OUR AMBITION FOR EXCELLENCE IN Toolmaking and FORMING TECHNOLOGY

In our tireless pursuit of reaching the pinnacle of forming technology, continuous research and development is not just a part of our work โ€“ it is the beating heart of our company. We are firmly committed to pushing the boundaries of what is possible and pioneering new advancements. This goal drives us to explore innovative pathways and develop groundbreaking innovations in forming technology and hot forming that will revolutionize lightweight construction in the automotive industry.

Redesigning Forming Technology through Innovative Process Optimization

Our mission in process optimization is aimed at fundamentally changing the world of forming technology. We combine advanced scientific research with applied engineering to develop innovative, yet sustainable and efficient methods. This enables us to offer our customers products and production processes that are unmatched in their class. Our research focuses on innovative heating methods, the digitalization of processes, and advanced analysis and monitoring techniques.

Innovative Tool Concepts for Lightweight Construction in the Automotive Industry

A central focus in forming technology and tool development is optimizing the cooling performance of tools for hot forming. We explore effective methods for heat dissipation to extend the lifespan of the tools and optimize production processes. Furthermore, we are actively engaged in implementing the tailored tempering concept in hot forming tools.

This innovation enables targeted heat treatment and the creation of a soft zone in components, making them ideal for lightweight construction in the automotive industry. Another area of research pertains to cutting behavior during press hardening. Additionally, we are dedicated to reducing wear in forming tools to maximize tool longevity and enhance productivity.

Simulation as the Key in the Development of New Lightweight Components

Our research in the area of forming technology, feasibility analyses and component development focuses intensively on improving simulation models. Our goal is to enable a more precise prediction of forming processes, material behavior, and the properties of end products. By advancing these models, we strive to significantly enhance the realism and accuracy of our simulations. This allows us to make informed decisions and increase the efficiency of developing lightweight solutions in the automotive industry.

Through our partnership with AutoForm, a leader in forming simulation technology, we contribute to the continuous improvement of the software by incorporating valuable insights from our daily work at weba.

Advanced Materials and Tool Steels in Forming Technology

With a focus on high-performance tool steels specifically designed for the challenges in forming technology, we at weba aim for materials that provide greater wear resistance and improved thermal conductivity. By selecting and testing various materials, as well as applying wear-resistant surface coatings, we work to extend the service life of our tools.

Sustainable Innovations in Forming Technology 

In our continuous search for innovations, we are also expanding into new product categories such as hydrogen production. Here, we research tools and processes that enable efficient hydrogen production to meet the growing demand for clean energy. Our research in process optimization, tool and component development, and material selection not only advances forming technology but also contributes to shaping a more sustainable future.

Cooperations and Synergies: Our Path to Outstanding Lightweight Solutions and Innovations in Forming Technology

Collaborations and partnerships are key to success in our R&D department. We work closely with renowned technical universities and reliable partners in steel production, software development, heat treatment systems, laser systems, and joining technology. This cooperation allows us to develop innovative solutions and refine existing processes. The result is top-quality products and optimized production processes that significantly influence lightweight construction in the automotive industry.

FROM RESEARCH TO REALITY: OUR LATEST DEVELOPMENTS