Metals for 3D printing

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Metals for 3D Printing

Learn below which metals are particularly suitable for 3D printing with powder bed fusion, their specific properties, the available variants, and the industries in which they are primarily used. The metals explained below are also suitable for the use with our 3D printers, 2Create and 2Create Plus.

Metals for 3D Printing

Metals for 3D printing are available in various forms (powder, wire, liquid, filament) and compositions, depending on the application and the associated additive manufacturing process.

The most commonly used method for additive metal manufacturing in the industry is powder bed fusion (SLM and EBM), where metal powders are used as materials. The key requirement for the additive manufacturing of metals using this process depends on how easily the metal powder can be melted and fused.

metal powder aluminium

Following this, metals and alloys such as stainless steel, tool steel, titanium, cobalt-chrome, nickel-based superalloys (e.g., Inconel), aluminum, and copper-based alloys have proven to be optimal materials for numerous industries and applications – from aerospace to the automotive industry, tool and machine construction, and even medical technology.

Subsequently, you will learn more about the most commonly used metals for 3D printing based on powder bed fusion. These are also excellently compatible with our 3D printers 2Create and 2Create Plus (SLM).

2onelab`s Metal 3D Printers

2Create 3D metal printer from 2oneLab

Our two metal 3D printers, 2Create and 2Create Plus, are based on laser beam melting (SLM) and impress with high precision, efficiency, speed, material flexibility, cost-effectiveness, and a wide range of applications.

Advantages at a glance:

  • Made in Germany
  • Easy to Use
  • Material Versatility
  • Fast Material Change
  • Instant Printing
  • Short Production Times
  • Cost Effectiveness
  • Optimal Customer Support

Stainless Steel 3D Printing

Stainless steel is a metallic material with exceptional corrosion resistance, high strength, as well as excellent temperature resistance, durability, and conductivity.

3D printed objects made of stainless steel can have the same or even higher strength compared to traditional manufacturing methods. The hardness, strength, and other properties of 3D printed stainless steel are largely determined by the choice of 3D printing process and the material used.

Commonly used stainless steel alloys are 316L and 17-4 PH. 316L is characterized by its high corrosion resistance, while 17-4 PH allows for exceptional precipitation hardening (Precipitation Hardening technology).

Stainless Steel 3D Printing Applications

3D printed objects made of stainless steel are used in a wide range of industries, including medical and dental technology, aerospace, the automotive industry, and assistive technology.

Stainless Steel 3D Printing Powder

Stainless steel used for stainless steel 3D printing is available in various alloys with different properties, such as 316L, 304L, 630, 410, 420, 254, 17-4 PH, 15-5 PH, PH1, and GP1. Among these, 316L is the most commonly used in metal 3D printing, as it offers high corrosion resistance and good ductility.

Validated materials for the 2onelab printing systems: forAM 316L VG, MetcoAdd™ 17-4PH

3D printed component made of stainless steel (17-4 PH) by 2onelab
3D printed component made of stainless steel (17-4 PH) by 2onelab

Tool Steel 3D Printing

Tool steels are characterized by their high wear resistance and hardness, are particularly temperature-resistant, durable, and have good ductility. They belong to the group of iron alloys with a carbon content of less than 2%, as well as low levels of phosphorus and sulfur. In 3D printing, both alloyed and unalloyed tool steels are used, which differ in their properties.

Tool Steel 3D Printing Applications

3D printed geometries made of tool steel are used in the industry for the production of tools, tool components, and in mold making (Additive Tooling or Rapid Tooling). These molds are subsequently used in other manufacturing processes, such as extrusion, casting, injection molding, or stamping.

Tool Steel 3D Printing Powder

The following tool steel powders are used for tool steel 3D printing: D2, M2, H13, H11, MS1, and 1.2709.

Validated materials for the 2onelab printing systems: Stainless Steel Super Duplex, metal-ceramic cermet composite powder

metal 3d printed forms (titanium) by 2onelab
Metal 3D printed forms (Titanium) by 2onelab

Titanium 3D Printing

Titanium and titanium alloys are characterized by exceptionally high corrosion resistance, biocompatibility, an excellent strength-to-weight ratio, and low thermal expansion. Due to these properties, titanium is the most commonly used metal in additive manufacturing.

Titanium 3D Printing Applications

Due to its biocompatibility, titanium is widely used in medical and dental technology, including for the precise manufacturing of prostheses and implants. Additionally, titanium 3D printing is also used in the aerospace, automotive, and electronics industries.

Titanium 3D Printing Powder

The following titanium powders are available for titanium 3D printing: Ti-6Al-4V, Beta 21S, Cp-Ti (pure titanium), and TA15.

