Vacuum Chrome Machine Alloy Wheels PVD Equipment

Name: Vacuum Chrome Machine Alloy Wheels PVD Equipment
Brand: Xiangtan Hongfeng Mechanical Equipment Manufactory
SKU: 60219508102_1
Price: 48000.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Vacuum PVD Coating: Enables durable, decorative chrome coatings on substrates like alloy wheels, aluminum, steel, and stainless steel through precise vapor deposition.
Multi-Substrate Compatibility: Designed to process diverse materials, supporting applications such as automotive parts, industrial components, and decorative items.

Key features

1. Corrosion-Resistant Stainless Steel Construction

With corrosion-resistant stainless steel construction, ensure long-term durability in industrial environments. Outlasting traditional models by up to 50% in harsh conditions*

2. Intuitive Digital Control Panel

With an intuitive digital control panel, adjust parameters like temperature and pressure with precision. Setup is 20% faster than manual systems*

3. Multi-Material Compatibility

With compatibility for aluminum, alloy, steel, and stainless steel substrates, expand material versatility. Supports 40% more materials than standard coating systems*

4. High-Capacity Industrial Performance

Designed for automotive alloy wheel coating, achieve uniform finishes for large-scale production. Handles 50% more output than compact models*

5. Industrial-Grade Safety Compliance

Certified to industrial safety standards, ensuring reliable operation in commercial settings. Meets 30% stricter safety regulations than basic models*

Product details

The Vacuum Chrome Machine Alloy Wheels PVD Equipment is a high-performance industrial system designed for precise vacuum deposition coating on metals like aluminum, alloy, steel, and stainless steel. Built with robust stainless steel construction and a rotating substrate platform, it ensures uniform coating and efficient processing. The intuitive control panel enables precise parameter adjustments, making it ideal for alloy wheel finishing, medical devices, and electronics manufacturing.

Technical specifications

Feature	Specification	Application Scenario
Coating Method	Physical Vapor Deposition (PVD)	Chrome plating for automotive parts
Substrate Materials	Aluminum, Alloy, Steel, Stainless Steel	Coating for corrosion-resistant surfaces
Temperature Range	150°C to 500°C	High-temperature alloy wheel processing
Coating Thickness	0.1–10 µm adjustable	Customized finishes for optical devices
Automation Level	Manual operation	Small-batch production or R&D prototyping
Warranty	1 year	Comprehensive post-purchase support

Customization guide

Adjustable parameters such as coating thickness (0.1–10 µm), temperature (150–500°C), and substrate rotation speed allow customization to meet specific requirements. For example, reducing thickness to 1–2 µm enhances lightweight applications like aerospace components, while higher temperatures improve adhesion for heavy-duty machinery parts.

Get inspired

With its PVD technology, this machine delivers ultra-durable, scratch-resistant coatings for automotive alloy wheels. The rotating platform ensures even coverage, ideal for large-scale production. Whether you’re finishing medical instruments or creating decorative surfaces, this system adapts to your precision needs.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Coating Thickness Accuracy	±2 µm	±0.5 µm (20% better)	±0.1 µm (industry-leading)
Substrate Capacity	1–3 pieces/cycle	5–8 pieces/cycle	10–15 pieces/cycle
Temperature Stability	±10°C	±3°C	±1°C
Automation	Manual	Semi-automated	Fully automated

Supplier's note

Breakthrough Features:
- Stainless Steel Construction: Withstands harsh industrial environments, reducing downtime by 30% compared to plastic-coated systems.
- Precision Temperature Control: ±1°C stability in the Pro Model ensures consistent coatings for aerospace-grade components.
- Rotating Platform Design: Handles 15 substrates/cycle, doubling production efficiency over static systems.
Optimal Version Selection:
- Base Model: Ideal for small workshops or R&D labs prioritizing manual control and budget constraints.
- Advanced Model: Best for medium-scale manufacturers needing semi-automation and higher precision (e.g., medical device coating).
- Pro Model: Suited for large industrial facilities requiring high-volume, ultra-precise coatings (e.g., automotive alloy wheel production). With its ±0.1 µm accuracy, it guarantees flawless finishes for luxury automotive parts.

Frequently asked questions

Which vacuum chrome machine suits automotive alloy wheels for high-volume production?
How to clean the interior of a vacuum coating machine after coating steel substrates?
Aluminum vs. Stainless Steel Substrates: Which is better for PVD coating on alloy wheels?
Can this vacuum chrome machine customize coating thickness for manual alloy wheel production?
Is the PVD coating on alloy wheels FDA-approved for medical device components?
How often should the control panel of a vacuum deposition system be calibrated?
What certifications does the vacuum chrome machine for alloy wheels comply with?
Can the PVD coating production line integrate with existing automotive coating systems?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Material Compatibility	Automotive/Industrial Coatings	Supports 5+ substrates (Aluminum, Alloy, Steel, Stainless Steel, Titanium) ▲▲	▲▲ Industry Standard: 3 substrates (ASTM A380 compliant) ▲ Our Base: 4 substrates	Limited to base materials in Industry Standard; Advanced version requires specialized training for exotic substrates
Coating Precision	Electronics/Optics Manufacturing	±0.1μm thickness control (ISO 3611 verified) ▲▲	▲▲ Industry Standard: ±1.5μm ▲ Our Base: ±0.5μm	Advanced precision increases production time by 20% vs. Industry Standard
Operational Efficiency	High-Volume Production Lines	8-hour continuous runtime (IEC 60204 certified) ▲	▲▲ Industry Standard: 4 hours ▲ Our Base: 6 hours	Manual operation in Base tier reduces scalability for large factories
Durability	Harsh Industrial Environments	Stainless Steel Grade 316 (ASTM A276) ▲▲	▲▲ Industry Standard: Mild Steel ▲ Our Base: Stainless Steel 304	Advanced-grade steel increases equipment cost by 30%
Customization	R&D/Prototype Labs	12 customizable ports for gas/temperature control ▲▲	▲▲ Industry Standard: 4 ports ▲ Our Base: 8 ports	Advanced ports require proprietary software for setup
Cost-Effectiveness	SME Manufacturing Shops	$58,000 (includes 1-year warranty) vs. Industry Standard $72,000 ▲	▲▲ Industry Standard: $72k ▲ Our Base: $65k	Advanced tier lacks ROI for low-volume production (<500 units/month)

Vacuum Chrome Machine Alloy Wheels PVD Equipment

Vacuum Chrome Machine Alloy Wheels PVD Equipment

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Stainless Steel Construction

2. Intuitive Digital Control Panel

3. Multi-Material Compatibility

4. High-Capacity Industrial Performance

5. Industrial-Grade Safety Compliance

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which vacuum chrome machine suits automotive alloy wheels for high-volume production?

How to clean the interior of a vacuum coating machine after coating steel substrates?

Aluminum vs. Stainless Steel Substrates: Which is better for PVD coating on alloy wheels?

Can this vacuum chrome machine customize coating thickness for manual alloy wheel production?

Is the PVD coating on alloy wheels FDA-approved for medical device components?

How often should the control panel of a vacuum deposition system be calibrated?

What certifications does the vacuum chrome machine for alloy wheels comply with?

Can the PVD coating production line integrate with existing automotive coating systems?

Product comparison

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