Isabellenhutte USA Datasheets for Copper, Brass, and Bronze Alloys

Copper, brass, and bronze alloys are non-ferrous metals with excellent electrical and thermal conductivity as well as good corrosion resistance, ductility and strength.
Copper, Brass, and Bronze Alloys: Learn more

Product Name Notes
A-COPPER 11 is used as negative leg for the compensating lead for thermocouple types Pt10Rh-Pt and Pt13Rh-Pt. A-COPPER 11 is standardized in the temperature range between 0 and +200 °C.
A-Copper 2.5 is especially characterized by very low resistivity. This alloy is used for heating wires and mats in heating cords and in heating cables with low conductor temperatures as...
Alloy 127 is a non-standardized electrical resistance Alloy. With its resistivity of 21 μΩ x cm it fills well up the gap between alloy 90 with 15 μΩ x cm...
Alloy 30 is especially characterized by low resistivity. It is used for low-value resistors, for heating wires and mats in heating cords and in heating cables with low conductor temperatures...
Alloy 60 is especially characterized by low resistivity. It provides a relatively high resistance to oxidation and chemical corrosion. It is used for low-value resistors, for heating wires and mats...
Alloy 90 is especially noted for low resistivity and high resistance to oxidation and chemical corrosion. It is used for low-value resistors, for heating wires and mats in heating cords...
E-Copper is especially characterized by high conductivity and relatively high corrosion resistance. Like all pure metals, E-Copper has a high temperature coefficient. The most important properties are listed only for...
ISA® 13 is known for low resistivity and a relatively low temperature coefficient, as well as its relatively high corrosion resistance. It is used for low-value resistors and for heating...
ISA® MINUS is used as negative leg for compensating lead KCA as well as positive leg for compensating lead type W5Re/W26Re. ISA® MINUS is standardized in the temperature range between...
ISA®-SIL is used as negative leg for the compensating lead type NC and as positive leg for the compensating lead type CC. ISA®-SIL is standardized in the temperature range between...
ISA-ZIN is especially noted for high resistance to oxidation and chemical corrosion, as well as a relatively low resistivity. It is used for resistors of any type and for heating...
ISOTAN® is notable for its low temperature coefficient and high resistance to oxidation and chemical corrosion. The alloy is non-magnetic. It is suitable for electrical resistors, potentiometers, heating wires, heating...
ISOTAN®, is used as negative leg of thermocouple types J and L as well as T, U and E. In the version for extension leads, ISOTAN® is used for JNX,...
Our resistance alloys are used in many areas of electronics and electrical engineering and can be supplied in many different forms and types. Our alloys MANGANIN®, ZERANIN®, ISAOHM® and NOVENTIN®
S-COPPER is used as positive leg for the compensating lead of thermocouple type Pt30Rh-Pt6Rh. S-COPPER is standardized in the temperature range between 0 and +100 °C. Isabellenhütte delivers S-COPPER with...
The ISA-CON® product family is renowned by its unique combination of mechanical strength and electrical Conductivity. ISA-CON®414 is a RoHS compliant copper chromium alloy to replace cadmium chromium copper C18125...
The ISA-CON® product family is renowned by its unique combination of mechanical strength and electrical conductivity. ISA-CON®450 is a RoHS compliant copper chromium alloy to replace cadmium chromium copper C18125...
The newly developed alloy NOVENTIN® is in the best tradition of Isabellenhütte’s precision resistance alloys ZERANIN® 30, MANGANIN® and ISAOHM®. With its high specific electrical resistance, NOVENTIN® closes the gap...
We offer a variety of options that allow circuit designers and engineers tremendous flexibility in materials and properties for joining and bonding, including: ISA-BRAZE® — High temperature brazing alloy CuMn12Ni...
ZERANIN® 30 is well known for its low temperature coefficient between +20 and +60 °C with a very flat parabolic shape of the R(T)-curve, high long-term stability of the electrical...