This 304 Stainless Steel Wave Spring (Belleville Washer) is designed for CR2032 coin cell battery applications, providing optimal compression, contact stability, and mechanical reliability. With a 15.4mm diameter, 0.2mm thickness, and a height of 1.2mm (±0.03mm tolerance), this wave spring is essential for ensuring consistent pressure in battery assemblies.
Made from high-quality 304 stainless steel (304SS), it offers excellent corrosion resistance, durability, and high-temperature stability, making it suitable for long-term use in battery research, electronic components, and energy storage applications. The Belleville washer design provides uniform force distribution, improving electrical contact and mechanical integrity in coin cell configurations.
Key Features:
✅ Precision-Engineered for CR2032 Coin Cells – Ensures secure contact and compression in battery assembly.
✅ High-Quality 304 Stainless Steel (304SS) – Offers superior corrosion resistance, strength, and longevity.
✅ Wave Spring (Belleville Washer) Design – Provides consistent force distribution and improved battery performance.
✅ Standardized Dimensions (15.4mm x 0.2mm x 1.2mm) – Designed for compatibility with CR2032 and other coin cell batteries.
✅ Ideal for Battery Research & Development – Used in academic, industrial, and commercial battery testing.
✅ Lightweight & Compact – Ensures minimal space usage while maintaining effective compression.
Applications:
🔹 CR2032 & Coin Cell Battery Assembly – Provides secure compression and electrical contact.
🔹 Electrochemical Testing & Research – Used in battery performance evaluations and material studies.
🔹 Electronics & Energy Storage – Essential for reliable electrical connections in compact power solutions.
🔹 Industrial & Scientific Applications – Suitable for battery R&D, electronic devices, and precision engineering.
This 304 Stainless Steel Wave Spring (Belleville Washer) for CR2032 Coin Cells is a high-performance component for battery researchers, manufacturers, and engineers working on advanced energy storage solutions and electrochemical applications.
