Structure, composition and corrosion resistance of the anodic oxidation film on the magnesium alloy surface were discussed.
在硫酸电解液中加入适量由羧酸和有机化合物组成的添加剂 ,制得铝合金阳极氧化膜。
In a given anodic oxidation condition, a hard anodic oxidation film can be obtained on the surface of aluminum - matrix composite with an excellent anticorrosion.
在适当阳极氧化工艺条件下,颗粒增强铝基复合材料表面可以制得优良耐蚀性的硬质阳极氧化膜。
The sketch map of change on microstructure of anodic oxidation film during the reaming process and the process parameters for obtaining the multi-coloring by blocking layer adjusting were presented.
给出了扩孔处理过程中阳极氧化膜横断面的显微结构变化示意图,并给出了“阻挡层调整”实现多色化的工艺参数。
The effects of anodic oxidation process on thickness, corrosion resistance and surface morphology of hard oxidation film were studied.
为了研究阳极氧化工艺条件对硬质氧化膜的厚度、耐蚀性、表面形貌的影响。
The influences of temperature, time and voltage on the thickness of oxidation film, aperture and order degree during anodic oxidation were studied by orthogonal test.
采用正交实验研究了阳极氧化时温度、时间、电压对氧化铝膜厚度、孔径和孔有序度的影响。
Objectives: To study the oxide film of pure titanium implant material treated by anodic oxidation .
目的:研究阳极氧化对纯钛种植材料氧化膜的影响。
In the first stage of anodic deposition, the flocculent oxidation film deposits and extends on the surface of magnesium alloy.
阳极沉积阶段是在阳极表面形成团絮状的沉积氧化膜及氧化膜不断扩展的过程;
The key of the manufacturing process of anodic oxide film of aluminium wire is the continuous anodic oxidation.
氧化铅丝生产过程中最关键的工艺是连续阳极氧化。
XRD results indicate that amorphous titanium oxide film is formed on the surface after anodic oxidation, and corrosion rates of titanium crystal vary along different crystalline orientation.
经x射线衍射分析,纯钛表面经阳极氧化处理后,其表面生成了一层非晶态的氧化钛薄膜,并且钛晶体的各个表面沿不同结晶方向的腐蚀速率不相同。
This technology holds great practical values in raising the bath temperature for hard anodic oxidation of aluminium, improving the film hardness and energy saving etc.
该工艺在提高铝硬质阳极氧化槽液温度、增加膜的硬度和节能等方面都县有很大的实用价值。
This technology holds great practical values in raising the bath temperature for hard anodic oxidation of aluminium, improving the film hardness and energy saving etc.
该工艺在提高铝硬质阳极氧化槽液温度、增加膜的硬度和节能等方面都县有很大的实用价值。
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