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What is 316SS Coin Cell Battery Spacer?
316SS Coin Cell Battery Spacer is a stainless steel component used in coin cell battery assembly, specifically for CR2032, CR2025, and similar battery types. These spacers ensure uniform pressure distribution, enhancing battery performance and longevity in electronic applications.
Chemical Properties and CAS Number
- Material: 316 Stainless Steel (316SS)
- CAS Number: N/A (Custom Component)
- Appearance: Silver metallic disc
- Density: ~8.0 g/cm³
- Corrosion Resistance: High, due to molybdenum content
- Conductivity: Good electrical and thermal conductivity
- Dimensions: Typically 15-20 mm diameter, 0.1-1 mm thickness
Applications of 316SS Coin Cell Battery Spacer
1. Lithium-Ion Coin Cell Battery Assembly
Used in coin cell fabrication to improve electrical contact and stability in CR2032, CR2025, and other button cells.
2. Wearable Electronics
Integrated into smartwatches, fitness trackers, and other compact battery-powered devices for long-lasting performance.
3. Medical and Healthcare Devices
Utilized in glucose monitors, hearing aids, and biomedical implants requiring reliable energy storage components.
4. Research and Development
Employed in laboratory-scale battery experiments and electrochemical testing for energy storage innovations.
5. IoT and Low-Power Devices
Used in IoT sensors and remote monitoring systems for stable and efficient power delivery.
Pricing of 316SS Coin Cell Battery Spacer
Pricing varies based on thickness, quantity, and manufacturing precision:
- Standard Grade: Typically ranges from $0.20 – $1.00 per unit
- High-Precision Custom Grade: Prices range from $1.00 – $5.00 per unit, depending on size and application.
Factors Influencing Pricing
- Material composition and thickness
- Bulk purchasing volume
- Manufacturing precision and customization
- Market demand from battery, medical, and IoT industries
Conclusion
316SS Coin Cell Battery Spacers are essential components in battery assembly, ensuring stable energy output and long-lasting performance. Their corrosion resistance and high conductivity make them ideal for various electronic and biomedical applications.