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Home Product & Solutions Lithium-ion Battery Coating Technology Solution Precision Thin-Film Slot-Die Coating System Product Series

Precision Thin-Film Slot-Die Coating System

Solid-state electrolyte coating involves uniformly applying the electrolyte to both sides of the electrode sheet through a slot-die coating process. First, the electrolyte is coated onto the front side of the electrode sheet. The sheet then enters an oven for drying before undergoing inspection. Next, the electrolyte is applied to the reverse side of the electrode sheet. After the sheet enters the oven for a second round of drying, it is inspected again before finally being wound into rolls.

Electrolyte Transfer-Compaction Integrated Technology

The Electrolyte Hot Laminator is a core equipment in solid-state battery manufacturing, primarily used for precisely transferring the solid electrolyte layer onto electrode surfaces, enabling solvent-free lamination of multilayer battery structures. Its key technology lies in achieving interfacial bonding and densification of materials through a hot pressing process, which directly impacts the battery's ionic conductivity and interfacial stability. Additionally, the system integrates hot pressing and film cutting functions, enabling experimental validation for diverse process requirements.

Detailed Introduction

Product advantages

1. 3/6-inch inner diameter air shafts for unwinding/rewinding, 3 unwind / 3 rewind stations in terraced layout, gantry crane loading/unloading, minimized footprint.

2. Infrared preheating with flexible temperature control.

3. Transfer + compaction dual hot-roll design enabling multifunctional integration, reducing equipment quantity.

4. Full glovebox integration, explosion-proof sealed enclosure + H2O/O2 monitoring (≤0.1ppm), preventing toxic/combustible exposure of sulfide electrolytes to air.

Product Parameters

Machine roll width	350-1050mm
Transfer speed	≥50m/min
Hickness control accuracy	±1.5μm
Preheating temperature	30–80℃,Design temperature 150℃,Infrared preheating
Transfer roll temperature	Ambient–200°C, modular oil/electric heating options
Thickness control accuracy	±2μm

Glove Box Integration Technology

Glove box integration technology is a unified solution that deeply couples inert gas protective glove boxes with precision process equipment (e.g., atomic layer deposition, magnetron sputtering, coating systems) through a closed-loop purification cycle maintaining <1 ppm H₂O/O₂ contamination levels, providing anhydrous/oxygen-free operational space for atmosphere-sensitive processes including lithium battery material synthesis, solid-state electrolyte coating, OLED encapsulation, and catalytic material preparation;

Detailed Introduction

Product advantages

1.Ultra-low H₂O/O₂ Environment: The recirculating purification system stably maintains <1 ppm H₂O/O₂concentrations, preventing material oxidation/hydrolysis, thereby significantly improving product yield.

2.Equipment-Glove Box Integrated Design: Achieves ~30% footprint reduction compared to full-enclosure dry rooms with lower protective gas consumption.

3.Oven-Integrated Glove Box Architecture: Highly coupled with recovery systems and protective gas generation units; Features explosion-proof construction and enhanced hermeticity to ensure full inert gas protection during drying processes, enabling efficient solvent recovery with minimized inert gas loss.

Product Parameters

Structural Configuration	Chamber Material	SUS304 Stainless Steel (3mm thick)
Transfer Chamber Dimensions	Large Chamber: Ø600×600mm Small Chamber: Ø100×300mm
Glove Ports	Hard Aluminum Alloy, Supports Dual-Glove Operation:
Environment Control	Water Oxygen Content	<1 ppm

Electrolyte Release Film Coating Technology

Electrolyte Release Film Coating Technology, a critical process for high-end applications including new energy batteries (particularly solid-state/semi-solid-state batteries), optical films, and medical adhesive tapes, enables uniform deposition of functional coatings (e.g., ceramic electrolytes, silicone oil release layers) onto substrates (PET/PPS) via precision coating techniques, achieving high-uniformity/low-defect film production while resolving conventional pain points—poor uniformity, high contamination, limited adaptability—to meet emerging demands for solid-state battery electrolyte coating and hydrogen barrier membrane manufacturing.

Detailed Introduction

Product advantages

1.Cantilever-type unwinding/rewinding system positioned beneath the drying oven, achieving more compact machine structure suitable for compact drying rooms.

2.Corrosion/wear-resistant coating die head constructed with ZrO₂/Al₂O₃ full-ceramic material, resisting strong chemical corrosion from sulfide solid electrolytes, extending service life by 3×.

3.DD motor-driven coating backing roller with runout ≤1.5μm (laser measured).

4.Substrate/skeleton film pre-lamination coating enabling independent 1-60μm electrolyte film formation, preparing for subsequent transfer printing.

