温度对金属导电率的影响是很小的。
The effect of temperature on conductivity of metals is small.
主要研究了金属导电浆料中常用的环氧树脂的固化。
The curing reaction of epoxy resin, which is common used in metal conductive paste, was studied.
金属导电。
金属导电。
探讨了经典电子论对金属导电解释的缺欠,具体分析了引起矛盾的因素;
This paper discusses defect of interpretation of metal conduction's classical electron theory, and analysis factors of contradiction.
随着薄膜生长速率的降低,锡膜由金属转变为半导体,呈现出非金属导电特性。
The specimens deposited at lower rate show some nonmetallic properties. In the present paper, the result as mention above is interpreted from the theory of Anderson localization.
爆炸复合材料的界面电阻,是用其制作的异种金属导电过渡接头的一项重要的技术指标。
Interface resistance of explosive composite materials, which are used to produce different kinds of metal electric transit point, is an important technique target.
约翰逊说,该团队对120个不同类型的材料进行测试后,最终将涂料配方确定为非金属导电粒子与糊状食物以及化妆品添加剂的混合物。
Johnson says that the team tested 120 different materials before settling on the final formula of non-metallic conductive particles mixed into a paste of food and cosmetic additives.
创造出单分子宽度无热损的导电金属线意味着一种新型的电子元件可同时解决两个难题。
Width to create a single molecule without thermal damage of the conductive metal lines means that a new electronic components can simultaneously solve two problems.
同时,固定地基上有一个(供电的)金属环,房子通过绕着此环旋转的导电刷来获得电能。
Electricity, meanwhile, is delivered via a conductive brush that sweeps around a metal ring in the stationary base.
Hla说(金属线)是可能在半导体或绝缘体上制作的,从而进一步证明电子是沿着电线无电阻导电。
Hla said (metal wire) is probably produced in the semiconductor or insulator and thus further evidence of the electronic conductivity along the wires without resistance.
Hla说(金属线)是可能在半导体或绝缘体上制作的,从而进一步证明电子是沿着电线无电阻导电。
Hla said (metal wire) is probably produced in the semiconductor or insulator, and thus further evidence of the electronic conductivity along the wires without resistance.
如果把一根导电金属丝放在金属铅和二氧化铅之间,铅释放的电子会经金属丝传递到二氧化铅,这个过程会产生电流。
If a conductive wire is run between the two, electrons released by the lead will run through it towards the lead dioxide, generating an electrical current as they do so.
一个是电子表面等离子体波,在金属辊通过海传导电子。
A plasmon is an electronic surface wave that rolls through the sea of conduction electrons on a metal.
因此,研究者们转而使用两层含石墨的导电性聚碳酸酯,各层的内外层都附有一条金属带。
So instead the researchers use two layers of graphite-rich conductive polycarbonate, each flanked by a single metal strip in the inner and outer cladding.
创造出单分子宽度无热损的导电金属线意味着一种新型的电子元件可同时解决两个难题。
The creation of a one-molecule-wide wire that can conduct electricity without any heat loss suggests a new type of electrical connection could tackle both problems at once.
金属别针被与对每导电环氧联结在接触边缘上领导。
Metal pins bonded with epoxy to each conductive lead on the contact edge.
在隔离状态下镓盐与有机复合物皆不导电,但Hla和他的同事们有证据表明由这两种物质组成的金属线有超导特性。
In the isolated state gallium salt and organic compounds are non-conductive but Hla and his colleagues have evidence that these two substances formed by the metal lines are superconducting properties.
试验探棒还需穿过在表面覆盖一层非导电涂层如瓷釉或清漆的接地金属外壳的开口。
The test probe is also applied through openings in earthed metal enclosures having a nonconductive coating such as enamel or lacquer.
金属都具有同样好的导电性能。
金属铜与塑料的膨胀系数比较接近,因此,在塑料电镀中常用化学镀铜层作为电镀的导电镀层。
Copper and plastic coefficient of expansion, and, therefore, more close to the plastic used in electroplating electroless copper plating coating layer as conductive.
金属为什么能导电是一个有趣的问题。
Why metals can conduct electricity is an interesting problem.
与其它导电金属层相比,镀铜层具有应力小、机械强度高、塑料基体与镀层结合力好等特点。
Compared with other conductive metal layer, copper coating with small with stress, high mechanical strength, the plastics substrate and coating binding force is good wait for a characteristic.
所有的金属都能导电。
不同的金属有不同的导电性能。
Hla说(金属线)是可能在半导体或绝缘体上制作的,从而进一步证明电子是沿着电线无电阻导电。
Hla says it should be possible to grow the wires on semiconductors or insulators as well and prove that electrons superconduct along the wires.
大多数金属能导电。
导电性也是许多金属的一种重要性质。
Electrical conductivity is also a valuable property of many metals.
金属就是通常具有良好导电性和导热性的元素。许多金属具有高强度、高硬度以及良好的延展性。
Metals are elements that generally have good electrical and thermal conductivity. Many metals have high strength, high stiffness, and have good ductility.
在MRI扫描中,这些微量金属可以导电,并造成皮贴接触部位的烧伤。
That little bit of metal can conduct electricity and cause a skin burn at the patch site during an MRI scan.
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