Isabellenhutte USA Datasheets for Metal Shapes and Stock
Metal shapes and stock includes metals and alloys in the form of bars, rods, beams, plates, foils, and other standard shapes. Depending on the type of selection activity and application, a metal shape may be selected based on its material type or from specific mechanical properties relative to the service conditions.
Metal Shapes and Stock: 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... | |
IRON is used as positive leg of the thermocouple types J and L. For extension leads, IRON is used for JPX and LPX. As compensating lead, IRON is used as... | |
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®-CHROM 30 is especially characterized by high resistivity and relatively low prices when compared with other nickel-chromium alloys. In spite of its relatively high iron content, this alloy is resistant... | |
ISA®-CHROM 60 is especially characterized by high resistivity and high resistance to oxidation and chemical corrosion. The alloy is suitable for high-value electrical resistors and for heating wires for any... | |
ISA®-CHROM 80 is especially characterized by high resistivity and high resistance to oxidation and chemical corrosion. ISA®-CHROM 80 is non-magnetic. It possesses a relatively low temperature coefficient. ISA®-CHROM 80 is... | |
ISA®-NICKEL is known for its high resistance to oxidation and chemical corrosion. These features govern the application: Wire cloth, connecting braids for heating elements, welding wires and many more applications. | |
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... | |
ISAOHM® is especially characterized by its high resistivity, the low temperature coefficient, the low thermal EMF versus Copper, the high tensile strength and the high resistance to oxidation and chemical... | |
ISATHERM® MINUS is used as negative leg of the thermocouple type K. For extension leads, ISATHERM® MINUS is used for KNX. The standardized temperature range of the different application possibilities... | |
ISATHERM® PLUS is used as positive leg for the thermocouple type K as well as the positive leg of the thermocouple type E. In the version for extension leads ISATHERM® | |
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,... | |
Nickel 99.2 is especially characterized by very high resistance to oxidation and chemical corrosion, relatively low resistivity and a very high temperature coefficient. The material is used in many different... | |
NICKELIN W is notable for high resistance to oxidation and chemical corrosion, relatively low resistivity and a relatively low temperature coefficient. This alloy is used for resistors of any kind... | |
NICROSIL is used as positive leg of the thermocouple N. For extension leads, NICROSIL is used for type NX. The standardized temperature range of the different application possibilities of NICROSIL... | |
NISIL is used as negative leg of the thermocouple type N. In the version for extension leads NISIL is used for type NNX. The standardized temperature range of the different... | |
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® | |
Pure Nickel is especially characterized by very high resistance to oxidation and chemical corrosion. Its resistivity is even lower than the resistivity of NICKEL 99.2 while its temperature coefficient is... | |
RESISTHERM is well known for having a high temperature coefficient at a relatively high resistivity. Up to +600 °C, this alloy is ferromagnetic. It is mainly used in wire form... | |
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... | |
Special Nickel is especially characterized by a high and exactly defined temperature coefficient, standardized in DIN 43760. This alloy is exclusively used for temperature sensors and resistance thermometers. The maximum... | |
Super Pure Nickel is especially characterized by very high temperature coefficient and low resistivity. Super Pure Nickel is used for resistors with a strongly temperature-dependen t resistance value, also for... | |
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... | |
The precision resistance alloy MANGANIN®, developed by Isabellenhütte, is especially characterized by low temperature coefficient between +20 and +50 °C with a parabolic shape of the R(T) curve, high long-term... | |
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... |