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Technological Innovation Support
Business unit dedicated to engineering the development of our client’s product.
We support our research and development departments in getting the products the
innovative component necessary within the time frame and with the quality as designated
by the client.
We have a lot of experience in projects with high added value. We provide our clients
with all of the internal knowledge we have at SOLID and
at the same time we help to innovate, helping the client stand out from the rest.
As such, we have optimized the work method and we have found the ideal formula to
carry each project out in such a way that each is a success for both parties.
We give value by sharing experience!
To achieve the goal of offering a complete service at SOLID, we develop projects
in the following ways:
OUTSOURCING
Sub-contracting highly qualified technical personnel. This work method allows for
perfect adaptation to the client’s work method.
- Access to on-site qualified technicians.
- Flexibility in tasks to be carried out.
- Possibility of absorbing work points.
- Tailor-designed office sizing.
- Technical support from the SOLID person in charge.
- Client specialization.
- Access to client database references.
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PROJECTS
Carrying out closed projects in SOLID’s installations.
Beginning with some specifications, the project is developed, start to finish. To
carry out projects, it is key:
- To have well-defined specifications –client-SOLID responsibility
- To carry the project out with milestones
- Fluid communication throughout the entire project (telephone, email, ftp …)
Advantages:<
- Access to SOLID’s internal knowledge (database)
- Internal project management
- Prototyping and trial capacity
- Providing of helpful solutions
- Project control with milestones
Examples of projects:
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FEM
As part of the development of projects carried out at SOLID,
a very important step in optimizing the product is its optimization and validation
through simulation with finite elements. As a result of these analyses, among other
benefits, we obtain:
- Material optimization
- Welding optimization
- Screw optimization
- Frequential behavior optimization
- Deformation optimization
From the results of the studies, we can draw conclusions that can improve design,
such as points of reinforcement, excess material identification, etc.
In the end, it allows us to re-design and optimize as far as tension, weight, and
material quantity and quality goes. As such, along with an adequate design which
will be taken into account during the manufacturing process, we can obtain important
cost reductions.
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