|Engineering and Design|
In Aitiip we have a team of engineers and designers with the necessary expertise to carry out successfully development and engineering design projects, based on the most innovative and powerful tools.
Design and development of new products
Aitiip's extensive experience in the use of CAD, CAM and CAE tools and in the 2D and 3D design allows us to offer to companies a specialized service of Design and Product Development. Both thermoplastic materials (PP, PA, ABS, etc.) as composite materials (thermosetting resins reinforced with glass fibers, carbon, aramid, etc).
This process includes both the conceptual product design and the adaptation of an existing design to the requirements of both manufacture and use specified by the customer through rheological and mechanical analysis and numerical and computational studies.
Diseño y desarrollo de moldes y utillajes
The technology center has the necessary skills and experience for the design and development of molds, an activity that includes the following disciplines:
• Definition of the technical requirements of molds and tools.
Design and development of tools and processes
In Aitiip we have the capacity to develop both physical tools and software to meet the needs in certain processes that are not commercially available. Thus, we have developed software tools for automatic guidance system for the design and development of polymeric material parts, simulation tools of rheology of certain materials and their behavior, and physical tools for the automatic polishing of molds and tools adapted to robots, and so on.
Aitiip experience in the industry and knowledge about tools and production management philosophies, enable us to advise on the design of industrial plants and manufacturing processes, optimizing resources.
In Aitiip we have a 3D scanning system which consists of a scanner T-SCAN and CERTUS OPTOTRACK of Steinbichler.
Modeling and Simulation
The modeling and simulation tools allow us to optimize the design of a part or a mold before starting production. Through the simulation process, assessement of the features that affect the subsequent production is done, such as thickness, complexity, materials used, and this allows us to optimize inputs, feeding channels, design of the cavities (molds) and production processes (cycle times, processing, etc.).