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What Are the Main Blades Used in the Lithium Battery Industry?

Driven by the EV revolution and renewable energy storage demands, the lithium battery industry’s rapid growth hinges on precision manufacturing—with advanced blade technologies at its core. As a leading cemented carbide supplier, we dissect the key blade types shaping lithium battery production—from circular blades to saw blades—and how our carbide solutions enhance cutting efficiency and quality.

Content 隐藏

1 1. Lithium Battery Production: Blade Styles Matching Process Precision

2 2. 5 Core Blade Styles Driving Lithium Battery Manufacturing

2.1 a. Lithium Battery Slitting Circular Blades

2.2 b. Separator Cutting Composite Blades

2.3 c. Bipolar Plate PCD Saw Blades

2.4 d. Cell Dicing Ultra-thin Circular Blades

2.5 e. Gasket Cutting Die Blades

3 3. Technical Breakthroughs in Cemented Carbide Blade Styles

3.1 a. Micron-level Control for Circular Blades

3.2 b. Tooth Innovation for Saw Blades

3.3 c. Coating Adaptation to Blade Styles

4 4. Our Customized Blade Style Solutions

4.1 a. Style Development Process

4.2 b. Star Product Styles

5 5. Blade Style Selection Guide

5.1 a. Style Selection by Material

5.2 b. Style Selection by Efficiency

6 Conclusion: Style Drives Productivity—Cemented Carbide Shapes Cutting Future

1. Lithium Battery Production: Blade Styles Matching Process Precision

Lithium battery manufacturing imposes strict requirements on blade structures for different processes:

Foil slitting: Relies on high-speed circular blades for continuous cutting
Separator cutting: Adopts circular or straight blades with rolling processes
Bipolar plate machining: Utilizes saw blades or milling cutters for contouring
Cell dicing: Requires ultra-thin circular or laser blades for burr-free splitting
Precision Challenges: Some processes demand blade runout ≤1μm and edge radius ≤3μm

2. 5 Core Blade Styles Driving Lithium Battery Manufacturing

a. Lithium Battery Slitting Circular Blades

Style Features:

Structure: Φ100-300mm circular blades, 0.5-3mm thickness, axial runout ≤5μm
Edge Designs:
- Micro-serrated (tooth height 0.1-0.3mm): Ideal for 6-50μm ultra-thin foils, reducing tearing
- Mirror-polished: Suited for 50-200μm foils, surface roughness Ra<0.2μm
Installation: Multi-blade stacking with spacers for parallel cutting

Cemented Carbide Advantages:

UFG (WC-6%Co) circular blades achieve 93 HRA hardness, outlasting HSS blades by 40% at 1,200m/min
HIP-sintering ensures bending strength >3500MPa, preventing high-speed chipping

Case Study: CATL uses Φ200mm carbide circular blades to achieve 99.8% aluminum foil slitting yield

b. Separator Cutting Composite Blades

Style Combination:

Circular+Straight Blade Composite:
- Upper: Φ50-100mm cemented carbide circular blade (DLC-coated)
- Lower: Cemented carbide straight blade (TiAlN-coated edge)
Roll-cutting Process: 2-5° shear angle between blades reduces membrane stretching

Technical Parameters:

Blade Style	Separator Thickness	Cutting Speed	Burr Height
Diamond-coated circular	10-50μm	800m/min	≤5μm
Ceramic composite straight	50-150μm	500m/min	≤10μm

c. Bipolar Plate PCD Saw Blades

Innovative Design:

Ultra-thin Saw Blades: 0.3-0.8mm thickness, 20-40TPI tooth density
Tooth Structures:
- Alternate top bevel (ATB): For graphite-coated aluminum
- Flat tooth (FC): For titanium alloy bipolar plates
Cooling Design: 0.1mm micro-cooling grooves between teeth, 30% better heat dissipation

Lifespan Comparison:

Traditional carbide saw blades: >50μm wear after 500 cuts
PCD saw blades: <10μm wear after 5,000 cuts (10x improvement)

d. Cell Dicing Ultra-thin Circular Blades

Extreme Design:

