Innovation and collaborative, synchronized program management for new programs
Transform automotive manufacturing by embracing digitalization for more competitive, cost-effective, and efficient processes. Our solutions streamline the entire tool development process including part design, tool assembly layout, and detailed tooling design and validation. Using the advanced functionality of our solutions, step-by-step guidance, and associativity with part designs, you can work with even the most challenging tooling and fixture designs.
Transform automotive manufacturing by embracing digitalization for more competitive, cost-effective, and efficient processes. Our solutions streamline the entire tool development process including part design, tool assembly layout, and detailed tooling design and validation. Using the advanced functionality of our solutions, step-by-step guidance, and associativity with part designs, you can work with even the most challenging tooling and fixture designs.
Designing and simulating tooling and fixtures virtually as digital twins increases manufacturing output and quality by optimizing the design of tooling and fixtures before ahead of time.
Our solution guides you through all of the stages required to design a progressive die, automating the most tedious tasks and streamlining the most complex processes for both straight break and freeform sheet metal parts. You can design the complete die structure with associativity to the part design at every stage.
The advanced capabilities of our solution for designing automotive stamping dies include formability analysis, die planning, die face design, detailed die structure design and die validation. By guiding you in defining the process used to manufacture complex stamped sheet metal parts it produces a virtual representation of the press line and modeling the shape of the sheet metal as it leaves each press.
Our solution for electrode design incorporates numerous industry best practices into a step-by-step approach that automates the electrode design and manufacturing process. Additionally, jig and fixture designs are fully associative to the part model so you can quickly and accurately update fixtures based on part model changes. Easily position and mate fixture components with the assembly and then automatically create drawings and documentation for the fixture and its components. It is also possible to easily check for strength and distortion by simulating the kinematics of fixtures, such as opened and closed positions.
Explore the key areas of this solution.
Create revolutionary products using our integrated additive manufacturing software. Design, simulate, prepare, print, and validate prototype or production parts on a wide range of 3D printing equipment.
By providing a common source of BOM information across your organization that is flexible and scalable, you can meet and exceed the market demand for more innovative and varied product offerings.
Digitalize your quality control process by connecting CMM inspection programming, execution, and measured data analysis to meet demanding requirements for product quality.
Efficiently program any job – from production machining and mold manufacturing to 5-axis milling and automated robotic operations – using one computer-aided manufacturing (CAM) software.
Address the complex and specialized composite manufacturing processes through an intelligent design-to-manufacturing composite solution that is fully integrated into commercial 3D CAD systems.
Ensure proper mold cooling through thermomechanical simulation of manufacturing process. Optimize the design of molds for manufacturing of composites through simulation of curing and complete mold process performance.
Design, simulate and optimize jigs and tooling fixtures through structural analysis, vibration analysis and topology optimization. Reach targets like minimum stiffness, optimal weight or avoiding unwanted vibration.
Connect people, systems and machines through manufacturing process planning using a digital thread to accumulate knowledge and continuously improve operations.
Integrate quality parameters during product design, manufacturing planning and production to eliminate costly product quality issues.
Ensure proper mold cooling through thermomechanical simulation of manufacturing process. Optimize the design of molds for manufacturing of composites through simulation of curing and complete mold process performance.
Design, simulate and optimize jigs and tooling fixtures through structural analysis, vibration analysis and topology optimization. Reach targets like minimum stiffness, optimal weight or avoiding unwanted vibration.