XN-FAS-100 slot-die extrusion film applicator with integrated doctor-blade coating, twin micrometer adjusters and SUS630 stainless steel die for battery electrode and OLED thin-film research

Slot-Die Extrusion Film Applicator XN-FAS-100 – Dual Slot-Die & Blade Coating, 100 mm Width, ≤4 μm Uniformity | Xnergy

Slot-Die Extrusion Film Applicator XN-FAS-100 — laboratory film applicator integrating slot-die extrusion coating and doctor-blade coating in a single device. Maximum coating width 100 mm (slot-die, customizable) / 150 mm (blade), film thickness uniformity ≤4 μm, die cavity 2.6 mL, thickness adjustment 1 μm per micrometer division. Built with SUS630 stainless steel die and blade for long service life. Compact benchtop design (~L180 × W110 × H110 mm, ~2 kg). Suitable for battery electrode coatings, OLED functional layers, photovoltaic materials, and advanced thin-film processes.

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Name: Slot-Die Extrusion Film Applicator XN-FAS-100

Equipment Type: Laboratory Slot-Die Extrusion Film Applicator with Integrated Doctor-Blade Coating

Product Code: XN-FAS-100

Product Introduction:

The Slot-Die Extrusion Film Applicator XN-FAS-100 is primarily used for surface film coating of sheet substrates. It integrates slot-die extrusion coating and doctor-blade coating functions into a single device. The system is suitable for a wide range of coating research applications, including battery electrode coatings, OLED functional layers, photovoltaic materials, and other advanced thin-film processes. As a result, the XN-FAS-100 enables uniform and controllable film formation with high coating precision.

Product Features:

  • Integrated design supporting both slot-die extrusion coating and blade coating processes
  • Slot-die extrusion coating provides excellent film uniformity and smooth surface quality
  • Compact structure with small footprint, suitable for laboratory benchtop use
  • Manufactured from high-quality corrosion-resistant materials (SUS630 stainless steel die and blade) for long service life
  • Precision mechanical adjustment enables accurate and repeatable coating control
  • Refined industrial design with simple operation and easy maintenance

Main Specifications:

Parameter Value
Equipment Type Slot-die extrusion film applicator with integrated blade coating
Extrusion Die Material SUS630 stainless steel
Film Thickness Uniformity Straightness deviation ≤ 4 μm
Die Cavity Volume 2.6 mL
Maximum Coating Width (Slot-Die) 100 mm (default slit opening width 100 mm, customizable)
Maximum Adjustment Height 5.5 mm
Thickness Adjustment Resolution Micrometer scale, 1 μm per division
Blade Material SUS630 stainless steel
Blade Flatness ≤ 4 μm
Blade Coating Width 150 mm
Overall Dimensions (L × W × H) Approx. 180 × 110 × 110 mm
Net Weight Approx. 2 kg

Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.

Two Coating Modes in One Device:

Coating Mode Maximum Coating Width Material
Slot-die extrusion coating 100 mm (customizable) SUS630 stainless steel
Doctor-blade coating 150 mm SUS630 stainless steel

Application Areas:

  • Battery electrode coatings — slot-die extrusion or blade coating for laboratory cell development
  • OLED functional layers — uniform thin-film deposition for organic electronics research
  • Photovoltaic materials — functional layer preparation for solar cell research
  • Advanced thin-film processes — laboratory-scale deposition of functional thin films
  • Coating research where uniform film formation and high coating precision are required

About SUS630 Stainless Steel:

SUS630 is a precipitation-hardening martensitic stainless steel (also known as 17-4 PH) widely used in precision tooling and laboratory equipment that require both corrosion resistance and high mechanical strength. The XN-FAS-100 uses SUS630 for both the extrusion die and the blade, providing tight dimensional tolerance over long service life and compatibility with a wide range of coating formulations.

Recommended Operating Procedure (Slot-Die Extrusion Mode):

1. Clean the extrusion die cavity, slit opening, and feed inlet with appropriate solvent (water or NMP, depending on the slurry system used) before each use; dry thoroughly. 2. Use the twin micrometer adjustment screws to set the target slit gap; ensure both micrometers are set to the same height for uniform film thickness across the coating width. 3. Place the substrate on a flat coating plate or on the vacuum coating plate of an automatic film coater. 4. Position the slot-die applicator on the substrate at the starting edge. 5. Load the coating slurry into the die cavity (cavity volume 2.6 mL); for larger volumes, use the inlet feed port for continuous supply. 6. Draw the applicator across the substrate at a steady, controlled speed to extrude the slurry through the slit and form the wet film. 7. Allow the coated film to flow out and self-level if required by the slurry rheology, then transfer the substrate for downstream drying.

Recommended Operating Procedure (Doctor-Blade Mode):

1. Clean the blade and adjustment surfaces with appropriate solvent before each use; dry thoroughly. 2. Use the micrometer adjustment to set the target wet film thickness; the maximum adjustment height is 5.5 mm with 1 μm resolution. 3. Place the substrate on a flat coating plate or on the vacuum coating plate of an automatic film coater. 4. Position the applicator on the substrate at the starting edge. 5. Load the coating slurry in front of the blade. 6. Draw the applicator across the substrate at a steady, controlled speed to produce the wet film. 7. Transfer the substrate for downstream drying.

Packaging & Storage:

The XN-FAS-100 ships fully assembled with the SUS630 extrusion die, SUS630 blade, twin micrometer adjustment screws, and integrated mounting frame. Store on a clean laboratory bench or in a protective case in a dry environment, away from heat sources, direct sunlight, and corrosive atmospheres. After each use, clean the die cavity, slit opening, and blade thoroughly with appropriate solvent and dry before storage to prevent slurry buildup that could affect future film thickness uniformity. Inspect the micrometer adjustment screws and blade edge periodically for wear or contamination.

Safety:

For research and industrial laboratory use only. Always wear appropriate PPE (safety glasses, chemical-resistant gloves, lab coat) when handling slurries, solvents, and coated substrates. When working with NMP-based slurries or other regulated solvents, operate in a well-ventilated fume hood and follow local regulations on solvent use and recovery. Handle the applicator carefully — the precision blade edge and slit opening can be damaged by impact or improper cleaning, affecting future film thickness uniformity. Refer to the included user manual for complete safety and operating instructions.

Note: Specifications listed above are typical and for reference only. Actual performance depends on the specific slurry chemistry, substrate type, applicator drawing speed, and ambient operating conditions — consult published literature and our technical team for guidance on specific coating protocols. The XN-FAS-100 is a manual film applicator without an integrated drive system; for automated coating workflows, see the XN-VC-300 Automatic Film Coater or the XN-VCH-300 Automatic Film Coater with Integrated Drying System. For simpler doctor-blade-only coating, see also the XN-FAT-100 Adjustable Film Applicator. For researchers exploring complete lithium-ion battery electrode preparation workflows, see also Xnergy’s related products: Planetary Vacuum Mixer for Mixing Electrode Powders, Three-Door Vacuum Drying Oven (XN-DVO-3), and the full Coating equipment category, Drying equipment category, Calendaring equipment category, and Slitting & Die Cutting equipment category. For complete electrode formulation systems, see also Cathode Materials, Anode Materials, Binders, and Current Collectors.

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