Diameter: Φ30-80mm, thickness only 0.1-0.3mm
Edge Treatment:
- Laser-finished to radius ≤2μm
- TiCN coating for enhanced wear resistance
Dynamic Balance: G1 grade balance precision for 20,000rpm dicing

Applications:

Prismatic cells: Φ50mm blade cuts aluminum casings with chipping ≤50μm
Cylindrical cells: Φ30mm blade splits steel casings with verticality ≤0.01mm

e. Gasket Cutting Die Blades

Style Features:

Punching Die Blades:
- Carbide punch (edge R0.05mm)
- HSS die (hard chrome-plated surface)
Waterjet-assisted Blades:
- Tungsten carbide nozzle (0.1-0.3mm orifice)
- Combined with CNC 3-axis platform

Precision Metrics:

Punching die: Gasket dimensions ±0.02mm
Waterjet cutting: Complex curves ±0.05mm

3. Technical Breakthroughs in Cemented Carbide Blade Styles

a. Micron-level Control for Circular Blades

Wheel Dressing Technology: W1.5 ultra-fine diamond wheel ensures edge straightness ±1μm/100mm
Stress Relief Process: Vacuum annealing eliminates internal stress, keeping high-speed deformation <5μm

b. Tooth Innovation for Saw Blades

Variable Pitch Design: 1.5-2.5mm gradient pitch suppresses cutting resonance
Negative Rake Teeth: -5°~-10° rake angle enhances penetration into hard materials

c. Coating Adaptation to Blade Styles

Blade Style	Coating Type	Thickness	Friction Coefficient	Suitable Materials
Slitting circular	TiAlN	2-3μm	0.3-0.4	Copper/aluminum foil
PCD saw blade	DLC	1-2μm	0.1-0.2	Graphite composites
Separator straight	AlCrN	3-5μm	0.4-0.5	Polypropylene separators

4. Our Customized Blade Style Solutions

a. Style Development Process

Condition Analysis: Acquire material thickness, cutting speed, equipment parameters
3D Modeling: Design 3D blade models (including edge curves and cooling channels)
Simulation Verification: ANSYS simulation for stress distribution and thermal deformation
Sample Prototyping: 5-axis machining for precise style manufacturing

b. Star Product Styles

WC-10%Co Ultra-thin Circular Blade:
- Φ60mm diameter, 0.2mm thickness
- R0.03mm edge transition
- Suited for 15μm electrode slitting, burrs ≤3μm
PCD Bipolar Plate Saw Blade:
- Φ150mm diameter, 0.5mm thickness
- 24TPI variable pitch design
- Increases graphite plate machining to 20 pieces/min

5. Blade Style Selection Guide

a. Style Selection by Material

Copper/aluminum foil: Prioritize micro-serrated (6-50μm) or polished (50-200μm) circular blades
Separator: Composite circular+straight blades (10-150μm)
Bipolar plates: PCD saw blades (metal) or ceramic milling cutters (composites)

b. Style Selection by Efficiency

High-volume production: Multi-blade circular systems (parallel cutting)
Small-batch customization: Waterjet cutting (no mold costs)

Conclusion: Style Drives Productivity—Cemented Carbide Shapes Cutting Future

Every technological breakthrough in lithium battery manufacturing starts with blade style innovation. From micron-level circular blades to composite saw blades, [Kedel Carbide] leverages cemented carbide to provide end-to-end solutions from style design to mass production. Contact us today for customized blade style solutions, and let cutting precision become your core competitiveness!

Pub Time : 2025-07-14 11:10:29 >> News list

Contact Details

Chengdu Kedel Technology Co.,Ltd

Contact Person: Mrs. Lilian

Tel: +86 159 280 92745

Fax: 86-028-67230808

company news about What Are the Main Blades Used in the Lithium Battery Industry?

Cemented Carbide Tools

Cemented Carbide Nozzle

Tungsten Carbide Sleeves

Cemented Carbide Buttons

Tungsten Carbide Rods

Tungsten Carbide Plates

Tungsten Carbide Seal Ring

Tungsten Carbide Blades

Carbide Rotary Burr

Tungsten Carbide End Mill

Tungsten Carbide Brazed Tips

Tungsten Carbide Valve

Carbide CNC Inserts

Tungsten Carbide Wear Parts

Circular Slitting Knife