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Continuous Roll To Roll Copper Foil Coating Plastic Film Metallizing Roll To Roll Vacuum Coating Machine Manufacturer
| Lugar de origem | Guangdong |
| Marca | Lion King |
| Certificação | CE |
Continuous Roll to Roll Metallizing Machine
,High Speed Roll To Roll Vacuum Coating Machine
Touch panel and optical coating:
Applied for the glass and flexible substrate used for display, touch panel, optical coating and OGS key parts and process.
Satisfy the requirements of the cell phone, tablet, laptop and large-area TV.
Anti-reflection (AR coating): 2AR, 4AR, 6AR
Index matching+ITO(IMITO)
SiO2+ITO film
Mo/Al/Mo film
ITO film
Solar Cell
Delivered 3GW a-si PVD
CIGS: Mo, CuGa, In, AZO, ZnO
a-Si/u-Si: Al, ZO,Ag, NiCr
HIT: ITO,Ag, Cu
Gereral Specification
Chamber material: stainless steel (SUS304)
Main pump: Dry pump or rotary pump, Turbo molecular pump (TMP), Cryogenic pump, Diffusion pump etc.
Ultimate pressure: less than 1.07*10-4 Pa/24h@Empty, cleaning
Leak rate: less than 1.33*10-7 Pa, L/sec with He leakage detector
Winding speed: 0.01~6.00m/min
Target: Metal: Al, Cr, Ni, Mo, Au etc.
Oxide: ITO, SiO2, TiO2, etc.
Substrate: Film (PET, PI, PC), Metal strip, flexible glass, plastic, texitile etc.
Adhesion: 100% (tape test)
Thickness uniformity less than +-5% in effective area
Control system: HMI control (PLC+PC base), selection function (manual/auto/semi auto), data feedback & real time display function.
- Substrates: Handles flexible, roll-form materials including:
Polymers: PET, PP, PVC, PEN (thickness: 8–100 μm)
Metals: Aluminum foil, copper foil (thickness: 5–50 μm)
Composites: Carbon fiber-reinforced polymer (CFRP) tapes, glass fiber fabrics
Silver:
Materials: Aluminum (Al) film (thickness: 50–100 nm) or silver (Ag) film (20–50 nm).
Features: High reflectivity (>85% for visible light), bright metallic sheen. Al is cost-effective; Ag offers higher reflectivity (used for high-end applications like LED reflectors).
Applications: Food packaging (metallic PET films), decorative labels, automotive interior trims.
Gold/Bronze:
Materials: Titanium nitride (TiN, 50–80 nm) or alloy films (Al-Cu, Al-Zn).
Features: TiN films exhibit a gold color (due to interband transitions in the material); Al-Cu alloys produce bronze hues (Cu content: 5–15%).
Applications: Decorative hardware (door handles, watch cases), electronic connectors (gold-plated Cu foils for corrosion resistance).
Copper-Red:
Materials: Pure copper (Cu) film (30–60 nm).
Features: Natural reddish metallic color, high electrical conductivity. Susceptible to oxidation (requires a protective topcoat like SiO₂).
Applications: Flexible circuit boards (Cu-coated PET), decorative crafts.
Clear (Colorless):
Materials: SiO₂ (50–200 nm), Al₂O₃ (30–100 nm), ITO (100–200 nm).
Features: High light transmittance (>85% for visible light); SiO₂/Al₂O₃ act as moisture barriers; ITO combines transparency with conductivity.
Applications: Touchscreen glass (ITO coatings), food packaging (clear barrier films), solar cell covers (anti-reflective SiO₂).
Tinted (Blue/Green):
Materials: Metal oxide films with controlled thickness (e.g., TiO₂-SiO₂ multi-layers, 100–300 nm).
Features: Color arises from light interference—thinner films (100–150 nm) appear blue; thicker films (200–300 nm) appear green.
Applications: Optical filters (camera lenses), architectural glass (heat-reflective tinted films).
Rainbow Iridescence:
Materials: Multi-layer films (e.g., SiO₂-TiO₂-SiO₂, each layer 50–100 nm thick).
Features: Light interference across different layers produces a shifting rainbow effect (angle-dependent color).
Applications: Cosmetics packaging, security labels (anti-counterfeiting), decorative textiles.
Matte Metallic:
Materials: Metallic films (Al/Ag) with a micro-rough surface (achieved via substrate texturing or post-deposition etching).
