Rose gold PVD plating.
304 stainless steel part (3D printed) with copper-nickel-chromium electroplating base coat and rose gold PVD plating.
304 stainless steel part (3D printed) with copper-nickel-chromium electroplating base coat and rose gold PVD plating.
Substrate: 304 stainless steel
Plating: Copper-nickel-chromium electroplating, rose gold vacuum plating
Process: Rack plating
Color: Rose gold
Reference price: $0.5 per piece
Plating: Copper-nickel-chromium electroplating, rose gold vacuum plating
Process: Rack plating
Color: Rose gold
Reference price: $0.5 per piece
Difficulties in electroplating this part
The part is 3D printed, resulting in a rough surface that cannot be polished. Due to the lower density of metal 3D printed parts and the presence of porosity, residual stress, and warping, even with polishing, it is impossible to achieve the same level of smoothness as CNC machined parts. Therefore, achieving a mirror-like effect on this part is not feasible. The maximum improvement in surface smoothness can be achieved through copper-nickel-chromium electroplating.
This part is an appearance component, so the requirements for the post-plating appearance are quite high. There should be no color difference between the inner and outer surfaces. Therefore, when using the rack plating method, it is important to ensure that the part is hung sideways instead of the traditional concave surface facing inward to ensure consistent color between the inner and outer surfaces.
Titanium PVD Gold
Yellow Brass Jewelry Components Water Plating
Copper-Nickel-Chromium + Titanium PVD Gold Vacuum Coating / Advantages of PVD Vacuum Coating
Brass Jewelry Components Water Plating Copper-Nickel-Chromium + Vacuum Titanium PVD Gold Coating Processing
Base Material: Brass H62
Plating: Copper-Nickel-Chromium Undercoat followed by PVD Vacuum Titanium Gold Coating
Process: Hanging Plating
Additional Process: Mechanical Mirror Polishing
Color: Titanium Gold
Film Thickness: 15μm on one side
Electroplating Price: 0.6 USD/piece
What are the advantages of PVD Vacuum Coating?
Metallic appearance
Uniform and consistent color
Durable surface that maintains a good appearance in various air and direct sunlight conditions
Deep and bright colors
Economical, reducing the time and cost required for cleaning and polishing compared to electroplating brass or gold
Environmentally friendly, avoiding chemical toxicity
Biocompatible
Uniform and consistent color
Durable surface that maintains a good appearance in various air and direct sunlight conditions
Deep and bright colors
Economical, reducing the time and cost required for cleaning and polishing compared to electroplating brass or gold
Environmentally friendly, avoiding chemical toxicity
Biocompatible
Coating Characteristics:
Excellent adhesion: Can bend over 90 degrees without cracking or peeling (PVD coating has high adhesion and durability), surpassing other techniques such as electroplating and spray coating
Can etch any imaginable design pattern
Suitable for interior decoration or outdoor use
Resistant to oxidation and corrosion
Resistance of PVD Coatings:
Corrosion-resistant with stable chemical properties
Acid resistant
Maintains its appearance without oxidation, fading, loss of luster, or leaving traces in conventional indoor or outdoor environments
Does not get damaged under normal use
Does not fade
Easy to remove paint and ink
Does not lose its luster, oxidize, fade, peel, or crack under intense sunlight, salty and humid conditions, or urban environments
Wide range of colors available, with a smooth surface, metallic luster, and colorfastness
Does not change color or peel in harsh environments such as intense sunlight and humidity, with stable performance
Highly resistant to wear and scratches, not easily damaged
Suitable for a wide range of materials, with strong adhesion to the substrate
PVD vacuum ion coating technology is truly harmless to humans and the ecological environment.
Vacuum Deposition
(PVD)Vacuum deposition (PVD) Physical Vapour Deposition
Introduction to Vacuum Electroplating(PVD) Process
The vapor phase deposition method can be divided into physical vapor deposition (PVD), chemical vapor deposition, and discharge polymerization. Today, we will mainly introduce the physical vapor deposition method, commonly conducted in a vacuum environment, referred to as vacuum coating technology.
Characteristics of the PVD vacuum electroplating process
Vacuum coating, PVD electroplating, and characteristics of vacuum coating
PVD vacuum coating technology can create a metallic luster, with a uniform and durable surface appearance. It maintains a good appearance under various air and direct sunlight conditions. The colors are rich, bright, and economical, and reduce the time and cost required for cleaning and polishing. It is environmentally friendly with no chemical toxicity risks and has a wide range of biocompatibility.
Characteristics of PVD vacuum coating layer
PVD vacuum coating exhibits excellent adhesion. It can withstand more than 90 degrees of bending without cracking or peeling (PVD coatings have high adhesion and durability). Other technologies, including electroplating and spraying, cannot compare to their performance. It can etch any imaginable design pattern and can be used for interior decoration or in outdoor applications with oxidation and corrosion resistance.
Resistance of PVD coating
PVD vacuum coating layers have corrosion resistance, chemical stability, and acid resistance. They exhibit excellent characteristics such as oxidation resistance, non-fading, retaining gloss, and leaving no traces in conventional indoor or outdoor environments. They remain undamaged under normal use, do not fade, and are easy to remove paint and ink. They maintain their gloss, resistance to oxidation, non-fading, non-peeling, and non-cracking even in intense sunlight, high-salt wetlands, and urban environments. PVD vacuum coatings offer a wide range of colors, smooth and delicate surfaces with a metallic luster that never fades. The coating remains unchanged and stable in harsh environments such as strong sunlight and humidity. It is highly wear-resistant, scratch-resistant, and not easily scratched. It can be applied to a wide range of materials and has strong adhesion to the substrate.
Environmentally friendly process
PVD high-vacuum ion plating technology is truly friendly to human beings and the ecological environment. It is increasingly applied in modern industrial manufacturing purposes.
Vacuum Electroplating(PVD) Process
On the automatic line
Substrate surface cleaning
Automatic electrostatic dust removal
Automatic surface primer spraying
Infrared (IR) drying
UV surface curing
Automatic electrostatic dust removal
Automatic surface primer spraying
Infrared (IR) drying
UV surface curing
Down the automatic line
Non-conductive vacuum feeding
Non-conductive equipment control system
Non-conductive vacuum coating in progress
Non-conductive coating unloading
Automatic spray painting and coloring
Downstream fixture
Non-conductive equipment control system
Non-conductive vacuum coating in progress
Non-conductive coating unloading
Automatic spray painting and coloring
Downstream fixture
Vacuum Electroplating(PVD) Equipment Showcase for Production
Vacuum Electroplating(PVD) Inspection Equipment Showcase
Vacuum Electroplating (PVD) Sample Case
Free Sample
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