Highest quality, fast production, limitless possibilities

Efficient production with metal binder jetting (MBJ)

"Discover the world of precision metal fabrication with our MBJ technology. Achieve the highest quality, speed up your production and unleash limitless possibilities for your products."
Customer extract:

Why MBJ Technology?

Revolutionary possibilities in metal production with MBJ technology.

From precise prototypes to series production, we offer you first-class solutions.

Binder jetting is an advanced additive manufacturing technology that makes it possible to create complex components by solidifying powder material layer by layer. In this process, a binder is applied to the powder bed to bond the individual layers together.

"Put your trust in well-known companies that are already benefiting from our MBJ technology. Our certificates confirm the quality of our work."

Jörg Willmann

Founder, CEO of Additive Willmann

Advantages of MBJ technology

Discover the many advantages of metal binder jetting, including the high speed, cost-effective production of complex geometries, the possibility of mass production and the wide variety of materials.

Metal Binder Jetting offers a variety of benefits that make it an attractive choice for additive manufacturing. Here are some of the most important advantages at a glance:

Advantage Why you should use MBJ
Precise manufacturing Achieve maximum precision and attention to detail in the production of your components.
Fast production MBJ enables fast production of components, as the layers to be built up can be created very quickly.
Variety of materials Many materials can be processed with MBJ, including stainless steels, nickel-based alloys, cobalt-chrome and titanium.
Mass production MBJ is particularly suitable for mass production, as components can be produced in parallel and in large quantities.
Cost savings The process minimizes material waste and reduces the need for expensive tools or moulds.
Discover the many benefits of metal binder jetting and be inspired by the possibilities offered by this innovative technology. Contact us today for more information or to arrange a personal consultation.

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The future of 3D printing in metal: efficient production, high-quality components and innovative applications

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Wide range of materials

Materials in MBJ technology

MBJ technology enables the use of a wide range of materials, including metals, alloys, ceramics and composites. This opens up a wide range of possible applications in various industries and allows the optimum material to be selected for the specific requirements.

Stainless steel

Stainless steel offers high corrosion resistance and strength, making it ideal for applications in the food industry, medical technology and construction.

Cobalt-chrome

Cobalt-chromium in metal 3D printing - Cobalt-chromium alloys are known for their exceptional resistance to corrosion and temperature. They are ideal for demanding applications in the aerospace and medical sectors.

Nickel alloys

Nickel alloys in metal 3D printing - Nickel alloys are known for their remarkable resistance to extreme temperatures and corrosion. They are used in various industries, including aerospace and power generation.

Tool steels

Text: Tool steels in metal 3D printing - Tool steels are characterized by their high hardness and wear resistance. They are essential for the production of precision tools and components in demanding applications.

Titanium

Titanium in metal 3D printing - Titanium offers a unique combination of strength and light weight. It is a preferred material for demanding applications in the aerospace and medical sectors.

Why we should talk

Our services in the field of MBJ technology

Customized solutions for your requirements

You can rely on our expertise in the field of metal binder jetting. We offer comprehensive services ranging from consulting and feasibility studies to component production, quality control and certification.

Step 1

Consulting and feasibility studies

Our experts are on hand to help you understand your requirements and assess the feasibility of your project. We advise you on the selection of the right materials, optimize the design and support you during implementation.

Step 1

Step 2

Component production

We use state-of-the-art metal binder jetting technologies to produce precise and complex components. Our experienced technicians ensure optimal implementation of your projects and guarantee the highest quality.

Step 2

Step 3

Post-processing and surface treatment

We offer comprehensive post-processing and surface treatment services to ensure that your components have the desired properties and surface qualities.
Step 3

Step 4

Material selection

We have a wide range of metal materials that are suitable for MBJ printing. Depending on your requirements and needs, we can help you select the right material for your application.

Step 4

Step 5

Quality control and certification

We attach great importance to quality assurance. Our components undergo strict quality control procedures to ensure that they meet the highest standards. We also offer you the option of having your components certified.
Step 5

Areas of application for MBJ technology

Industries and products

Discover the wide range of possible applications for MBJ technology in various industries. Here are some examples of practical applications and fields of application:

Aerospace

Production of lightweight components, turbine components, satellite structures

Fields of application
Components for airplanes, rockets and satellites

Medical technology

Production of lightweight components, turbine components, satellite structures

Fields of application
Personalized medical devices and implants

Automotive industry

Engine components, body components, prototypes

Fields of application

Lightweight construction, prototype production

Mechanical engineering

Complex components, wear parts,
tools

Fields of application
Customized components, repair and spare parts

Energy

Turbine blades, components for renewable energy systems

Fields of application
Efficient energy generation and storage

Architecture & Design

Architectural models, customized design objects

Fields of application
Innovative design, prototyping

Electronics

Enclosures for electronic components,
Heat sinks

Fields of application
Precise housing and cooling components

Development

Prototypes for new technologies and
products

Fields of application
Promoting innovation, rapid prototype development

For buyers & customers

Technical information

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Secrecy

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Data formats

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Requirements

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AGBs

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Technical data of the Metal Binder Jetting technology

Technologies Technical data
Maximum component dimension (X,Y,Z) Typically max. 150x100x50mm depending on geometry and material
Accuracy Varies depending on size and geometry +/- 0.05 mm depending on the iteration loop
Layer thickness (from - to) 10 µm - 100 µm
Minimum wall thickness 0.5 mm
Surface structure Smooth to slightly rough surface
Center roughness value (Ra) 3 µm - 25 µm

Quality in MBJ technology

Our quality management ensures compliance with high standards and the delivery of components of first-class quality. We rely on precise process control to achieve the desired results.

The quality of MBJ (Metal Binder Jetting) technology is characterized by various features that result in high-quality and functional components. From surface quality and dimensional accuracy to material properties and component strength, MBJ offers a wide range of advantages. The high level of consistency in component production and the ability to implement complex geometries expand the application possibilities of this innovative manufacturing technology.

At Additive Willmann, quality and customer satisfaction are our top priorities. We focus on maximum precision, material quality and strict quality controls to ensure that your components meet the highest standards. We also attach great importance to sustainability and environmental compatibility.

Frequently asked questions about MBJ technology

Here you will find answers to the most frequently asked questions about metal binder jetting, from material selection to cost structure. Find out more about the process, accuracy and post-processing options.

Various metals can be used in metal binder jetting, such as stainless steels 17-4 PH, 304L, 316L, cobalt chromium CoCrMo as well as nickel alloys IN625, IN718, tool steels, titanium and copper.

The metal binder jetting process offers high accuracy with a typical resolution of around 0.05 mm.

After the metal binder jetting process, depending on the requirements of the component, post-processing steps of common surface treatments, coatings and machining steps can be carried out.

The duration of the metal binder jetting process depends on various factors such as component size, complexity and material. As a rule, the production time is in the range of 2 to 5 days.

The costs of metal binder jetting are influenced by various factors such as material costs, component size, complexity and the desired quantity. An individual project analysis is required for an accurate cost estimate.

Your contact persons

Ready for your breakthrough with 3D printing? Do you have any questions or need more information? Feel free to contact us, we are always at your disposal. 

Jörg Willmann

Managing Director

Carina Willmann

Key Accounting & Marketing

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