1) the depth of impregnation
染透深度
2) penetration depth
透射深度
1.
Determination of the critical exposure and the penetration depth of the photosensitive resin for Stereolithography;
光固化快速成形光敏树脂临界曝光量和透射深度的测试研究
2.
Combined with the relationship between evanescent wave penetration depth and incidence angle,a new parabola taper fiber probe is put forward.
结合倏逝波透射深度与光线入射角之间的关系,提出一种新的抛物线锥形光纤探头。
3.
According to the relationship between the penetration depth of the evanescent wave and the incident light angle,with the inner face kf probe to the effect of the light reflection angle,a new parabola taper fiber is put forward and compared with different tape.
根据倏逝波透射深度与光线入射角之间的关系,结合不同形状的探针内面对光线反射角的影响,提出抛物线锥形光纤探头,并对抛物线参数进行了比较。
3) penetration depth
渗透深度
1.
Study on penetration depth of cement-based capillary crystalline waterpro of materials with SEM and EDAX;
水泥基渗透结晶型防水材料渗透深度扫描电镜和能谱分析
2.
Microscopic analysis is made on cement based permeable crystallization type waterproof paint and study is made on chemical reactions taken place when active ingredient of the paint penetrated into the concrete and on penetration depth of crystalloid product and active ion that may create by reaction using XRD and SEM.
利用扫描电子显微镜、X射线衍射对水泥基渗透结晶型防水涂料涂层基体进行微观分析,研究涂料的活性组分渗透进入混凝土内发生的化学反应、反应可能生成的晶体产物及活性离子的渗透深度。
3.
The base properties of five offset paper was measured,and the penetration depth,after printing,was tested when the same ink enter into these paper.
测试了5种胶版纸的基本性能,通过印刷打样,测定出同一油墨在这些纸张内部的渗透深度,分析了胶版纸和印刷工艺对油墨渗透深度的影响状况。
4) penetration depth
穿透深度
1.
The penetration depth at 0 K can be attained as: λ0=265 nm for YBCO/LAO and λ0=280 nm for YBCO/MgO.
通过测量微带谐振器的共振频率、有载品质因数、插入损耗与温度之间的依赖关系,分析了超导薄膜的微波特性,获得了超导薄膜在绝对零度时的穿透深度λ0。
2.
The results show that the maximum penetration depth of gas flow is increased with the increase of gas momentum while the diameter of oxigen gunjet keeps constant.
研究表明,当喷枪直径一定时,气体的最大穿透深度随气流动量通量的增加而增大,当动量通量相同时,液体的黏度越大,气体的最大穿透深度越小。
3.
According to Maxwell equation and HagenRuben formula, the absorptivity and the penetration depth in metal of Nd:YAG laser(1.
6μm)在金属中的吸收率和穿透深度,并做了Nd:YAG激光与CO2激光的熔敷试验比较。
5) penetrating depth
渗透深度
1.
The article is focused on the penetrating process,penetrating depth,penetrating concentrate of the active chemical substance hydrated production,the SiO32-ion,of the capillary crystalline waterproofing coatings in the base concrete in standard test condition,which is described in the GB 18445,by the way of analyzing the dates getting from the chloride ion corrosion on the concrete.
分析了氯离子在混凝土中的渗透情况,初步探讨了水泥基渗透结晶活性化合物的水化产物SiO32-在GB18445规定的实验条件下可能的渗透过程、渗透深度、渗透浓度等。
6) Penetration length
穿透深度
1.
The transmission spectrum of the SU-8 photoresist in the near UV is analyzed to get the penetration length of the different wavelengths UV in SU-8.
通过对SU 8胶近紫外波段下透射光谱的分析,得到不同波长近紫外光在SU 8胶中的穿透深度,并分析了不同波段近紫外光对SU 8胶微结构的影响,结果表明穿透深度大的近紫外波段曝光出来的图形质量好,深宽比大,侧壁陡直。
2.
As a new injection molding technology, avoiding the breakthrough phenomenon of core melt, obtaining longer penetration length on skin melt and good uniformity of core melt in sandwich injection molding are quite significant for its application as well as theoretic study of sandwich injection molding.
