The cold-pressing ceramic processing technique was used to prepare high-permittivity Barium Titanate ceramics.
采用冷压陶瓷处理技术制备了高介电率钛酸钡陶瓷材料。
This paper aims at methods and techniques for measuring the parameters of microwave dielectric materials with high permittivity, which has profound theoretical significance and practical value.
本论文研究微波介质材料参数宽带测试方法和技术,所作的高介电常数测试工作具有理论意义和实用价值。
Therefore, to develop the composite with high permittivity, which can control electrical stress, has become an important subject in the field of engineering dielectric physics.
因此,研究与寻找具备高介电常数的电应力控制新型聚合物基复合材料就成为工程电介质物理领域研究的重要课题。
A coaxial transmission and reflection method can be used to measure microwave permittivity of high-loss material.
同轴传输反射方法可以用来测量高损耗材料的微波介电常数。
In order to achieve larger bandwidth, it is necessary to use tight coupled sections which are difficult to realize especially high phase shift and low permittivity.
为了实现更大的带宽,就必须使用紧耦合的条文,是很难实现相移,尤其是高,低介电常数。
In the second part studied the fabrication process of dielectric resonator antenna model and high permittivity ceramic plate.
研究中的第二个部分,是对于微波介电陶瓷制备介电共振器天线与高介电陶瓷薄板之制程方面的研究。
Diamond has many characters, such as high thermal, low permittivity, high band gap, super high hardness, low friction etc, which makes it possible to be widely used in industry.
金刚石具有高导热率、低介电系数、高禁带宽度、超高硬度、低摩擦系数等性质,在国民经济的许多部门得到了广泛的应用。
The electromagnetic band-gap (EBG) materials is used to design the aperture coupled patch antennas, and both high permittivity and low permittivity materials are considered in this paper.
将电磁带隙材料用于孔径耦合微带天线的设计,利用其频率带隙抑制天线中激励的表面波,分别考虑高介电常数和低介电常数的情况。
The permittivity of polymer was more important to actuation performance and high permittivity could improve strain mor...
聚合物相的介电常数对驱动应变影响最大,采用高介电常数的聚合物相可以使其驱动应变明显提高。
A novel in-situ measurement technique is proposed for simultaneously measuring the complex permittivity and permeability of high-loss material using a flanged open-ended coaxial probe.
本文提出一种开口同轴探头现场同时测量高损材料复电磁参数的新方法。
The high-frequency limit of relative permittivity was the same in the parallel and the perpendicular orientation;
平行方向和垂直方向的介电常数高频极限量相等;
The high-frequency limit of relative permittivity was the same in the parallel and the perpendicular orientation;
平行方向和垂直方向的介电常数高频极限量相等;
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