Features: Dull metallic finish (gloss level: 10–30 GU) with reduced reflection, avoiding glare.
Applications: Automotive instrument panels, smartphone back covers (matte silver).
Products: Metalized PET/PP films (for food packaging), barrier films (for pharmaceuticals), decorative packaging films.
Key Requirements: Oxygen transmission rate (OTR) <1 cc/(m²·day), moisture vapor transmission rate (MVTR) <0.1 g/(m²·day) (to extend shelf life).
Example: Flexible food pouches (e.g., coffee, snacks) use Al-metallized PET films (50 nm Al layer) to block oxygen and light—extending product shelf life from 3 months to 12+ months. R2R machines produce these films at 15–20 m/min.
Products: Flexible circuit boards (Cu-coated PET/PEN), transparent conductive films (ITO/PEDOT:PSS), RFID antennas (Al/Ag-coated films).
Key Requirements: High conductivity (Cu films: <5 Ω/sq), film flexibility (10,000+ bending cycles without cracking), low defect rate.
Example: Foldable smartphone displays use Ag nanowire-coated PET films (deposited via R2R magnetron sputtering) — these films maintain 90% conductivity after 100,000 folding cycles (radius: 1 mm).
Products: Solar cell films (SiNₓ passivation layers, anti-reflective SiO₂ films), fuel cell gas diffusion layers (GDLs with Pt coatings), lithium-ion battery current collectors (Al/Cu foils with anti-corrosion coatings).
Key Requirements: High light transmittance (SiO₂ films: >95% for 400–800 nm), corrosion resistance (battery foils: <0.1 mm/year in electrolyte).
Example: Thin-film solar panels use R2R PECVD to deposit SiNₓ layers (100–150 nm) on flexible glass substrates—improving cell efficiency by 2–3% via reduced surface recombination.
Products: Anti-reflective (AR) films (for eyeglasses, screens), polarizing films (for LCD displays), LED reflectors (Ag-coated films).
Key Requirements: AR films: <1% reflectivity (visible light); polarizing films: >99% polarization efficiency.
Example: Laptop screens use multi-layer AR films (SiO₂-TiO₂, deposited via R2R thermal evaporation) — reducing glare from 8% to <1%, improving user comfort.
Products: Anti-UV textiles (TiO₂-coated fabrics), conductive textiles (Ag-coated non-wovens), self-cleaning fabrics (TiO₂-coated cotton).
Key Requirements: Wash durability (50+ washes without film peeling), flexibility (compatible with fabric stretching).
Non-Stop Operation: Unlike batch-type vacuum coaters (which require loading/unloading between batches), R2R systems enable 24/7 continuous production. For example, a 1.3 m-wide R2R machine can produce 50,000 m of metalized PET film (used for food packaging) per 8-hour shift—3–5x more efficient than batch systems.
Scalable Web Width: Industrial models support web widths from 0.5 m (lab-scale) to 2.5 m (large-format applications like solar panels), adapting to both R&D and mass production needs.
Dimensional Precision: Vacuum deposition minimizes air molecule interference, achieving film thickness uniformity of ±1–3% (vs. ±5–10% for atmospheric coating). For transparent conductive films (e.g., ITO), sheet resistance variation is <5% across the entire web.
Low Defect Rate: In-vacuum pre-treatment and closed-loop tension control reduce film defects (pinholes, scratches, bubbles) to <0.1 defects per m²—critical for electronics and optical applications.
Substrates: Handles flexible, roll-form materials including:
Polymers: PET, PP, PVC, PEN (thickness: 8–100 μm)
Metals: Aluminum foil, copper foil (thickness: 5–50 μm)
Composites: Carbon fiber-reinforced polymer (CFRP) tapes, glass fiber fabrics
Coating Materials: Supports metals (Al, Ag, Cu, Au), metal oxides (SiO₂, TiO₂, ITO), nitrides (SiNₓ, TiN), and organic films (polymer barriers via PECVD)—covering functional needs from conductivity to corrosion resistance.
Vacuum System Optimization: Turbo-molecular pumps (energy consumption: 0.5–2 kW) replace traditional diffusion pumps (5–10 kW), reducing energy use by 60–70%. Heat recovery from cooling systems further cuts energy costs.
Material Utilization: Magnetron sputtering achieves 70–90% target material utilization (vs. 40–60% for thermal evaporation), lowering raw material waste. For high-cost materials (e.g., silver), this translates to 30%+ cost savings.
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