Base: Cu

Material Class: Copper Alloys
Name: Cu-OF
Alternative Name: C10200 / CW008A / 2.0040

Material Properties:

MET Cu-OF is pure, oxygen free Copper with minimum 99,9% Cu. It combines the advantages of Cu-ETP (= CW004A / 2.0065) and phosphor deoxidized Copper materials. The high pureness of the material combined with missing oxygen inclusions allows excellent electrical conductivity and is not affected form hydrogen embrittlement. Therefore, MET CuOF has a good deformability, combined with superior solder- and weldability than offered by Cu-ETP. Typical applications are electrical and electronic components for example in the communication industry.

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Base: Cu

Material Class: Copper Alloys

Name: CuNi2SiCr

Alternative Name: C18000 / CW111C / 2.0855

Material Properties:

MET CuNi2SiCr is a thermally curable low-alloyed copper material with high stiffness, also at elevated temperatures. It offers good thermal and electrical conductivity combined with high corrosion resistance and is well suited for wear and sliding applications.
The beryllium free copper alloy is used for tooling, as mold insert and for thermally highly stressed construction elements.

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Base: Cu

Material Class: Copper Alloys

Name: CuCr1Zr

Alternative Name: C18150 / CW106C / 2.1293

Material Properties:

MET CuCr1Zr is a hardenable copper alloy, which combines high strength and hardness with a very good thermal resistance. It offers good thermal and electrical conductivity and a good wear resistance. T ypically, the alloy is used for machinery construction and electrical applications, mold cooling inserts and high-performance applications in the aerospace or automotive industry.

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Base: Cu

Material Class: Copper Alloys

Name: CuNi10

Alternative Name: C70700 / 2.0811

Material Properties:

MET CuNi10 is an extremely resistant material with a very high corrosion resistance against seawater. Typical applications are shipbuilding, oil refining machinery, food processing industries and others.

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Base: Cu

Material Class: Copper Alloys

Name: GRCop-42

Alternative Name: CuCrNb

Material Properties:

MET GRCop-42 is a dispersion strengthened copper alloy with high strength and a good resistivity against low cycle fatigue (LCF). With a conductivity reaching up to 75% of IACS, CuCrNb-alloys were originally designed for use in high heat flux applications, like for example in combustion chambers and nozzles, and therefore offer high oxidation resistance in harsh environment.

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Base: Fe
Material Class: Stainless Steels
Name: 1.4306
Alternative Name: 304L

Material Properties:

MET 1.4306 is a stainless austenitic chromium-nickel steel with a low carbon content (<0,030%). The higher content of chromium and nickel results in increased corrosion resistance than 1.4301 or 1.4307.  This steel is used mainly in the chemical and pharmaceutical industry. A high gloss surface finish can be achieved.

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Base: Fe

Material Class: Stainless Steels

Name: 1.4404

Alternative Name: 316L

Material Properties:

MET 1.4404 is a stainless steel with a low carbon content and good corrosion resistance. It is commonly used in chemical and petrochemical industry, in food processing, pharmaceutical equipment, medical devices, in potable water, wastewater treatment, in marine applications and architectural applications near the seashore or in urban areas.

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Base: Fe

Material Class: Stainless Steels

Name: 1.4435

Alternative Name: 316L Med

Material Properties:

MET 1.4435 is a stainless steel with a very low carbon content and high corrosion resistance.  Due to its resistance to many forms of corrosion and the excellent surface quality that can be achieved, it is mainly used in medical technology. Furthermore,  it is used in chemical and petrochemical industry, in food processing, pharmaceutical equipment, in potable water, wastewater treatment, in marine applications and architectural applications near the seashore or in urban areas.

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Base: Ni

Material Class: Nickel Alloys

Name: K500

Alternative Name: 2.4375 / N05500 / NiCu30Al

Material Properties:

MET Alloy K500 is a nickel-copper alloy which has extreme hardness and high tensile strength in the temperature range lower than 650°C (1.202°F). The melting point of this material is 1.350°C (2.462°F). Due to its excellent corrosion resistance the alloy is well suited for marine and chemical applications. Typical applications are springs, shafts and fasteners for marine propellers, oil handling equipment, knives, scrapers, or springs.

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Base: Ni

Material Class: Nickel Alloys

Name: In718

Alternative Name: 2.4668 / Inconel 718

Material Properties:

MET Inconel 718 is a high-strength, corrosion-resistant nickel chromium material used in a wide temperature range from cryogenic to high temperature applications. The age-hardenable alloy can be readily fabricated, even into complex parts. Its welding characteristics, especially its resistance to post-weld cracking, are outstanding.

The ease and economy with which MET IN718 can be fabricated, combined with good tensile, fatigue, creep, and rupture strength, have resulted in its use in a wide range of applications. Examples of these are components for liquid fueled rockets, rings, casings and various formed sheet metal parts for aircraft and land-based gas turbine engines, and cryogenic tankage. It is also used for fasteners and instrumentation parts.

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Base: Ni

Material Class: Nickel Alloys

Name: In625

Alternative Name: 2.4856 / N06625 / Inconel 625

Material Properties:

MET Inconel 625 is a nickel-based superalloy that possesses high strength properties and resistance to elevated temperatures. It also demonstrates remarkable protection against corrosion and oxidation. Its ability to withstand high stress and a wide range of temperatures, both in and out of water, as well as being able to resist corrosion while being exposed to highly acidic environments, makes it a fitting choice for nuclear and marine applications. 

Typical applications are seawater components, flare stacks, aircraft ducting systems, specialized seawater equipment, chemical process equipment, turbine shroud rings, engine thrust-reverser systems, jet engine exhausts systems.

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Base: Ti

Material Class: Titanium Alloys

Name: Ti Grade 5

Alternative Name: Ti6Al4V / Ti64

Material Properties:

MET Grade 5, or Ti6Al4V, is the most used of all titanium alloys. Its usability lies in its many benefits. MET Grade 5 may be heat treated to increase its strength. It can be used in welded construction at service temperatures of more than 300°C. This alloy offers its high strength at a light weight, useful formability and high corrosion resistance.

Ti6AI4V is used in many industries such as aerospace, medical, marine and chemical processing industries, for example in aircraft turbines, engine components, aircraft structural components, aerospace fastener, high-performance automatic parts, marine applications, or even sports equipment.

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Base: Ti

Material Class: Titanium Alloys

Name: Ti Grade 23

Alternative Name:  Ti6Al4V-ELI / Ti64-ELI

Material Properties:

MET Grade 23 , or Ti6AL4V-ELI, is the higher purity version of Ti6Al4V with a very good biocompatibility. It’s the top choice for any sort of situation where a combination of high strength, light weight, good corrosion resistance and high toughness are required. It has a superior damage tolerance to other alloys.

These benefits make MET Ti Grade 23 the most requested titanium grade for dental and medical applications. Due to its biocompatibility, good fatigue strength and low young’s modulus, it can be used in biomedical applications or other surgical procedures such as implantable components. 

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Base: Mo

Material Class: Molybdenum

Name: Mo99%

Alternative Name: pure Molybdenum 

Material Properties:

MET Mo 99% has one of the highest melting temperatures of all the elements (2.623°C), yet unlike most other high-melting point metals, its density is only 25% greater than iron's. Its coefficient of thermal expansion is the lowest of the engineering materials, while its thermal conductivity exceeds all but a handful of elements. The operating temperature is up to 1.900°C.

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