hexagonal crystals with highly agglomerative features, assigned to pure and well-crystallized α-SiAlON. After special chemical treatments and water washing, the powders are well dispersed and still keep elongated hexagonal crystals, and the XRD pattern shows that the rod-like structure is crystalline yttrium-α-SiAlON with only a trace of β-SiAlON.