1) stainless steel substrate
不锈钢基底
1.
The (002) directional Yttria Stabilized Zirconia (YSZ) buffered layer film was deposited on the stainless steel substrate with the Ar + ion beam assistence at room temperature,and then the YBa 2Cu 3O 7-x (YBCO) film was deposited on the YSZ/stainless steel substrate at 750℃ by pulsed laser ablation.
室温下应用Ar+ 离子源辅助准分子脉冲激光沉积(002)取向的YSZ(Yttria-stabilized zirco-nia)过渡层薄膜于不锈钢基底上;基底加温至750℃,用准分子脉冲激光沉积高电流密度YBCO(YBa2Cu3O7- x) 高温超导线材。
2.
CeO2 films were deposited by pulsed laser ablation on stainless steel substrates at room temperature with the Ar+ ion beam assistance.
室温下在不锈钢基底上应用Ar+离子源辅助,准分子脉冲激光沉积了CeO2薄膜。
3.
The (002) directional Yttria-Stabilized Zirconia (YSZ) buffered layer film was deposited on the stainless steel substrate with the Ar~+ ion beam asslstence at room temperature,and then the YBa_2Cu_3O_(7-x) (YBCO) film was deposited on the YSZ/stainless steel substrate at 750℃ by pulsed laser ablation.
室温下应用Ar~+离子源辅助准分子脉冲邀光沉积(002)取向的YSZ(Yttria-stabilized zirconia)过渡层薄膜于不锈钢基底上;基底加温至750℃,用准分子脉冲激光沉积高电流密度YBCO(YBa_2Cu_3O_(7-x))高温超导线材。
2) Hstainless steel mesh substrate
不锈钢丝网基底
3) stainless steel substrate
不锈钢衬底
1.
6K were prepared on the stainless steel substrate by HPCVD method.
我们用混和物理化学气相沉积法(HPCVD)在不锈钢衬底上原位制备了以MgB2厚膜(约10微米厚)为过渡层的MgB2超导厚膜(约20微米厚)样品,两层膜总厚约30微米。
2.
We have fabricated superconducting MgB_2 thin film samples on stainless steel substrates by using hybrid physical-chemical vapor deposition (HPCVD) in pure argon atmosphere.
我们用混合物理化学气相沉积法(hybrid physical-chemical vapor deposition简称为HPCVD)以氩气为背景气体,在不锈钢衬底上于不同条件下制备了一批MgB2超导薄膜样品。
3.
We have fabricated several superconducting MgB-2 thick films on stainless steel substrates using the technique of hybrid physical chemical vapor deposition (HPCVD).
我们用混合物理化学气相沉积法(HPCVD)制备了一批不锈钢衬底的MgB2 超导厚膜样品,厚度在10~30 μm间,Tc(onset)是37。
4) Stainless steel substrate
不锈钢基体
1.
Fabrication of TiO_2 ceramic membrane on stainless steel substrates;
不锈钢基体上TiO_2陶瓷膜的制备
2.
The influnce of stainless steel substrate and thinkness of nano-TiO_2 film on dye-sensitizied solar cells;
纳米TiO_2薄膜厚度与不锈钢基体对染料敏化太阳能电池的影响
5) stainless steel panel
不锈钢基板
1.
The results show that the coated insulating material stainless steel panel thick film ring potentiometer has advantages such as high over-load value (18 000~20 000 g), high dynamic resistance mountable precision (the error ≤1%),etc.
该电位器经过温度循环、抗过载、机械强度和动态射击试验,结果表明:被覆绝缘介质不锈钢基板厚膜环型电位器具有过载值高(18000~20000g)、动态电阻装定精度高(误差小于1%)等优点,满足高过载使用要求。
6) flexible stainless steel substrate
柔性不锈钢衬底
补充资料:基底恩的芝诺
古希腊斯多阿学派创始人。出生于希腊殖民地塞浦路斯的基底恩, 父亲是商人。据说芝诺 22岁时因所乘商船遇难而来到雅典,就此留下学习哲学。他尊崇苏格拉底,先后就学于小苏格拉底学派中犬儒学派的格拉特和麦加拉学派的斯第尔波,以及柏拉图学园的波莱蒙等。他的伦理学和逻辑学深受犬儒学派和麦加拉派的影响;他的物理学主要来自赫拉克利特,而在细节上也吸收了亚里士多德的哲学。苏格拉底的"美德即知识"的观点和目的论思想,对芝诺有重大影响。芝诺以建立有德性的生活标准为目的,糅合以上不同学派的思想,形成了自己的哲学。约于公元前 300年左右,芝诺建立自己的学派,即斯多阿学派。芝诺第一个明确地把哲学分为逻辑、物理学和伦理学,并且为斯多阿学派哲学的三个部分提供了基本思想。以后经过他的学生克雷安泰,特别是经过号称斯多阿学派的第二个建立者克吕西波的发展,斯多阿学派哲学才形成基本上稳定的体系。芝诺的著作有《共和国》和《论依照自然生活》等。但是包括芝诺在内的所有早期斯多阿派哲学家的著作大都遗失,依据现存的残篇和后人的著述,对他们各自的思想进行分别论述已有困难,故后世学者多把他们的思想作为一个学派的思想来论述。
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