5.Multiprocess compatibility supporting slot die, micro-gravure, and smooth roll coating modes, adaptable to aqueous/oil-based/solvent-type slurries (viscosity 500-50,000 mPa·s).

Product Parameters

Coating Capability	Coating Width	100-1600 mm (customizable)
Coating Speed	0.5–100 m/min
Dry Film Thickness	1–60 μm
System Configuration	Coating Methods	Slot Die / Micro-gravure / Smooth Roll Coating

Integrated Feeding-Coating System

Integrated Feeding & Coating SystemDirect-coupled rigid tubing integrates tanks, pumps, filters, and dies to minimize connection distance, reduce pipeline residue, and decrease slurry loss in coating trials.

Detailed Introduction

Product advantages

1.The feeding system is highly integrated with the coating head to eliminate pipeline residue and reduce slurry waste (≥15% savings).

2.Modular structure enables rapid model changeover, compatible with various slurries (water-based/oil-based/solvent-based) and substrates (copper foil/aluminum foil/PET).

3.Slot die coating head maintains ±1μm accuracy with adjustable wet film thickness range of 5–500μm.

4.Low-residue pipeline design reduces cleaning solvent consumption by 40%.

5.Integrated rapid-change coating mechanism allows swift installation and changeover within ≤1h.

Product Parameters

Coating Width	Foil width ≤380mm, custom specifications supported
Primary Materials	Upper/Lower Dies: Zirconia (ZrO₂)，SUS304；-Liquid-contact structural parts: SUS304 stainless steel
Lip Straightness	0.004mm
Flow Path Flatness	0.004mm
Residual in Piping	1-2L

New Continuous Double-Layers Ceramic Coating Slot Die

As a precision slit extrusion wet coating technology, the new continuous double-layers coating slot die features a two-layer coating flow channel design, enabling simultaneous double-layers coating for continuous double-layers applications. Both the upper and middle layers of the slot die are equipped with electric actuators, allowing closed-loop regulation of transverse coating areal density.

Detailed Introduction

Product advantages

1.Process control visualisation and automation.

2.Includes TD and MD directional face density control software.

3.Bus interfaces require minimal wiring and offer rapid response times.

4.Optional wet film thickness measurement system.

5.Independent dispensing system available.

6.Optional feeding system.

7.Wear-resistant and corrosion-resistant.

8.High hardness, minimal deformation, and strong impact resistance.

Product Parameters

Adjustment Method	Fully automatic upper and lower	Material	Zirconia Ceramic
Cavity Structure	Single cavity (customizable)	Coating Method	Continuous
Flow Surface Flatness (µm/m)	≤3	Lip Straightness (µm)	≤3
Total Length L (mm)	≤1600 (customizable)	Width W (mm)	≤195 (customizable)
Lower Die Thickness H (mm)	≤70 (customizable)	Max. Coating Width (mm)	Customizable
Adjustment Pitch (mm)	45 (customizable)	Upper Layer Adjustment Accuracy (µm)	±1
Lower Layer Adjustment Accuracy (µm)	±1	Glue Dispensing Function	Yes
Place of Origin	Lu'an, Anhui

Fully Automatic Ceramic Coating Slot Die

The single-layer fully automatic coating slot die utilizes independently developed mass automatic closed-loop technology to achieve closed-loop control of coating areal density (both transverse and longitudinal) and coating dimensions (coating width and A/B side alignment). The closed-loop control system is integrated with dry/wet film areal density detection systems and CCD dimensional inspection systems at the data level. High-precision linear electric actuators are integrated into the coating slot die, enabling the automatic closed-loop system to collect and analyze the weight distribution and dimensional patterns of the coating in real time. This facilitates online automated adjustment of lithium battery electrode sheet quality.

Detailed Introduction

Product advantages

1.Quantifiable adjustment with wide operational range.

2.Customized lip geometry ensuring meniscus stabilization.

3.Configurable mounting interfaces supporting automation upgrades.

4.It is resistant to electrolyte corrosion, with high hardness, minimal deformation, and strong impact resistance.

5.Compared to metal dies, it offers stronger wear resistance and completely prevents the introduction of metal contaminants during coating.

6.Dual-layer co-coating capability enhances solid-state electrode production efficiency

Integrated slot-die valves enable contour coating, resolving low-efficiency printing at stacking section frames.

Product Parameters

Adjustment	Differential micrometer control	Material	Zirconia ceramic
Chamber Configuration	Single-cavity (configurable)	Coating Mode	Continuous & Intermittent
Total Length L	≤1600(configurable)	Max. Coating Width	configurable