Hard anodizing power supply is designed for the characteristics of oxidation. Due to its output waveform being a square wave, it is more favorable for sealing quality, reducing the dissolution of the film caused by temperature rise, preventing the expansion of the oxide film pores, improving the hardness and density of the oxide layer, and improving product quality and yield. This product uses imported high-power insulated gate bipolar transistor (IGBT) modules as the main power device, and uses ultra microcrystalline (also known as nanocrystalline) soft magnetic alloy materials as the main transformer core. The main control system adopts multi loop control technology, and the structure adopts anti salt spray acidification measures. The overall design is scientifically advanced, stable and practical, with superior performance, energy saving, stability, and high efficiency.
Oxidized power sources have a wide range of applications, including aerospace, automotive, mechanical, printing, medical, communication, and many other fields. By using an oxidation power supply, various colored and functional oxide films can be formed on the surface of metals, thereby improving their performance and aesthetics.
1. Reducing porosity, the formation rate of crystal nuclei is faster than the growth rate, promoting the refinement of crystal nuclei.
2. Improving the bonding strength, causing the passivation film to break through, is conducive to a strong bonding between the substrate and the coating.
3. It has functions such as voltage regulation (constant voltage), current regulation (constant current), soft start, phase loss protection, overvoltage/undervoltage protection, overcurrent protection, overheating protection, etc., ensuring safety issues.
4. Ensure significant improvements in the uniformity, density, wear resistance, and decorative properties of the oxide film.
5. Reduce the internal stress of the coating, improve lattice defects, impurities, voids, tumors, etc., easily obtain a crack free coating, and reduce additives.
6. Beneficial for obtaining alloy coatings with stable composition.
7. Improve the dissolution of the anode without the need for an anode activator.
8. Improving the mechanical and physical properties of the coating, such as increasing density to reduce surface and body resistance, improving toughness, wear resistance, corrosion resistance, and controlling the hardness of the coating.
enter | ac three-phase 380 v+/-10%,60 hz plus or minus 10% | |
output | the highest voltage:Customer specified voltage the highest current:customer specified current | |
voltage regulation accuracy(within the scope of the rating of 10%-100%) | source effect:1%rating when drift:1%rating temperature drift:1%rating load effect:1%rating | |
accuracy of steady flow(within the scope of the rating of 10%-100%) | source effect:1%rating Time drift:1%rating Temperature drift:1%rating Load effect:1%rating | |
ripple voltage(R.M.S.) | 2%or less rating(under full load output) | |
input protection | power input overvoltage,undervoltage,short of equal; | |
output protection | output power over current,short circuit,overload,etc; | |
filter way | filter reactor filtering | |
control mode | constant current/constant voltage conversion | |
the machine adjustment way | potentiometer adjustment | |
work | tolerance long-term continuous full load operation | |
the output voltage and current display mode | digital display | |
the output voltage and current display resolution | 0.1 V,0.1 A | |
ammeter display precision | 0.1% | |
cooling | the air-filled | |