Validated materials for the 2onelab printing systems: STARBOND TI5 POWDER 45 (Ti-6Al-4V)

3D-printed titanium joint ball by 2onelab
3D printed titanium joint ball by 2onelab

Cobalt Chrome 3D Printing

Cobalt-chrome alloys are characterized by their exceptionally high hardness as well as excellent wear, heat, and corrosion resistance, with their corrosion resistance surpassing that of stainless steel. Additionally, they are biocompatible, making them ideal for medical applications.

Cobalt Chrome 3D Printing Applications

The properties of cobalt-chrome enable a wide range of applications, spanning from the aerospace and automotive industries to dentistry and medical technology.

Cobalt Chrome 3D Printing Powder

Examples of cobalt-chrome powders suitable for cobalt-chrome 3D printing: CoCr, CoCrW, CoCr F75, and CoCr28Mo6

Validated materials for the 2onelab printing systems: Mediloy® S-Co, Mediloy® RPD, Kera®S-Powder, remanium star powder, Starbond Easy Powder 30

3D-printed dental models (cobalt-chrome) by 2onelab
3D printed dental models (cobalt-chrome) by 2onelab

Nickel-Based Superalloys 3D Printing

Nickel-based superalloys, such as Inconel, are high-performance alloys characterized by excellent mechanical properties and exceptional resistance to corrosion and high temperatures. These properties make them ideal for the use in extreme environments, such as those found in turbines or rockets.

Applications in 3D Printing

Nickel-based alloys are used in demanding industrial applications in aerospace, marine, as well as energy and automotive industries. They ensure high resistance to mechanical stresses and extreme environmental conditions.

Nickel-Based Superalloys 3D Printing Powder

For metal 3D printing of nickel-based superalloys in powder form, the following are suitable: Inconel 625, Inconel 718, Hastelloy X, and Haynes 282

Aluminium 3D Printing

Aluminum alloys are characterized by good thermal and electrical conductivity, have excellent corrosion resistance, and combine low density with significant strength, depending on the alloy.

Aluminium 3D Printing Applications

Aluminum alloys are particularly suitable for lightweight constructions with high strength, making them ideal for use in aerospace, automotive, medical technology, and machinery and plant construction.

Aluminium 3D Printing Powder

Typical aluminum alloys for aluminum 3D printing are AlSi10Mg, AlSi12, and Al6061

Validated materials for the 2onelab printing systems: forAM® AlSi10Mg 20-63 GA

How you choose the best Metals for 3D Printing

Consider the following steps to select the optimal metals for your 3D printing:

1. Define the performance requirements for the object to be manufactured in advance. These requirements may include external influences the final product will be exposed to, as well as expected mechanical stresses during use.

2. Compare the performance requirements with the properties of the respective metal. Ensure that the selected material meets both the application requirements and operating conditions. For example, do you need a metal with high mechanical strength or excellent corrosion resistance?

3. Finally, select the material that best meets the defined performance and object requirements. This will ensure reliable functionality and a long lifespan of the manufactured product.

Conclusion – Metals for 3D Printing

The selection of the appropriate metal for 3D printing depends on both the manufacturing process and the intended application area.

The most commonly used process in the industry for metal 3D printing is powder bed fusion (SLM and EBM). In this process, metal powders are used as materials. The most commonly used metals include: stainless steel, tool steels, titanium alloys, nickel-based superalloys, cobalt-chrome alloys, aluminum alloys, and copper-based alloys.

Precious metals such as gold, silver, and platinum are primarily used in jewelry manufacturing.

FAQ: Metals for 3D Printing

The production of objects from metal using additive manufacturing processes is possible. Methods like Selective Laser Melting (SLM) use specialized 3D printers to build metals layer by layer into an object.

For metal 3D printing, the following metals have proven effective: steel (stainless steel, tool steels), titanium, cobalt-chrome, nickel-based superalloys, aluminum, and copper.

Application areas range from aerospace to automotive engineering, medical and dental technology, and the electronics industry.

Generally, any metal can be used for 3D printing, as long as it is available in an appropriate powder form and can be melted and fused at high temperatures without burning. Metal extrusion through a nozzle is usually possible when the aforementioned material requirements are not met.

With 3D printing of metal, objects can be printed that are highly stable and exhibit mechanical properties comparable to or even surpassing those of traditional manufacturing. Influencing factors include the choice of metal material, the additive manufacturing process, printing parameters, and post-processing.

Objects can be made from the metallic material titanium or in the form of titanium alloys in 3D printing. This includes either pure titanium, such as Cp-Ti, or specific alloys that meet certain requirements due to their special properties. Examples include Ti-6Al-4V, Beta 21S, and TA15.


Titanium is known for its excellent biocompatibility and is primarily used in medical and dental technology for the production of precision implants and prosthetics.

3D printing of aluminum metal is particularly suitable for the aerospace sector due to its low weight combined with high strength. After all, these industries are characterized by lightweight construction, making weight a critical factor.

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Author: Markus Wolf

Passionate about 3D printing, while being
CTO and Co-Founder of 2oneLab.

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