Competencies

Tools

The experience we have gained over the years in the design and manufacture of injection molds, as well as in the corresponding injection molding process, has enabled us to meet the stringent quality standards of the automotive industry. In collaboration with our partners, we offer comprehensive services for the production of series molds, from design to production and testing phases, even for complex requirements.

Injection molding

Injection molding is a widely used process for the production of plastic components, where the polymer in a semi-liquid state is injected into a mold, then cooled, and solidified. We produce a variety of molds for applications in this field, ranging in complexity from simple tools to multi-component and GID molds.

Multi-component injection molding

Multi-component injection molding, known as 2K or 3K, is used when a part consists of two or more plastics. This allows the combination of different polymers to create a single molded part, combining transparent and/or colored materials, as well as polymeric raw materials with different degrees of rigidity.

Gas-assisted injection molding (GID)

The molds used in Gas-Assisted Injection Molding and abbreviated as GID, allow the production of large plastic components with complex geometries. This technology involves injecting molten plastic material into the mold, followed by the introduction of an inert gas, which distributes the plastic material onto the walls of the mold through pressure, making it adhere to them. This technology produces components with internal cavities whose function is to reduce raw material consumption while simultaneously improving mechanical properties.

Blow molding

The tools used in blow molding employ a similar technology to that of GID injection molding. In this case, the plastic material, in a preformed state, is heated without reaching a molten state and inserted into the mold. Subsequently, an inert gas is introduced, which, through pressure, deforms the heated plastic material and makes it adhere to the mold walls. In the GID process, the gas remains inside the component’s cavities, whereas in blow molding, the gas is released after the molding cycle is completed. This process allows the production of hollow bodies such as bottles, containers, cans, and other products used in various industries.