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contact us
- If you have questions, please contact us, all questions will be answered
- WhatsApp : +86 18659217588
- Email : David@tmaxcn.com
- Email : Davidtmaxcn@gmail.com
- Add : No. 39, Xinchang Road, Xinyang, Haicang Dist., Xiamen, Fujian, China (Mainland)
Dual-Source Vacuum Deposition Coating System Evaporation Coater
Model Number:
TMAX-BY-ZD04Input Power:
2000WCompliance:
CE CertifiedWarranty:
One Year limited warranty with lifetime supportShipping Port:
XiamenMOQ:
1Payment:
L/C D/A D/P T/T Western UnionDelivery Time:
5 days
- WhatsApp : +86 18659217588
- Email : David@tmaxcn.com
- Email : Davidtmaxcn@gmail.com
- Wechat : 18659217588
Previous:
Thermal Evaporation Physical Vapor Deposition Equipment For Metal Conductive FilmNext:
PVD Thin Film Deposition Coating Machine System For Metals And Organics
Dual-Source Vacuum Deposition Coating System Evaporation Coater
TMAX-BY-ZD04-Dual-Source Vacuum Deposition
Technical Specifications
Parameter |
Specification |
Model |
TMAX-BY-ZD04 |
Coating Method |
Multi-source metal evaporation |
Vacuum Chamber |
Glass bell jar + stainless steel base |
Chamber Dimensions |
Φ300mm × H360mm |
Substrate Heating |
Room temperature ~ 250°C |
Substrate Size |
Φ100mm |
Film Uniformity |
≤ ±5.0% (within Φ80mm area) |
Evaporation Sources |
2 independent metal sources |
Control System |
PLC + touchscreen interface |
Footprint |
L1100mm × W800mm (main unit) |
Power Requirement |
≥ 5kW |
Key Features & Competitive Analysis
1. Compact & High Cost-Performance
· Compared to larger industrial systems, the ZHD300 offers a space-saving integrated design, making it ideal for labs with limited space.
· Lower operational costs due to efficient power usage and minimal maintenance needs.
2. Dual-Source Deposition Flexibility
· Many basic models offer only single-source evaporation, limiting material options. The ZHD300’s dual-source configuration enables:
o Co-evaporation: Producing alloy or doped films (e.g., metal-oxide composites).
o Sequential evaporation: Depositing multilayer structures (e.g., electrode/interlayer/active layers for solar cells).
· Superior to thermal evaporation-only systems, as it supports both organic and inorganic materials.
3. Precision & Reproducibility
· ±5% thickness uniformity outperforms many entry-level systems (typically ±8–10%), ensuring research-grade consistency.
· PLC-controlled deposition reduces human error vs. manual systems.
4. Glove-Box Compatibility
· Unlike conventional stand-alone coaters, the ZHD300 can be integrated with glove-box workflows, critical for:
o Air-sensitive materials (e.g., perovskites, OLED emitters).
o In-line encapsulation, reducing contamination risks.
Target Applications vs. Alternatives
Application |
Advantage |
Alternatives |
R&D on Solar Cells |
Dual-source for graded/stacked layers |
Single-source systems lack compositional control |
OLED/Thin-Film Research |
Organic-Inorganic compatibility |
Dedicated organic evaporators (higher cost) |
Pilot Production Trials |
High uniformity meets pre-production standards |
Industrial systems (over-sized for labs) |
Conclusion: Ideal for Innovators
The TMAX-BY-ZD04 bridges the gap between basic lab tools and industrial coaters, offering:
✔ Research versatility – Thin-film exploration with multi-material capability.
✔ Process reliability – Repeatable results for scalable R&D.
✔ Future-ready design – Glove-box integration for next-gen optoelectronics.
Engineered for advanced materials science, where precision meets adaptability.
+86 13174506016
David@tmaxcn.com
