摘要
应用CST仿真软件对裂缝天线的尺寸进行了仿真优化。针对腔体的结构和物料的尺寸对微波能量进行了合理的分配,在提高能量利用率的同时实现了三维状态下微波场的均匀分布。微波具有穿透深、易于控制等优点,物料内外同时发热,大大缩短了干燥时间,提高了生产效率。
The size of the crack antenna is simulated by CST simulation software. The microwave energy is reasonably allocated for the structure of the cavity and the size of the material, The uniform distribution of the microwave field in the three-dimensional state is achieved while ensuring the energy utilization rate. Microwave has a deep penetration, easy to control, etc., both inside and outside the material heating, greatly reducing the drying time and improve the production efficiency.
作者
赵英军
Zhao Yingjun(Shenzhen Magmit Electric Co.,Ltd.,Shenzhen Guangdong,518052)
出处
《电子测试》
2019年第14期25-27,共3页
Electronic Test
关键词
卫浴陶瓷
模具
微波干燥
裂缝天线
CST仿真
Bathroom ceramic
Mold
Microwave Drying
Slotted antenna
CST simulation
