AIM SN100C Glow Core 2.5% .025" Diameter Lead Free No Clean Core Wire Solder

AIM high-performance, lead-free solder wire featuring SN100C alloy and Glow Core no-clean flux, designed for superior wetting and fast cycle times in SMT and through-hole applications. Product Features: Excellent Wetting: Ensures smooth, bright, and shiny solder joints on various surface finishes. Fast Cycle Time: Active flux formulation promotes rapid soldering processes. Thermal Transfer: Enhances heat transfer for better solder penetration into plated through holes and surface mount interconnections. Low Residue: Produces low-to-medium post-process residues that are electrically safe and typically do not require cleaning. Extended Tip Life: Flux chemistry extends soldering tip life, reducing maintenance. Pleasant Odor: Formulated for operator comfort during manual soldering. Product Specifications: Brand: AIM Solder Part Number: 14213 Alloy Composition: SN100C (Tin 99.3%, Copper 0.7%, with trace amounts of Nickel and Germanium) Flux Type: No-Clean (ROL0 per IPC J-STD-004) Flux Content: 2.5% Wire Diameter: 0.025 inches (0.635 mm) Melting Point: 227°C (441°F) Package: 1 lb (0.45 kg) spool Lead-Free: Yes RoHS Compliant: Yes Ideal For: Surface Mount Technology (SMT) assembly Through-hole soldering Manual soldering operations Applications requiring lead-free, no-clean soldering solutions Documentation: Technical Data Sheet (PDF) Safety Data Sheet – US English (PDF) Fast Shipping | In Stock Orders placed before 2 PM (Pacific Time) ship the same day. Each spool is securely packaged to ensure safe delivery. Why Choose AIM SN100C Glow Core? AIM’s SN100C Glow Core solder wire combines the cost-effectiveness of a silver-free alloy with the performance benefits of a no-clean flux core. Its excellent wetting properties, low residue, and compatibility with various soldering applications make it a reliable choice for electronics manufacturing. Order now to experience the efficiency and reliability of AIM SN100C Glow Core solder wire in your production processes.