CAJ | 학술논문

讨论了纤雏长度与热压保温时间对含量为25%(体积分数)的短切SiCf增强LAS玻璃陶瓷复合材料介电性能的影响.在8～12GHz频率范围内,介电性能测试结果表明,随纤维长度由2mm增加到4mm,复合材料的复介电常数实部ε′增大,而其虚部ε″及介电损耗tgδ减小.当保温时间由10min延长到20min时,复合材料的ε′增大,而其ε″与tgδ均减小;且保温20min时,其ε′、ε″与tgδ均已接近适合损耗微波能量的数值.复合材料有望成为电损耗型宽带微波损耗材料.
토론료섬추장도여열압보온시간대함량위25%(체적분수)적단절SiCf증강LAS파리도자복합재료개전성능적영향.재8～12GHz빈솔범위내,개전성능측시결과표명,수섬유장도유2mm증가도4mm,복합재료적복개전상수실부ε′증대,이기허부ε″급개전손모tgδ감소.당보온시간유10min연장도20min시,복합재료적ε′증대,이기ε″여tgδ균감소;차보온20min시,기ε′、ε″여tgδ균이접근괄합손모미파능량적수치.복합재료유망성위전손모형관대미파손모재료.
The influences of the fibre length and hot-pressing time on the dielectric properties of the LAS glassceramic composites reinforced with 25vol% chopping SiC fibre are discussed. In a range of 8～12GHz, the measurement results of the dielectric constant indicate that the ε′of the composite samples sintered for 10minutes or 20minutes increases and their ε″ and tgδ decline with the increase of the fibre length from 2mm to 4mm. The ε′ of the composite samples increases while their ε″ and tgδ decline with the increase of hot-pressing time from 10minutes to 20minutes, and the ε′ , ε″ and tgδ of the composite samples sintered for 20minutes approach the numerical value of microwave dissipation. It is shown that the chopping SiCf/LAS composites are provided with potential for broad band microwave dissipation.