夹芯注射成型作为一种新型的注射成型技术,如何避免芯层熔体前缘冲破现象的出现、获得具有较大芯层熔体穿透深度以及均匀层厚分布的产品对于它的实际应用和理论研究具有极为重要的意义。
3.
How to avoid the breakthrough phenomenon of core melt and increase the content of core material in the injection molding process, and obtain the product with high penetration length of core melt, uniformity of distribution for core material and small warpage are of great significance for practical production, application research and theoretical research.
在注射成型过程中,如何避免芯层熔体前缘突破,增加芯层物料的填充量,获得具有较大熔体穿透深度以及层厚均匀分布、翘曲变形小的制品,对于指导实际生产、应用和理论研究都有十分重要的意义。
补充资料:电流透入深度
电流透入深度
current penetration depth
d旧n}一U touru Shendu电流透入深度(eurrent penetration depth) 表征感应电流趋肤效应程度的物理量。处于交变电磁场中的导电体内部会产生感应电流。如磁场方向与导电体表面平行,则该感应电流有趋肤效应,即导电体表面的电流密度最大,离表面愈远,电流密度愈,J、。 在理论上,电流透人深度定义为:正弦波形平面电磁波垂直地人射到无限厚均质平面导电体中时,平面导电体内电流密度‘有效值,等于其表面电流密度告、36.8%(e为自然对数的底)处距表面的距离。 根据麦克斯韦方程组可推导出电流透入深度古为。一。。3。得,。m式中P为导体的电阻率,n·cm;产为导体的相对磁导率.f为交变电磁场的频率,H:。 推导中假定:平面导体的厚度和长、宽为无限大;导体是均质的,即其电阻率和相对磁导率各处都相同。 还可推导得出:在电流透人深度范围内,导电体从电磁场吸收的功率为导电体吸收的总功率的86.5%几种常用材料的电流透人深度见表。几种常用材料的电流组入裸度(cm)┌─────────┬──────────────────────────┬──────┬───────────────────────┐│材料 │频率‘H·,} │材料 │频率(Hz) ││ ├───┬───┬───┬───┬───┬──────┤ ├───┬───┬───┬───┬───┬───┤│ │50 │500 │1000 │3000 │10000 │4。。。。。}│ │50 │500 │1000 │3000 │10000 │400000│├────┬────┼───┼───┼───┼───┼───┼──────┼─┬────┼───┼───┼───┼───┼───┼───┤│破钢 │ 室温 │0。32 │0。11 │0 .08 │0。04 │0 .02 │0 .00 │铜│室温 │0 .95 │0 .33 │0 .23 │0 .02 │0。07 │0 .01 ││ │1200℃时│6 .60 │2 .30 │1 .62 │0 .95 │0.52 │0 .08 │ │850℃时 │l。93 │0 .66 │0。47 │0。艺7│0 .15 │0。02 ││ │熔化时 │9 .10 │3 .18 │2 .25 │1 .30 │0。71 │0 .10 │ │ │ │ │ │ │ │ │├────┼────┼───┼───┼───┼───┼───┼──────┼─┼────┼───┼───┼───┼───┼───┼───┤│ICr18Nig│ 室温 │;:;: │1 .97 │1 .39 │0 .80 │0 .44 │0 .07 │铝│室温 │}:;; │0 .37 │0 26 │0 .14 │0 .08 │0 .01 ││不铃钥 │1200℃时│ │2 .60 │1 .84 │1 .06 │0 .58 │0 .09 │ │500℃时 │ │0。66 │0 .47 │0 .27 │0 .15 │0 .02 │└────┴────┴───┴───┴───┴───┴───┴──────┴─┴────┴───┴───┴───┴───┴───┴───┘在感应加热的理论和实践中,电流透人深度是一个重要的基本参数,可由此了解被加热物料在不同频率和温度下(磁性材料在超过某一温度—居里点以后失去磁性,其相对磁导率大为减小)其内部电流分布情况,从而了解电流加热层的厚度。上式虽是按无限厚导电体导出的,但在实践中.当材料厚度超过2古时,实际情况已与理论假定接近.
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条