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The extremely high level of precision needed within the aerospace industry makes CNC machining a suitable manufacturing process for the sector.
This article provides you with a complete guide to aerospace machining and its importance.
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If you want to produce high-quality machined parts with a sleek appearance, it’s essential to consider some critical factors related to CNC machining.
Here, we’ve gathered some basic information and important considerations to help you achieve the desired results.
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Exciting news from RapidDirect! We’ve rolled out two exciting updates to enhance your manufacturing journey.
The electroless nickel plating process is a chemical process that deposits a layer of nickel-phosphorus alloy onto a substrate, creating a part with a uniform, hard, smooth, and semi-glossy coating.
It is autocatalytic, i.e., it does not require an electrical current to initiate nickel coating on the substrate. Instead, the coating process reduces nickel ions to metal and its deposition on the substrate.
The nickel plating color and other properties of the plated part depend on the quantity of phosphorus. High phosphorous (>10%) leads to parts with a semi-bright appearance and excellent corrosion resistance. Medium phosphorous (6-9%) produces a semi-bright to bright appearance and good corrosion resistance.
An advantage of the process is its uniform coating thickness, irrespective of the part complexity and presence of internal surfaces. Furthermore, the electroless nickel layer thickness depends on the plating time and bath composition.
Available Substrates | Cosmetic Availability | Tolerance | Thickness | Visual Appearance |
---|---|---|---|---|
Steel alloys, copper alloys, and aluminum alloys | No | ± 0.0001" | 3μm to 40μm | Results in a uniform, semi-glossy coating that is hard and smooth. |
Electroless nickel plating has a few limitations. One significant limitation is the necessity to replenish the electroless nickel plating solution after the consumption of the nickel ions during the process. This adds to operational costs and complexity. Additionally, while electroless nickel plating provides uniform coverage on various substrates, it may not be compatible with certain materials, limiting its applicability. Moreover, the process typically incurs higher costs compared to traditional electroplating methods.
The lifespan of a nickel-coated part depends on the environmental conditions of use and its specific application. Generally, nickel coatings have a long lifespan, with many performing effectively for over 20 years. However, this can vary widely based on factors like exposure to corrosive elements, abrasion, and temperature fluctuations. Furthermore, proper maintenance and care can also influence longevity.
Electroless nickel plating can take between 30 minutes to 1 hour. However, the capability of the electroless nickel plating service, desired thickness, and part size can also influence the time taken.
Yes, you can strip electroless nickel-plated parts of their coating and replate them. The process typically involves immersion in a chemical stripping solution to dissolve the existing electroless nickel layer, followed by thorough rinsing to remove any remaining residues. Once stripped, the parts can undergo surface preparation steps such as cleaning and activation before replating with a new coating of electroless nickel or a different plating material.
No, strip the parts before replating to ensure proper adhesion and quality of the new coating. Stripping removes the existing nickel layer, along with any contaminants or surface irregularities, creating a clean substrate for the replating process. Consequently, it promotes adhesion between the substrate and the new plating material and ensures the replated part’s longevity and performance.
Electroless nickel thickness tolerance can be as tight as +/- 0.0001 inches.
Copyright © 2024 Shenzhen Rapid Direct Co., Ltd. All rights reserved
Copyright © 2023 Shenzhen Rapid Direct Co., Ltd. All rights reserved.