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 |
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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 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... |