Stannol HS10 2510 Solder, lead-free Coil Sn95.5Ag3.8Cu0.7 ROM1 100 g 1 mm
SolderMore than 10 pieces in stock at third-party supplier
Product details
The HS10 2510 solder wire from Stannol is a high-quality, lead-free solder wire specifically designed for industrial manufacturing. With a diameter of 1 mm and a weight of 100 g, this solder wire offers excellent handling and is ideal for various soldering applications, including the processing of SMD components. The solder alloy consists of 95.5% tin, 3.8% silver, and 0.7% copper, resulting in high strength and reliability of the solder joints. The solder wire contains a flux with a content of 2.5%, which enhances solder quality and allows for clean processing. With a melting temperature of approximately 217 °C, this solder wire is particularly suitable for applications requiring a low melting point. Using this solder ensures precise and durable solder connections that meet the demands of modern electronics manufacturing.
- High-quality solder alloy: Sn95.5/Ag3.8/Cu0.7 for high strength
- Low melting point of about 217 °C for versatile applications
- Includes flux (2.5%) to improve solder quality
- Suitable for SMD components and industrial manufacturing.
Scope of delivery | 631902, Melting temperature=217 °C, Proportion of flux = 2.5 %, Solder alloy=Sn95.5/Ag3.8/Cu0.7, Solder wire, Solder wire diameter=1 mm, Type of flux=HS 10, Type=TSC HS10, Weight=100 g |
Item number | 25433025 |
Manufacturer | Stannol |
Category | Soldering iron accessories |
Manufacturer no. | 631902 |
Release date | 5.12.2022 |
Colour | Grey |
Soldering accessory type | Solder |
CO₂-Emission | |
Climate contribution |
Items per sales unit | 1 x |
Scope of delivery | 631902, Melting temperature=217 °C, Proportion of flux = 2.5 %, Solder alloy=Sn95.5/Ag3.8/Cu0.7, Solder wire, Solder wire diameter=1 mm, Type of flux=HS 10, Type=TSC HS10, Weight=100 g |
Length | 65 mm |
Width | 1 mm |
Height | 1 mm |
Weight | 100 g |
Length | 6 cm |
Width | 6 cm |
Height | 1.50 cm |
Weight | 110 g |

- H317 May cause an allergic skin reaction.