Alloy 25 Tube from Materion Performance Alloys provides the highest strength of any copper alloy, with electrical conductivity considerably greater than other high strength copper alloys. This alloy features high fatigue strength and magnetic permeability approaching unity.PropertiesGeneralPropertyT

1.4462 (X2CrNiMoN22-5-3) is the basic grade of duplex stainless steel based on a 22% chromium and 5% nickel content. It is suitable for applications which involve high mechanical stresses and severe corrosion conditions, particularly where there is frequent contact with high levels of chlorides, car

1.4507 (X2CrNiMoCuN25-6-3) is a super duplex stainless steel widely used in critical offshore, petrochemical and chemical plant applications. It is based on a 26% chromium and 6% nickel composition. The grade has very good pitting and crevice corrosion resistance resulting from a controlled addition

2.0855 (CuNi2Si) is a precipitation hardening copper nickel silicon that offers a remarkable blend of physical and mechanical attributes unrivalled by many other grades of copper alloy. Colsibro® is a high copper alloy with small additions of nickel and silicon, which combine to increase the strengt

Materion Performance Alloys’ Alloy 3 mill hardened strip provides good strength with high electrical conductivity and good resistance to stress relaxation. It is a drop-in replacement for the obsolete Alloy 10 (C17500) strip material in Automotive, Appliance and DataCom/Telecom market applications.P

Materion Performance Alloys’ Alloy 3 mill hardened strip provides good strength with high electrical conductivity and good resistance to stress relaxation. It is a drop-in replacement for the obsolete Alloy 10 (C17500) strip material...PropertiesGeneralPropertyTemperatureValueDensity23.0 °C8.83 g/cm

Materion Brush Performance Alloys’ Alloy 25 strip provides the highest strength of any copper alloy, with electrical conductivity considerably greater than other high strength copper alloys. Since it is heat treated after forming, it provides excellent formability and ductility. This alloy features

AA 1100 is a soft, non-heat-treatable and low strength alloy that offers strong corrosion resistance. Composed of 99% aluminum and 0.12% copper, AA 1100 is purest grade of aluminum alloy available commercially.PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.71 g/cm³H26AA Standards,

Food safe aluminum.PropertiesGeneralPropertyTemperatureValueConditionRelated StandardsShapeDensity2.7 g/cm³H18EN 573-3, EN 1301Strip, Sheet, Plate20.0 °C2.7 g/cm³H18EN 573-3WireMechanicalPropertyTemperatureValueConditionRelated StandardsShapeCommentElastic modulus-270.0 °C70.0 GPaH18EN 573-3Wire70.0

Phosphor bronze is a ternary alloy produced by adding tin to copper and deoxidizing with phosphorus. It has good workability, fatigue-endurance and corrosion-resistance. While phosphur bronze with higher tin content shows high strength and excellent elasticity, phosphor bronze with lower tin content

1.4122 (X39CrMo17-1) is characterised by its combination of outstanding mechanical properties, (after heat treatment) and a corrosion resistance which is comparable with that of 1.4016. This steel can also be polished to high gloss finishes.PropertiesGeneralPropertyValueDensity7.7 g/cm³MechanicalPro

FERROTHERM® 4828 is a standard grade for furnace construction and other high temperature components. Compared to FERROTHERM® 4878 and 4713, FERROTHERM® 4828 is considerably improved in its scaling resistance. Due to its high tensile strength at higher temperatures, FERROTHERM® 4828 is ideal for appl

The increase in the Al and Fe content results in a material in which the hard gamma 2 phase (about 400 HB) is present. By proper metallurgical control this hard constituent is uniformly distributed giving this alloy its ability to resist wear.PropertiesGeneralPropertyTemperatureValueDensity23.0 °C7.

The exceptional wear and fatigue resistance of this alloy results from a controlled duplex alpha and beta phase. This alloy has high strength combined with good ductility and unusual toughness. The physical characteristics of this alloy can be varied by heat treatments (AMPCO® 18.22, 18.23 and 18.13

The exceptional wear and fatigue resistance of this alloy results from a controlled duplex alpha and beta phase. This alloy has high strength combined with good ductility and unusual toughness. The physical characteristics of this alloy can be varied by heat treatments (AMPCO® 18.22, 18.23 and 18.13

The exceptional wear and fatigue resistance of this alloy results from a controlled duplex alpha and beta phase. This alloy has high strength combined with good ductility and unusual toughness. The physical characteristics of this alloy can be varied by heat treatments (AMPCO® 18.22, 18.23 and 18.13

The exceptional wear and fatigue resistance of this alloy results from a controlled duplex alpha and beta phase. This alloy has high strength combined with good ductility and unusual toughness. The physical characteristics of this alloy can be varied by heat treatments (AMPCO® 18.22, 18.23 and 18.13

AMPCO® 8 extruded has a high tensile strength and a good yield along with an inherent toughness and ductility not usually found in a single alpha phase aluminium bronze. During the extrusion process the metal is hot worked resulting in a compact grain structure free of inclusions or other defects an

DILLIDUR 400 is a wear resistant steel with a nominal hardness of 400 HBW in delivery condition ex works. DILLIDUR 400 is preferentially used by the customers where elevated resistance to wear is required together with good workability and especially good weldability. In spite of their high tensile

DILLIDUR 450 is a wear resistant steel with a nominal hardness of 450 HBW in delivery condition ex works. DILLIDUR 450 is preferentially used by the customers where elevated resistance to wear is required together with good workability and especially good weldability. In spite of their high tensile