Chemical resistance, lightness and flexibility make it ideal for products such as containers and pipes.
Molded materials
Plastic injection molding
The molding of thermoplastic products represents one of the most advanced solutions for manufacturing high-precision plastic components. This technique allows versatile materials to be transformed into finished products suitable for a wide range of industrial applications, ensuring high quality and optimized production times.
Characteristics and applications of thermoplastic materials
The choice of plastic material is essential to ensure the strength, flexibility and performance required by the final product. Each material offers specific processing characteristics and properties, making it more or less suitable for certain applications. Among the most commonly used materials in plastic molding are:
- High-performance materials: PBI, PI, TPI, PAI, PES, PPSU, PEI, PSU, PC-HT, PEK, PEEK, LCP, PPS, PFA, PTFE, EFTE, PCTFE, PVDF. These advanced polymers offer excellent mechanical, thermal and chemical resistance properties, making them ideal for industrial and high-tech applications.
- Engineering materials: PC, PA 46, PET, PA 66, PBT, PA6, POM, PMP, PA 12, PPE. These polymers provide high structural performance and are used in automotive, electronics and precision mechanics industries.
- Standard and high-consumption materials: PMMA, PS, ABS, SAN, PE, PP. Widely used across industries for their versatility, lightness and ease of processing.
The thermoplastic materials we work with
Our production facility can efficiently mold a wide range of thermoplastic polymers. Specifically, we are able to process the following materials:
High chemical and mechanical resistance, used in automotive, household appliances and food packaging.
Economical, rigid and easy to process, perfect for packaging and electronic components.
Transparency, impact resistance and thermal stability make it ideal for optical lenses, covers and safety parts.
Excellent rigidity, dimensional precision and low friction, used in gears and mechanical components.
Combination of strength, rigidity and lightness, used in automotive and electronics.
Known as plexiglass, resistant and transparent, used for light signs and safety glazing.
Excellent mechanical and chemical resistance, used for structural components and gears.
Similar to ABS but with greater weather resistance, used in exterior vehicle parts and outdoor equipment.
Rigidity, chemical resistance and transparency make it suitable for containers and medical devices.
Polyethylene
Chemical resistance, lightness and flexibility make it ideal for products such as containers and pipes.
Polypropylene
High chemical and mechanical resistance, used in automotive, household appliances and food packaging.
Polystyrene
Economical, rigid and easy to process, perfect for packaging and electronic components.
Polycarbonate
Transparency, impact resistance and thermal stability make it ideal for optical lenses, covers and safety parts.
POM
Excellent rigidity, dimensional precision and low friction, used in gears and mechanical components.
ABS
Combination of strength, rigidity and lightness, used in automotive and electronics.
PMMA
Known as plexiglass, resistant and transparent, used for light signs and safety glazing.
PA6 - PA66
Excellent mechanical and chemical resistance, used for structural components and gears.
ASA
Similar to ABS but with greater weather resistance, used in exterior vehicle parts and outdoor equipment.
SAN
Rigidity, chemical resistance and transparency make it suitable for containers and medical devices.
These materials represent just some of the possibilities offered by molding technology, each with unique properties and specific advantages for a wide range of industrial applications.
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