Nickel with highest degree of purity with the following features: Very low levels of carbon (20 ppm) and sulfur (2 ppm) which tend to segregate at grain boundries resulting in hot shortening Cleanliness, absence of non-metallic inclusions as Al, Ti or Si oxides Low electrical resistivity at 20°C Hi

Brass with antimicrobial propertiesPropertiesGeneralPropertyTemperatureValueDensity23.0 °C8.4 g/cm³DimensionPropertyValueDimensionsSheet Thickness: 0.3 - 8 mm, Foil Thickness: 0.005-0.45 mmMechanicalPropertyTemperatureValueElastic modulus23.0 °C110 GPaElongation A523.0 °C48 %Hardness, Brinell23.0 °C

Excellent formability. High strength for foil app compared to 1xxx.PropertiesGeneralPropertyTemperatureValueDensity23.0 °C2.72 g/cm³DimensionPropertyValueThickness0.06 - 1 mmMechanicalPropertyTemperatureValueElongation A5023.0 °C1 %Tensile strength23.0 °C170 - 175 MPaYield strength23.0 °C155 MPaTher

PropertiesGeneralPropertyTemperatureValueCommentDensity23.0 °C7.8 - 7.9 g/cm³Typical for Medium Carbon SteelMechanicalPropertyTemperatureValueCommentElastic modulus23.0 °C200 - 215 GPaTypical for Medium Carbon SteelElongation20.0 °C14 - 15 %Elongation, transverse20.0 °C12 - 13 %Poisson's ratio2

PropertiesGeneralPropertyTemperatureValueDensity20.0 °C8.6 - 8.7 g/cm³MechanicalPropertyTemperatureValueElastic modulus20.0 °C211 GPa100.0 °C207 GPa200.0 °C202 GPa300.0 °C195 GPa400.0 °C188 GPa500.0 °C181 GPa600.0 °C175 GPa700.0 °C168 GPa800.0 °C158 GPa900.0 °C149 GPa1000.0 °C138 GPaElongation20.0 °

Brass with antimicrobial propertiesPropertiesGeneralPropertyTemperatureValueDensity23.0 °C8.4 g/cm³DimensionPropertyValueDimensionsSheet Thickness: 0.3 - 8 mm, Foil Thickness: 0.005-0.45 mmMechanicalPropertyTemperatureValueElastic modulus23.0 °C110 GPaElongation A523.0 °C12 %Hardness, Brinell23.0 °C

Tungsten has the highest melting point of all metals and is therefore also suitable for very high-temperature applications. It is also characterized by a uniquely low coefficient of thermal expansion and a very high level of dimensional stability. PropertiesGeneralPropertyTemperatureValueDensity23.

Tungsten has the highest melting point of all metals and is therefore also suitable for very high-temperature applications. It is also characterized by a uniquely low coefficient of thermal expansion and a very high level of dimensional stability. PropertiesGeneralPropertyTemperatureValueDensity23.

Chemical composition: DIN 17851With smaller cross sections, the alpha + beta alloy TiAl5Fe2.5 is hardenable up to 1300 N/mm^2. There are acceptable high temperature tensile strengths and creep strengths up to approximately 450 °C. The material shows excellent corrosion-resistance especially to oxidi

A high strength Mg free tube alloy suited for controlled atmosphere brazing. The FA7929 alloy is designed as a high strength alloy with good corrosion resistance suitable for welded or folded tubes. In combination with suitable n-, header- and side plate alloys this material provides substantial do

A strong material with good sag resistance. This alloy is suited for controlled atmosphere brazing. The FA68XX alloy family is a reliable and thoroughly evaluated fin alloy family that is characterised by a high post braze strength, and a good sagging resistance during brazing. The alloy is designe

A strong material with good sag resistance. This alloy is suited for controlled atmosphere brazing. The FA68XX alloy family is a reliable and thoroughly evaluated fin alloy family that is characterised by a high post braze strength, and a good sagging resistance during brazing. The alloy is designe

A strong material with good sag resistance. This alloy is suited for controlled atmosphere brazing. The FA68XX alloy family is a reliable and thoroughly evaluated fin alloy family that is characterised by a high post braze strength, and a good sagging resistance during brazing. The alloy is designe

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi

Non-oriented fully processed electrical steel have guaranteed magnetic properties, in accordance with (or exceeding the levels required by) EN 10106:2015. As well as the maximum loss and minimum polarisation levels cited, full magnetic characterisation curves regarding losses, polarisation, permeabi