FirstMold 半标识

Physical Vapor Deposition (PVD)

PVD Process Workshop

What's PVD?

Physical Vapor Deposition (PVD) is a technology that, under vacuum conditions, uses physical methods to vaporize solid or liquid materials into gaseous atoms, molecules, or partially ionized ions. These are then deposited on the substrate surface through a low-pressure gas (or plasma) process to form a thin film with specific functions.

PVD technology can deposit not only metal films and alloy films but also compound films, ceramic films, semiconductor films, and polymer films. It is a relatively new surface treatment technology.

FirstMold utilizes PVD technology (through cooperative suppliers) primarily in the scenarios of plastic molds, die-casting molds, and CNC prototypes

Industry Applications

Application of PVD in the Field of Wearable Technology

Wearable Technology

Mobile Communications

Metal Jewelry

Application of PVD in the Field of Hardware Accessories

Hardware Accessories

Automotive Components

Application of PVD in the Medical Device Field

Medical Device

Mold Industry

Watch Industry

Advantages of Anodizing for Your Product

High Hardness

Nickel coating: 180HV
Aluminum: 100HV
Anodizing: 300HV
Chrome plating: 800HV
PVD: 1600HV

Excellent Adhesion

PVDed parts can be bent over 90 degrees without cracking or peeling superior to other techniques like electroplating and spraying.

Aesthetic Appeal

Coatings come in a variety of colors, are evenly and uniformly colored, have a smooth and delicate surface, possess metallic luster, and never fade

Durable Surface

Scratch-resistant, difficult to scratch, does not peel or crack easily. Corrosion-resistant, acid-resistant, and oxidation-resistant.

Environmentally Friendly

Although the production process emits waste gases that require filtration, it essentially falls within the category of green manufacturing.

Physical Vapor Deposition Price

PVD Process 说明 Price
Evaporation
Uses heating to vaporize the material, which then deposits onto the substrate forming a thin film.
$
Sputtering
Uses an ion beam to bombard the material, causing it to sputter and form a thin film on the substrate.
$
Ion Plating
Uses a high-energy ion beam to deposit material onto the substrate, often used for hard coatings.
$$
Arc PVD
Uses arc discharge to form a dense film on the substrate, often for decorative and functional coatings.
$$$
E-beam Evaporation
Uses an electron beam to heat the material, which then vaporizes and deposits onto the substrate.
$$
Ion Beam Assisted Deposition (IBAD)
Uses an ion beam to assist deposition, enhancing film adhesion and density.
$$
Chemical Vapor Deposition (CVD)
Uses chemical reactions to deposit a film on the substrate, often for semiconductor and optical applications.
$$$
Plasma Enhanced Chemical Vapor Deposition (PECVD)
Uses plasma to enhance the chemical vapor deposition process, improving film quality.
$$$
zh_CNZH