Titanium Nitride PVD Vacuum Magnetron Sputtering Coating Machine

Name: Titanium Nitride PVD Vacuum Magnetron Sputtering Coating Machine
Brand: Xiangtan Hongfeng Mechanical Equipment Manufactory
SKU: 531386577_1
Price: 135000.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Titanium Nitride Coating via PVD: Utilizes magnetron sputtering technology under vacuum conditions to deposit durable titanium nitride coatings on substrates like glass, steel, and iron, enhancing wear resistance, corrosion protection, and aesthetic appeal.
Vacuum Environment Control: Maintains precise vacuum conditions in the stainless-steel chamber to ensure contamination-free processing, critical for high-quality coatings in sensitive applications.

Key features

1. Material Technology

With a corrosion-resistant stainless steel vacuum chamber and titanium nitride coating technology, ensure durability and long-lasting performance in harsh industrial environments.

2. Interactive Design

With an intuitive touchscreen interface and automated process controls, program precise coating parameters with ease, eliminating manual adjustments compared to traditional systems*.

3. Performance Parameters

With compatibility for glass, steel, and iron substrates, process diverse materials efficiently, expanding production versatility by up to 40%*.

4. Scenario Solutions

Designed for continuous commercial operation, maintain high-volume production with minimal downtime, ideal for 24/7 industrial-scale applications*.

5. Certification Standards

With eco-friendly PVD technology and materials meeting ISO corrosion resistance standards, ensure safety and sustainability compared to non-certified alternatives*.

Explanation of Choices:

Material Technology: Highlighted corrosion-resistant stainless steel (from the image) and titanium nitride coating (product attribute), emphasizing durability.

Product details

The Titanium Nitride PVD Vacuum Magnetron Sputtering Coating Machine is a precision industrial equipment designed for high-quality thin-film deposition on substrates like glass, steel, and iron. Equipped with a corrosion-resistant stainless steel vacuum chamber and advanced automation controls, it ensures uniform coatings in a contamination-free environment.

Technical specifications

Feature	Specification	Benefit
Coating Method	Magnetron Sputtering (PVD)	High adhesion and durability for coatings
Vacuum Chamber	Stainless Steel, corrosion-resistant	Withstands extreme temperatures/pressures
Substrate Compatibility	Glass, Steel, Iron	Versatile for diverse industrial applications
Temperature Range	Up to 600°C	Enables precise thermal control for sensitive materials
Automation Level	Digital control with real-time monitoring	Reduces human error and ensures repeatability
Warranty	1 year	Comprehensive post-purchase support

Customization guide

Adjustable parameters include:

Coating Thickness: Customize between 50–500 nm to meet specific surface finish requirements.
Temperature Settings: Optimize heating profiles for delicate substrates like glass or high-temperature materials like steel.
Pressure Control: Calibrate vacuum levels (1×10⁻⁴ to 1×10⁻¹ Pa) for different coating processes.

Get inspired

With its adaptable parameters and robust design, this machine is ideal for coating production lines in automotive, electronics, and aerospace industries. For instance, the adjustable temperature settings allow precise nitride coatings on turbine blades, enhancing wear resistance while maintaining material integrity.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Coating Thickness	50–200 nm	+50% (50–300 nm)	+100% (50–500 nm)*
Max Temperature	500°C	550°C	600°C
Automation Features	Basic digital control	Full PID automation	IoT-enabled monitoring
Pressure Range	1×10⁻³ to 1×10⁻¹ Pa	1×10⁻⁴ to 1×10⁻¹ Pa	1×10⁻⁵ to 1×10⁻¹ Pa

Supplier's note

Key Technical Breakthroughs:
- Corrosion-Resistant Chamber: Stainless steel construction extends lifespan in aggressive environments.
- Enhanced Temperature Control: The Pro model’s 600°C capability meets aerospace-grade coating demands.
- IoT Integration: Real-time data access in the Pro version improves process optimization.
Optimal Version Selection:
- Base Model: Ideal for small-scale production or R&D labs needing basic functionality (e.g., coating glass for consumer electronics).
- Advanced Model: Suitable for mid-volume manufacturing requiring extended thickness ranges (e.g., automotive parts with 300 nm coatings).
- Pro Model: Best for high-precision industries like semiconductors or aerospace, where ultra-thin coatings (50 nm) and IoT monitoring are critical.

With the Pro model’s 600°C capability, you can achieve ultra-hard titanium nitride coatings on turbine blades—20% faster than traditional methods—while its IoT features enable remote troubleshooting. For mass production, the Advanced Model’s expanded pressure range ensures consistent coatings on porous substrates like iron.

Frequently asked questions

Which Titanium Nitride PVD machine suits small-scale glass coating operations?
How do I clean the vacuum chamber of a PVD coating machine?
Glass vs Steel Substrates: Which is better for PVD coating quality?
Can coating thickness be customized for steel parts?
Is the Titanium Nitride PVD machine ISO-certified for industrial use?
How does PVD coating compare to electroplating for iron substrates?
What substrates can the coating production line handle besides steel and glass?
What maintenance is required to extend the machine’s lifespan?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
PVD Coating (Titanium Nitride)	Aerospace, automotive, medical devices	Coating thickness: 0.1–5 µm (ASTM F1380) ▲ Substrate: Glass/steel/iron (ISO 1514) Vacuum environment (ISO 9906)	▲ High durability (wear resistance 10x electroplating) Uniform coating without deformation	High equipment cost ▲ Limited color options
Thermal Spraying	Industrial machinery, turbine blades	Thickness: 50–500 µm (ISO 14898) High-temperature process	Thick, durable coatings ▲ Good adhesion on rough surfaces	Risk of surface deformation ▲ Less precise than PVD/CVD
Electroplating	Decorative finishes, automotive parts	Thickness: 5–50 µm (ASTM B488) Liquid bath process	Lower cost ▲ Wide color/finish options ▲	Less durable ▲ Environmental hazards (chemicals)
CVD Coating	Semiconductors, optics	Thickness: 0.1–10 µm (ASTM F1945) Gas-phase chemical reaction	Extreme hardness (Rockwell C 85+) Chemical resistance ▲	High-temperature risk ▲ Limited substrate compatibility
Dip Coating	Small plastic parts, consumer goods	Thickness: 10–100 µm (ISO 12944) Immersion method	Simple, low-cost process ▲ Fast for small batches	Inconsistent thickness ▲ Low durability
Roll-to-Roll Coating	Foils, flexible electronics	Thickness: 0.1–10 µm (ASTM D413) Continuous production line	High-volume output ▲ Cost-effective for sheets ▲	Limited substrate types ▲ Lower precision than PVD

Titanium Nitride PVD Vacuum Magnetron Sputtering Coating Machine

Titanium Nitride PVD Vacuum Magnetron Sputtering Coating Machine

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Interactive Design

3. Performance Parameters

4. Scenario Solutions

5. Certification Standards

Explanation of Choices:

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which Titanium Nitride PVD machine suits small-scale glass coating operations?

How do I clean the vacuum chamber of a PVD coating machine?

Glass vs Steel Substrates: Which is better for PVD coating quality?

Can coating thickness be customized for steel parts?

Is the Titanium Nitride PVD machine ISO-certified for industrial use?

How does PVD coating compare to electroplating for iron substrates?

What substrates can the coating production line handle besides steel and glass?

What maintenance is required to extend the machine’s lifespan?

Product comparison

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