1) Aluminum anodic oxidation
铝阳极氧化
1.
Research development aluminum anodic oxidation material;
铝阳极氧化材料的研究进展
2.
Furthermore,the preparation process of the cooling device basing on aluminum anodic oxidation process is presented.
在此基础上, 研究了基于铝阳极氧化的冷却装置模型制备工艺。
3) aluminium anodizing
铝阳极氧化
1.
Rinsing is a very important process in aluminium anodizing ( including electrophoretic coating) in surface treatment workshops.
水洗对于铝阳极氧化(含电泳)车间而言是一个十分重要的过程,水洗过程的好坏对化学溶液的抗污染、加工件的品质稳定、资源节约与环境保护等具有直接的影响。
4) anodized aluminum
铝阳极氧化
1.
Cerium conversion film was prepared on anodized aluminum alloy by chemical deposition.
采用化学沉积法在铝阳极氧化膜上制备铈转化膜。
2.
Cerium conversion films were prepared on anodized aluminum via chemical deposition and electrodeposi-tion respectively,and the mechanisms of formation of the cerium conversion films were investigated.
为探讨铝阳极氧化沉积铈转化膜形成机理,分别用化学沉积和电沉积法在铝阳极氧化膜上制备了铈转化膜。
5) anodized aluminum
阳极氧化铝
1.
The quality of silicone sealant adhesion to anodized aluminum varies widely.
硅酮密封胶对阳极氧化铝的黏结质量千差万别。
2.
An array film of amorphous carbon nanofibers was synthesized on an anodized aluminum template by the pyrolysis of acetylene in the presence of the Co codeposited in the anodically oxidized layer as the catalysis.
采用乙炔热分解法在多孔阳极氧化铝膜板上制备了定向生长的非晶态碳纳米纤维阵列膜,采用场发射扫描电子显微镜、激光Raman光谱仪和透射电子显微镜观察分析了阵列膜和非晶态碳纳米纤维的组织形态和微观结构,并采用原子力显微镜和环-块式摩擦磨损试验机考察了非晶态碳纳米纤维阵列膜的摩擦性能。
3.
The quality of silicone sealant adhesion to anodized aluminum varies widely.
硅酮密封胶对阳极氧化铝的黏结质量千差万别。
6) anodic alumina
阳极氧化铝
1.
Study of self-organized of hexagonal nanopore arrays in porous anodic alumina;
多孔阳极氧化铝六方纳米孔阵列的自组装生长研究
2.
Fabrication and in vitro performance of anodic alumina containing calcium;
含钙阳极氧化铝的制备及其体外性能
3.
Ordered Sr_2CeO_4 nanowire arrays embedded in anodic alumina membranes(AAM) were fabricated by a converse transport technique that precipitations were shaped into one dimension structure in the hexagonally ordered nanochannels of the AAM and changed into the Sr_2CeO_4 nanowire by the subsequent treatment.
以多孔阳极氧化铝为模板,采用逆向迁移技术,在模板的纳米孔道内反应形成一维纳米结构前驱体,再经后续处理,制得了Sr2CeO4纳米线。
补充资料:铝阳极氧化
分子式:
分子量:
CAS号:
性质:铝及其合金在相应的电解液中,在特定的条件下,通过直流电流(也可用交流电)的作用,在铝金属表面上生成一层氧化铝薄膜,可提高硬度、耐腐性、抗蚀性和电绝缘性。用于铝件着色和油漆打底。按其溶液成分及膜层性质可分为硫酸、铬酸、草酸、磷酸、硬质、瓷质及乳白色等阳极氧化。其中以硫酸阳极氧化应用最广。将表面洁净的铝件作为阳极,铅板作为阴极,挂入硫酸溶液中,通入直流电,铝件表面即被氧化而形成多孔性氧化铝薄膜。
分子量:
CAS号:
性质:铝及其合金在相应的电解液中,在特定的条件下,通过直流电流(也可用交流电)的作用,在铝金属表面上生成一层氧化铝薄膜,可提高硬度、耐腐性、抗蚀性和电绝缘性。用于铝件着色和油漆打底。按其溶液成分及膜层性质可分为硫酸、铬酸、草酸、磷酸、硬质、瓷质及乳白色等阳极氧化。其中以硫酸阳极氧化应用最广。将表面洁净的铝件作为阳极,铅板作为阴极,挂入硫酸溶液中,通入直流电,铝件表面即被氧化而形成多孔性氧化铝薄膜。
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