Additive Manufacturing with Precision
From the Idea to the Component - Fast, Flexible, Innovative.
With state-of-the-art 3D printing technology, we realize precise prototypes and functionally integrated components in the shortest possible time. Through the close connection of design, simulation and manufacturing, we shorten development cycles, reduce costs and open up new design freedoms.
What We Achieve with Additive Manufacturing
Faster to the Perfect Solution
At BAUMANN Engineering, additive manufacturing is far more than 3D printing: it is an integral part of our development processes. The close integration of design and manufacturing creates solutions that go beyond classic rapid prototyping.
We use the technology to significantly shorten development times, realize complex geometries and hybrid components, and identify optimization potential at an early stage. Prototypes that take several weeks in conventional manufacturing are often available after just a few days with our process.
This is how we bring ideas into reality faster and create tailor-made components that impress in terms of function, efficiency and quality.
3d Printing for Fast and Precise Product Development
Innovation through Integrated Engineering and its Advantages
Additive manufacturing at BAUMANN Engineering is seamlessly integrated into the entire product development process. This means: short development cycles, a high degree of design freedom and functionally optimized components.
With our systems, we realize prototypes, functional samples and hybrid components with impressive precision and quality. Already in the concept phase, we analyze potentials in order to design components functionally, economically and ready for production – for results that convince in every respect.
Our Approach
- Use additive manufacturing in a targeted manner where it brings the greatest added value.
- Intelligently combine processes with classic manufacturing.
- Measurably reduce development times and costs.
Early Optimization of Components
Already in the concept phase, we analyze your designs and processes. In this way, we identify potential for improvement at an early stage and implement it in a targeted manner.
Reduced Development Times
We shorten iteration loops, which take several weeks with conventional manufacturing, to just a few days with 3D printing. This saves time and reduces costs.
Complex Hybrid Components & Assemblies
Additive manufacturing enables the integration of different functions and materials in one component. This increases the performance and efficiency of your products.
Additive Manufacturing in the Development Process
The advantages become clear in a direct comparison:
While several weeks have to be planned for a prototype with conventional manufacturing, initial results are already available after 1-2 days with additive manufacturing. This allows development cycles to be drastically shortened and product ideas to be realized much faster.
Our Manufacturing Technologies at a Glance
So that we can offer the optimal solution for every requirement, we rely on various 3D printing processes:
FDM Technology (Fused Deposition Modeling)
The FDM technology is particularly suitable for fast and cost-effective prototyping. It can be used to produce components from different plastics – from simple functional samples to stable housings.
- Advantages of FDM technology:
Fast implementation, large material selection, economically attractive - Typical applications of FDM technology:
Design models, functional prototypes, devices
FFF/CFF Technology (Fused Filament Fabrication / Continuous Filament Fabrication)
The combination of FFF and CFF creates particularly resilient components, as plastic can be reinforced with endless fibers such as carbon or glass. This creates components that come close to conventional injection molded parts or even metal parts in their stability.
- Advantages of FFF/CFF technology:
High strength, fiber reinforcement for functional parts, durable - Typical applications of FFF/CFF technology:
Functional components, mounting devices, gauges, series components in small quantities
MJF Technology (Multi Jet Fusion, HP Jet Fusion 580)
The MJF technology offers high-precision, detailed and colored components. It is ideal for prototypes and small series where dimensional accuracy and surface quality are crucial. It can be used to realize complex geometries that could not be produced with conventional methods.
- Advantages of MJF technology:
Short production times, high dimensional accuracy, possibility of colored components - Typical applications of MJF technology:
Functional prototypes, small series production, complex geometries, medical technology applications
Are You Planning a Complex Project or Facing a New Challenge?
Let us develop your best solution together.