Base: Cu
Material Class: Copper Alloys
Name: CuCr1Zr
Alternative Name: C18150

Material Properties:

CuCr1Zr is a hardenable copper alloy, which combines high strength and hardness with a very low thermal resistance. It has good thermal and electrical conductivity. Furthermore its characterized by a good wear resistance. It used for machinery construction and electrical applications, mold cooling inserts, high performance applications in the aerospace or automotive industry.

Base: Cu
Material Class: Copper Alloys
Name: OF-Cu
Alternative Name: C10200

Material Properties:
High purity oxygen-free copper – highest thermal and electrical conductivity (>99,95% Cu).
It combines the advantages from Cu-ETP and the phosphor deoxidized Copper materials. The high pureness of the material combined with missing oxygen inclusions allows a 100% IACS electrical conductivity and is not affected form hydrogen embrittlement. OF-Cu has a good deformability, solder- and weldability, better than Cu-ETP. Typical applications are electrical and electronic components and the communication industry.

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

Material Properties:

Austenitic chromium-nickel steel with a low carbon content (<0,030%); better corrosion resistance than 1.4301 or 1.4307 due to higher chromium and nickel content. This steel is used mainly in the chemical and pharmaceutical industry. A high gloss surface finish can be achieved.

Base: Fe
Material Class: Stainless and Wear Resistant Steels
Name: 316L
Alternative Name: 1.4404

Material Properties:

Base: Fe
Material Class: Stainless and Wear Resistant Steels
Name: 17-4PH
Alternative Name: 1.4542

Material Properties:
Martensitic chromium-nickel-copper stainless steel stabilized with Niobium. High strength and hardness due to precipitation hardening.

17-4PH is a stainless steel with high yield strength, high wear resistance as well as good corrosion resistance. It is possible to be used in low temperatures and has excellent impact strength even at minus temperatures.
Due to the combination of corrosion resistance and good mechanical properties, this material 17-4PH is also suitable for use in maritime environments, whenever the corrosion resistance and mechanical properties of martensitic steels are insufficient. In standing seawater it is vulnerable to corrosion fissures.
17-4PH is used in plant construction, chemical industry, wood industry, offshore, shipbuilding, mechanical engineering, oil industry, paper industry, air and water industry. space travel, sports and leisure industry.

Base: Fe
Material Class: Stainless and Wear Resistant Steels
Name: 1.2343
Alternative Name: H11/T20811

Material Properties:
High-alloy hot-work steel with high toughness and heat resistance, hot cracks resistance and good thermal conductivity.

1.2343 hot work tool steel with high temperature strength and wear resistance with high thermal shock resistance. Plastic molds, die-casting and extrusion tools for light metal. Good toughness and thermal conductivity.
1.2343 is used for forging dies, forging tools, hot shear blades, hot extrusion tools, punches, screw tools, steel pins and ejector.

Base: Ni
Material Class: Nickel
Name: IN625
Alternative Name: 2.4856

Material Properties:

2.4856 is a low carbon nickel-chromium-molybdenum-niobium alloy. Service temperatures from cryogenic to 982°C; outstanding corrosion resistance.

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.

Base: Ni
Material Class: Nickel
Name: IN718
Alternative Name: 2.4668

Material Properties:

2.4668 is a nickel-chromium-iron alloy with niobium, molybdenum, aluminium and titanium; outstanding mechanical properties and corrosion resistance.

Inconel 718 is a high-strength, corrosion-resistant nickel chromium material used in a wide temperature range form cryogenic to high temperature applications.
The age-hardenable alloy can be readily fabricated, even into complex parts. Its welding characteristics, especially its resistance to postweld cracking, are outstanding.
The ease and economy with which 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.

Base: Ti
Material Class: Titanium Alloys
Name: Ti99,9
Alternative Name: Ti Grade 1

Material Properties:

Unalloyed Titanium with low oxygen content; good corrosion resistance and biocompatibility.

Ti99,9 is the softest, unalloyed grade of titanium with the lowest strength and highest ductility. It’s weldable, cold formability and an impact-resistant alloy. Ti99,9 has good resistance to mildly reducing conditions and very good resistance to strong oxidizing environment with or without chlorides. The alloy is used for a variety of applications, including medical industry, marine and automotive industry, airframe structures, plate heat exchangers, chemical equipment, chlorine production, desalination and anodes.

Base: Ti
Material Class: Titanium Alloys
Name: Ti6Al4V
Alternative Name: Ti Grade 5

Material Properties:

Titanium-aluminium-vanadium alloy; best combination of strength, toughness and ductility; age-hardenable alloy, good biocompatibility.

Ti6Al4V, or Grade 5 titanium, is the most commonly used of all titanium alloys.
Its usability lies in its many benefits. Ti 6Al-4V 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.
Ti 6AI-4V 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, sports equipment’s.

Base: Ti
Material Class: Titanium Alloys
Name: Ti6Al4V-ELI
Alternative Name: Ti Grade 23

Material Properties:

“ELI” stands for “extra low interstitials” - lower oxygen and nitrogen content than Grade 5, used for medical and aerospace applications.

Ti6AL4V-ELI, or Grade 23, 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 Ti6AL4V-ELI the ultimate dental and medical titanium grade. It can be used in biomedical applications such as implantable components due to its biocompatibility, good fatigue strength and low modulus. It can also be used in detailed surgical procedures.

Base: Mo
Material Class: Molybdenum
Name: Mo99,9%
Alternative Name: Mo99

Material Properties:

High melting temperature (2623°C), low thermal expansion coefficient, operational temperature up to 1900°C.

It 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.