Complex engineering calculations were required for machine configuration across different materials and operating scenarios.
Unison
A multi-platform application supporting complex engineering calculations used in the design and operation of tube bending machinery.
Unison designs and manufactures tube bending machines used in precision engineering environments where machine setup and configuration need to be handled accurately.
These machines require calculations across different materials, geometries, and production scenarios so operators and engineers can configure them correctly for the job in front of them.
Previously, these calculations relied on manual methods or fragmented tools, making the process slower, harder to standardise, and more difficult to apply consistently across different use cases.
Complex engineering calculations were required for machine configuration across different materials and operating scenarios.
Manual or fragmented tools slowed down engineering workflows and made the process harder to standardise.
Calculation outputs needed to stay consistent across different machines, jobs, and users.
The system had to support multiple configurations and use cases without losing clarity.
Results needed to be accurate, repeatable, and dependable in a production-oriented environment.
Interfaces had to remain usable for engineers working with practical machine setup decisions.
A calculation platform accessible across devices so engineers and operators can use the same system in different working contexts.
Calculation rules are applied from defined machine and material parameters rather than from inconsistent manual methods.
Users can input and adjust variables through interfaces designed for technical, day-to-day engineering use.
The system generates calculation outputs immediately to support configuration, setup, and decision-making.
The same logic is applied across different scenarios to improve repeatability and confidence in results.
The platform handles different machine configurations and engineering scenarios within one connected system.
Calculation logic can be updated over time as machines, products, and process requirements evolve.
Engineering calculations can be completed more quickly than with manual or fragmented approaches.
Teams rely less on manual methods and disconnected tools for machine configuration work.
Calculation consistency supports more accurate setup across different machine scenarios.
The platform is easier to use in day-to-day technical work than ad hoc calculation methods.
The application can adapt alongside product changes, machine updates, and process development.
Need to simplify complex engineering calculations?
Talk to us about your systems →We will give you a straight answer on how we can help. No pitch. No template proposal.