研究结果表明,它具有较高的准确度和时空分辨率,是探测材料动态性质的一种较好手段。
It shows that both accuracy and resolution are high. So it is a good method of measuring dynamic properties of non-conductive material.
分析了玻璃材料在高速冲击条件下的破坏波现象,对破坏波的传播机制及其动态特征以及破坏层的性质进行了研究。
The failure wave phenomena in glass media under shock loading are analyzed. The propagating mechanism and dynamic characteristics of failure wave and the property of failure layer are revealed.
测定了复合材料的力学性质,并进行了动态粘弹性试验。
It tests the mechanics feature of the composite and the dynamic viscous elasticity.
复合材料动态力学性能研究表明:TPR的加入提高了复合材料的阻尼性质,却降低了复合材料的存储模量和玻璃化转变温度;
Dynamic mechanical thermal analysis showed that the addition of TPR improved the damping of the composite, but decreased the storage modulus and the glass transition temperature of the composite.
本文主要论述左手材料的性质并分析左手材料全新应用前景,简要介绍左手材料近年来的研究动态及发展前景。
This article mainly deals with the nature of left-handed materials and analyzes the possible new application prospect, and briefly introduces the latest advances an…
本文主要论述左手材料的性质并分析左手材料全新应用前景,简要介绍左手材料近年来的研究动态及发展前景。
This article mainly deals with the nature of left-handed materials and analyzes the possible new application prospect, and briefly introduces the latest advances an…
应用推荐