From the product idea through to production start-up, we support mold makers and molders with analyses and simulations, aiming to optimise process times, use resources efficiently and control costs.
Investments in molds can be considerable; Moulding Devup ensures that costs are accurately estimated from the design phase, preventing unpleasant surprises when production begins.
Moulding Devup plays a crucial role in optimising time by identifying potential issues and obstacles in design and production at an early stage, allowing timely corrective actions.
New materials bring ever-evolving challenges, even for the most experienced mold makers. Moulding Devup makes it possible to understand and predict the behaviour of these new materials.
Designing and manufacturing an effective mold requires cross-functional expertise, up-to-date tools, and a comprehensive overall vision.
With our engineering and simulation service, we support you in every phase of the project — from concept to testing — to optimise time, improve results, and reduce costs.
Our approach is practical, technical, and problem-solving oriented, with one clear goal: helping you work better, faster, and more efficiently.
We transform your ideas into production-ready products, offering complete solutions from analysis to final testing.
We handle high-performance materials with optimized processes for precision, strength and aesthetic quality.
We carry out tests and simulations to ensure reliability, durability and optimal performance in production.
We analyse and improve every stage of the molding process to reduce costs, time and defects, increasing production efficiency.
Moldability verification, wall thickness analysis, ribs, geometries.
Cooling optimization, thermal calculations, efficiency and cycle time improvement.
Advanced analyses to validate solutions before mold trials.
Delivery of an optimized technical “recipe” for the first testing phase.
The existing hydraulic piston did not allow proper modulation of force and unscrewing speed, causing excessive actuation times and potential risks to the mechanism.
We replaced the hydraulic piston with an electric actuator controlled by the GiMotor Light unit. The software was configured to ensure a slow start followed by acceleration to maximum speed for the rest of the stroke.
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