The company embraces the latest technological innovations in the field of mould and die design and manufacture. We are constantly investing in cutting-edge technology from advanced simulation to precision CNC milling techniques: this allows us to offer solutions that meet the highest customer standards.
The company embraces the latest technological innovations in the field of mould and die design and manufacture. We are constantly investing in cutting-edge technology from advanced simulation to precision CNC milling techniques: this allows us to offer solutions that meet the highest customer standards.
A careful and meticulous initial analysis of the part characteristics is fundamental to the success of any project. This examination offers a clear view of feasibility even before allocating resources to its development. We then proceed with product industrialisation, involving the optimisation of the production process, the selection of suitable materials and the implementation of all technical strategies suitable for the efficiency of the production cycle that the mould or die will perform.
A careful and meticulous initial analysis of the part characteristics is fundamental to the success of any project. This examination offers a clear view of feasibility even before allocating resources to its development. We then proceed with product industrialisation, involving the optimisation of the production process, the selection of suitable materials and the implementation of all technical strategies suitable for the efficiency of the production cycle that the mould or die will perform.
A careful and meticulous initial analysis of the part characteristics is fundamental to the success of any project. This examination offers a clear view of feasibility even before allocating resources to its development. We then proceed with product industrialisation, involving the optimisation of the production process, the selection of suitable materials and the implementation of all technical strategies suitable for the efficiency of the production cycle that the mould or die will perform.
Through this analysis and reconstruction process, we can model a part in a 3D environment, beginning with laser scanning of the physical model and concluding with the definition of its geometry, dimensions, and material analysis. All this facilitates the creation of a detailed digital model useful for maintenance, any improvements or the creation of a new mould or die.
Through this analysis and reconstruction process, we can model a part in a 3D environment, beginning with laser scanning of the physical model and concluding with the definition of its geometry, dimensions, and material analysis. All this facilitates the creation of a detailed digital model useful for maintenance, any improvements or the creation of a new mould or die.
Reverse
engineering
Through this analysis and reconstruction process, we can model a part in a 3D environment, beginning with laser scanning of the physical model and concluding with the definition of its geometry, dimensions, and material analysis. All this facilitates the creation of a detailed digital model useful for maintenance, any improvements or the creation of a new mould or die.
With the aid of robust software at our disposal, it becomes possible to foresee any critical issues in the casting process and consequently achieve an optimal mould or die layout for every production need. With this process we can provide detailed information on product distribution, temperatures, flow rates and other critical parameters during casting. With this data we can optimise mould or die design and casting conditions, prevent defects, improve process efficiency, and ensure part quality.
With the aid of robust software at our disposal, it becomes possible to foresee any critical issues in the casting process and consequently achieve an optimal mould or die layout for every production need. With this process we can provide detailed information on product distribution, temperatures, flow rates and other critical parameters during casting. With this data we can optimise mould or die design and casting conditions, prevent defects, improve process efficiency, and ensure part quality.
With the aid of robust software at our disposal, it becomes possible to foresee any critical issues in the casting process and consequently achieve an optimal mould or die layout for every production need. With this process we can provide detailed information on product distribution, temperatures, flow rates and other critical parameters during casting. With this data we can optimise mould or die design and casting conditions, prevent defects, improve process efficiency, and ensure part quality.
To ensure the high-quality standards required by the sectors in which we operate, we conduct dimensional surveys. We perform measurements on both the parts we manufacture to monitor the conformity of the production process and on the samples produced by the mould or die, generating comprehensive and analytical reports.
To further optimise this phase, a significant portion of the measurements are already conducted on the machine using measuring probes.
To ensure the high-quality standards required by the sectors in which we operate, we conduct dimensional surveys. We perform measurements on both the parts we manufacture to monitor the conformity of the production process and on the samples produced by the mould or die, generating comprehensive and analytical reports.
To further optimise this phase, a significant portion of the measurements are already conducted on the machine using measuring probes.
To ensure the high-quality standards required by the sectors in which we operate, we conduct dimensional surveys. We perform measurements on both the parts we manufacture to monitor the conformity of the production process and on the samples produced by the mould or die, generating comprehensive and analytical reports.
To further optimise this phase, a significant portion of the measurements are already conducted on the machine using measuring probes.
The hardness conformity of each part is internally certified using hardness testers both before and after hardening.
The hardness conformity of each part is internally certified using hardness testers both before and after hardening.
The hardness conformity of each part is internally certified using hardness testers both before and after hardening.
When necessary, we offer on-site assistance during the sampling phase. Thanks to our specialised staff, we can support the initial delicate stages of mould or die start-up.
When necessary, we offer on-site assistance during the sampling phase. Thanks to our specialised staff, we can support the initial delicate stages of mould or die start-up.
When necessary, we offer on-site assistance during the sampling phase. Thanks to our specialised staff, we can support the initial delicate stages of mould or die start-up.
We carry out extraordinary maintenance to ensure efficient and quality production.
These operations go beyond ordinary maintenance and may involve substantial repairs, significant modifications or work to solve critical problems that compromise the functionality of the moulds or dies.
We carry out extraordinary maintenance to ensure efficient and quality production.
These operations go beyond ordinary maintenance and may involve substantial repairs, significant modifications or work to solve critical problems that compromise the functionality of the moulds or dies.
SUPPLEMENTARY
MAINTENANCE
We carry out extraordinary maintenance to ensure efficient and quality production.
These operations go beyond ordinary maintenance and may involve substantial repairs, significant modifications or work to solve critical problems that compromise the functionality of the moulds or dies.