Taking into account the antibacterial property, safety, mechanical and corrosion resistance property, Copper (Cu) as the main antibacterial element, was dissolved into the stainless steel matrix through special smelting process which was then precipitated out of supersaturated matrix using specific

Special material G.AL® C210 DYNAMIC is an advancement of the almost universally applicable G.AL® C210R from alloy EN AW 5083 (AlMg4.5Mn0.7). The outstanding features of medium-strength aluminum plate G.AL® C210 DYNAMIC sawn on all sides – absolutely free of microporosity, isotropy, extremely low-str

Special material G.AL® C330 DYNAMIC is an advancement of the proven G.AL® C330R from alloy EN AW 7021 (AlZn5.5Mg1.5). The outstanding features of higher-strength aluminum plate G.AL® C330 DYNAMIC sawn on all sides – absolutely free of microporosity, isotropy, very good stretching values – are genera

Many practical applications of tungsten are based on its high melting point and density and its low vapor pressure. Tungsten is an excellent material for high vacuum technology, dimensional stability, glass seals and furnace construction. In addition, tungsten’s high density gives it a capacity to a

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C8.69 g/cm³MechanicalPropertyTemperatureValueElastic modulus23.0 °C144 GPaTensile strength23.0 °C284 MPaYield strength23.0 °C148 MPaThermalPropertyTemperatureValueCoefficient of thermal expansion23.0 °C1.47E-5 1/KCoefficient of thermal expansion,

1.3981 (FeNi29Co17) is an iron-nickel-cobalt alloy whose chemical composition is controlled within narrow limits to ensure precise and uniform thermal expansion and mechanical characteristics. These properties make it an ideal alloy for use in high integrity glass-to-metal and ceramic-to-metal seals

2.4478 (FeNi52) is a controlled expansion alloy consisting of 51% nickel. Its low thermal expansion properties make it highly suited for use in a variety of electronic applications within the telecommunications industry. It shows the following features and properties: Near zero coefficient of linea

1.3917 (FeNi42) is an iron-nickel alloy containing 42% nickel. It exhibits low thermal expansion characteristics over a range of temperatures, which makes it particularly suitable for use in glass and ceramic seals. It finds application in a variety of electronic components and lead frames. It shows

1.3912 (FeNi36) is a 36% nickel-iron alloy. It exhibits a near zero rate of thermal expansion from around –100°C up to 200°C. This is around a tenth of the expansion rate of carbon steels. Alloy 36 also demonstrates a high retention of strength and toughness at cryogenic temperatures, making it suit

Heat resistance in air: up to 1200 °C. Application: tubes in the petroleum industryPropertiesGeneralPropertyTemperatureValueDensity20.0 °C7.9 g/cm³MechanicalPropertyTemperatureValueCommentElastic modulus23.0 °C190 - 210 GPaTypical for SteelElongation20.0 °C30 %Hardness, Brinell20.0 °C200 [-]Poisson&

The copper-nickel alloys show very good resistance to sea water and possesse good corrosion-resistance against non-oxidizing inorganic acids, especially against sulphuric, hydrofluoric and phosphorous acid, against most organic acids and especially against alkaline solutions. Furthermore, they are o

The nickel-copper alloys show very good resistance to sea water and possesse good corrosion-resistance against non-oxidizing inorganic acids, especially against sulphuric, hydrofluoric and phosphorous acid, against most organic acids and especially against alkaline solutions. Furthermore, they are o

G-Ni93C possesses a low tendency to galling at insufficiently lubricated bearing spots and is preferred in running against soft metallic materials. The material possesses good corrosion-resistance to non-oxidizing mediums. It shows very good resistance to hot and concentrated caustic alkalies as wel

G-Ni90Si is brittler than the material G-Ni95 (2.4170) and possesses increased resistance to wear. The tendency to galling at insufficiently lubricated bearing spots is low. The material possesses good corrosion-resistance to non-oxidizing mediums. It shows very good resistance to hot and concentrat

CuBe2, mat. No CW101C, is counted among hardenable, low alloyed copper alloys. To the comparable make CuBe2, mat. No 2.1247, acc. to DIN 17666 : 1983-12 applies: It is an alloy of optimal hardenability for highest requirements to strength, elasticity, abrasion and fatigue resistance. CuBe2 shows mea

Material CuNi18Zn20, mat. No. CW409J is an alloy of high strength and hardness. To the comparabel mark CuNi18Zn20, mat. No. 2.0740, acc. to DIN 17663 : 1983-12 applies: Strength is further increasable due to the high strain hardening capability. The material does not embrittle at low temperatures.

Material CuNi18Zn20, mat. No. CW409J is an alloy of high strength and hardness. To the comparabel mark CuNi18Zn20, mat. No. 2.0740, acc. to DIN 17663 : 1983-12 applies: Strength is further increasable due to the high strain hardening capability. The material does not embrittle at low temperatures.

PropertiesGeneralPropertyTemperatureValueDensity23.0 °C8.5 g/cm³MechanicalPropertyTemperatureValueCommentElastic modulus23.0 °C102 GPaElongation23.0 °C20 %Hardness, Brinell23.0 °C90 [-]Hardness, Vickers23.0 °C90 [-]Shear modulus23.0 °C40 GPaTypical for Wrought Copper BrassTensile strength23.0 °C360

PropertiesGeneralPropertyValueCommentDensity2.75 - 2.8 g/cm³Typical for Cast 2xx.x Series AluminiumMechanicalPropertyValueConditionRelated StandardsCommentBending Fatigue Strength80.0 - 110.0 MPaT6ISO 3522Elastic modulus72.0 GPaTypical for Cast 2xx.x Series AluminiumHardness, Brinell115.0 [-]T6ISO 3

PropertiesGeneralPropertyValueConditionDensity3.0 g/cm³T7MechanicalPropertyValueConditionCommentElastic modulus70.0 GPaT771 GPaT7Elongation12.0 %T7Hardness, Brinell130 [-]T7500 kg load, 10 mm bPoisson's ratio0.33 [-]T7Shear modulus23.0 GPaT7Shear strength260 MPaT7Tensile strength440.0 MPaT7Yiel