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RC-A
Red Cherry
RC-A-007
Electrophoretic Coating: Electrophoretic coating is dissolved in water, causing electrolysis to generate charged particles. Under the influence of an external electric field, the charged particles migrate toward the opposite electrode and deposit on the surface of the aluminum profile, forming a dense and uniform film.
Powder coating: Powder coating is placed in a spray gun. Under the action of compressed air, high-voltage static electricity causes the powder particles to adhere to the surface of the aluminum profile, forming a 50-300μm coating. The resin molecular weight of powder coating is higher than that of solution-based coatings. After a single spraying, the aluminum profile surface is coated with a thick layer, without the dripping and pinhole defects caused by solution-based coatings, and the coating is also thicker.
Anodizing: The process of forming an oxide film on an aluminum product (anode) under the action of an applied current in a suitable electrolyte and specific process conditions. Anodizing can create a porous oxide film with a hardness of up to 500 HV. The porous structure allows the aluminum profile to more easily absorb pigments, lubricants, and other materials, making it more wear-resistant, corrosion-resistant, and aesthetically pleasing. Anodized aluminum profiles also offer insulating properties and high-temperature resistance, with a breakdown voltage exceeding 30V/μm and a temperature resistance of 1500°C.
Q1: What are special-shaped aluminum profiles used for in medical equipment?
A: These profiles are widely used in medical device frames, diagnostic equipment, hospital furniture, imaging systems, rehabilitation devices, and laboratory instruments.
Q2: Which aluminum alloys are available?
A: We commonly use 6061, 6063, and other high-performance aluminum alloys that provide excellent strength, corrosion resistance, and dimensional stability.
Q3: Can you manufacture profiles according to custom drawings?
A: Yes. We offer fully customized extrusion solutions based on CAD drawings, technical specifications, or physical samples.
Q4: What surface finishes do you provide?
A: Available finishes include anodizing, powder coating, electrophoresis, polishing, brushing, and custom color treatments.
Q5: Why is aluminum suitable for medical equipment?
A: Aluminum combines lightweight performance, high strength, corrosion resistance, and an attractive appearance, making it ideal for modern medical applications.
Q6: Can you provide tight dimensional tolerances?
A: Yes. We maintain strict quality control throughout production to ensure high precision and consistent dimensions.
Q7: Do you offer CNC machining services?
A: Yes. We provide cutting, drilling, milling, punching, tapping, and precision CNC machining to deliver ready-to-assemble components.
Q8: Are the profiles resistant to corrosion and frequent cleaning?
A: Yes. High-quality aluminum alloys and protective surface treatments help the profiles withstand cleaning agents and demanding medical environments.
Q9: Can you support OEM and ODM projects?
A: Absolutely. Our engineering team works closely with customers to develop custom medical equipment components and complete profile solutions.
Q10: What quality inspections are performed before shipment?
A: We inspect dimensions, surface quality, mechanical properties, and production consistency to ensure every batch meets customer requirements.
