PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.7 g/cm³H28EN 573-3, EN 485MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus70.0 GPaH28EN 573-3, EN 485Hardness, Brinell41.0 [-]H28EN 573-3, EN 485Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.7 g/cm³H26EN 573-3, EN 485MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus70.0 GPaH26EN 573-3, EN 485Hardness, Brinell38.0 [-]H26EN 573-3, EN 485Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.7 g/cm³H24EN 573-3, EN 485MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus70.0 GPaH24EN 573-3, EN 485Hardness, Brinell33.0 [-]H24EN 573-3, EN 485Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.7 g/cm³H19EN 573-3, EN 485MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus70.0 GPaH19EN 573-3, EN 485Hardness, Brinell45.0 [-]H19EN 573-3, EN 485Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.71 g/cm³H24AA StandardsMechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH24AA StandardsPlane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 8000 Series AluminiumPoisson's ratio0.33 [-]T

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.71 g/cm³T652AA Standards, ASTM B247MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus70.0 GPaTypical for Wrought 6000 Series AluminiumPlane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 6000 Series

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.71 g/cm³T6AA Standards, ASTM B247MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus70.0 GPaTypical for Wrought 6000 Series AluminiumPlane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 6000 Series Al

Material X4CrNiMo16-5-1 is comparable to X 4 CrNiMo 16 5 acc. to SEW400 : 1991-02. This material is a martensitic stainless steel for machine engineering, for pumps, fittings, compressors as well as for shipbuilding. It shows good corrosion resistance and cryogenic toughness up to -200 °C. The steel

Material X20Cr13 is comparable to X 20 Cr 13 acc. to DIN 17440 : 1985-07. This material is used for construction parts of higher strength with higher mechanical load, such as axles, shafts, pump components, piston rods, valve cones, nozzle needles, ships propellers, beater bars, surgical instruments

Properties: - due to the high chrmomium and molybdenum content (approx. 2,2 %), good resistance to pitting corrosion and intergranular corrosion under that of 1.4465 - by the nickel-content results a better resistance to crack corrosion as the normal austenites Application: - for apparatuses and con

The alloy AlFeSi is alloyed for increasing the strength increase with Fe and Si. The material belongs to the nature-hard aluminum materials. A strength increase can be achieved only by cold forming. The alloy AlFeSi is very well cold and warm formable and has a good thermal and relatively good elect

The alloy AlFeSi is alloyed for increasing the strength increase with Fe and Si. The material belongs to the nature-hard aluminum materials. A strength increase can be achieved only by cold forming. The alloy AlFeSi is very well cold and warm formable and has a good thermal and relatively good elect

The alloy AlFeSi is alloyed for increasing the strength increase with Fe and Si. The material belongs to the nature-hard aluminum materials. A strength increase can be achieved only by cold forming. The alloy AlFeSi is very well cold and warm formable and has a good thermal and relatively good elect

The alloy AlFeSi is alloyed for increasing the strength increase with Fe and Si. The material belongs to the nature-hard aluminum materials. A strength increase can be achieved only by cold forming. The alloy AlFeSi is very well cold and warm formable and has a good thermal and relatively good elect

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.72 g/cm³H48EN 573-3, EN 1396MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH48EN 573-3, EN 139670.0 GPaH48EN 573-3, EN 1396Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 3000 Series

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.72 g/cm³H46EN 573-3, EN 1396MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH46EN 573-3, EN 139670.0 GPaH46EN 573-3, EN 1396Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 3000 Series

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.72 g/cm³H45EN 573-3, EN 541MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH45EN 573-3, EN 54170.0 GPaH45EN 573-3, EN 541Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 3000 Series Alu

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.72 g/cm³H44EN 573-3, EN 1396, EN 541MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH44EN 573-3, EN 1396, EN 54170.0 GPaH44EN 573-3, EN 1396, EN 541Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.72 g/cm³H43EN 573-3, EN 1396MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH43EN 573-3, EN 139670.0 GPaH43EN 573-3, EN 1396Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 3000 Series

PropertiesGeneralPropertyValueConditionRelated StandardsDensity2.72 g/cm³H42EN 573-3, EN 1396MechanicalPropertyValueConditionRelated StandardsCommentElastic modulus69.0 GPaH42EN 573-3, EN 139670.0 GPaH42EN 573-3, EN 1396Plane-Strain Fracture Toughnes22.0 - 35.0 MPa·√mTypical for Wrought 3000 Series