| Quantity | Unit price |
|---|---|
| Up to 9 |
€1.55
|
| Up to 14 |
€1.47
€1.55
( - 5.16% )
|
| From 15 |
€1.39
€1.55
( - 10.32% )
|
Available, delivery time: 1-3 business days,
within Germany, abroad different, Subject to prior sale
Phosphorlot - Brazing alloy L-CU P7SN
The phosphorus brazing alloy L-CU P7SN is a high-quality brazing alloy with a diameter of 2.0 mm and a length of 500 mm. It consists of a special composition of Cu (copper) 87.1 - 85.3%, P (phosphorus) 6.4 - 7.2% and Sn (tin) 6.5 - 7.5%. With a melting point of 650 - 700 °C, it is ideal for various soldering applications in the field of refrigeration, air conditioning and ventilation technology as well as heat pumps.
Technical details:- Diameter: 2.0 mm
- Length: 500 mm
- Composition: Cu - 87.1 - 85.3%, P - 6.4 - 7.2%, Sn -6.5 - 7.5%
- Melting point: 650 - 700 °C
- Density: 8.0 g/cm3
- Tensile strength: 250 Mpa
- Standards: ISO 3677 B-Cu86SnP-650/700, EN 1044 CP 302
Advantages and benefits:
The phosphorus solder offers a high tensile strength of 250 Mpa, which ensures stable and reliable solder joints. With its precise composition and optimum melting point, it is ideal for professional soldering applications in refrigeration, air conditioning and ventilation technology as well as heat pumps. The ISO 3677 and EN 1044 standards guarantee the quality and reliability of this solder.
Order a 0.1 kg bar of phosphorus solder now and benefit from the outstanding properties of this high-quality brazing alloy for your soldering projects.
Miscellaneous
Information about the manufacturer (information requirements under the GPSR Product Safety Regulation):
Manufacturer: H+H Kältetechnik GmbH
Postal address: Borghorster Straße 68 48366 Laer Germany
Email address: [email protected]
Website: www.kaeltetechnikshop.com
Note: H+H Kältetechnik GmbH offers a comprehensive range of products for refrigeration, air conditioning and ventilation technology.
| Durchmesser x Länge: | 2,0 mm x 500 mm |
|---|---|
| Eigenschaft: | Hartlot L-CU P7SN |
| Item condition: | New item |










