Plastic
Brousse Industrial Products offers an extensive range of industrial plastics in various formats and dimensions.
Engineering plastic alloys are blends of two or more polymers designed to combine their respective properties to obtain a material with enhanced characteristics. These alloys allow for the creation of custom plastics that meet specific industrial needs.
Their main advantages are:
- Improved mechanical strength
- Increased thermal resistance
- Improved chemical resistance
- A good performance-to-cost ratio
Engineering plastic alloys find applications in various sectors such as automotive, electronics, and aerospace. For example, they can combine the lightness of polypropylene with the impact resistance of polyethylene.
The development of these alloys requires expertise in materials science to ensure polymer compatibility and optimize their final properties.
| Name | Full name | |
|---|---|---|
| PETP Plastic (POLYETHYLENE TEREPHTHALATE) | POLYETHYLENE TEREPHTHALATE | |
| PEEK – Ketron | PEEK | |
| Plastique Polyamide 6 – PA | Polyamide 6 | |
| Polyamide 6.6 Plastic – PA6.6 | Polyamide 6.6 | |
| Cast Polyamide 6 Plastic – PA6G | Cast Polyamide 6 | |
| Polyamide 11 Plastic – Rilsan | Polyamide 11 | |
| Polyacetal Copolymer Plastic – POM-C | Polyacetal Copolymer | |
| Polycarbonate Plastic – PC | Polycarbonate | |
| Polymethyl Methacrylate Plastic – PMMA | Polymethyl Methacrylate | |
| Polypropylene Plastic – PP | Polypropylene | |
| PVC Plastic – Polyvinyl Chloride | Polyvinyl Chloride | |
| HD 500 Polyethylene Plastic | HD 500 Polyethylene | |
| HD 1000 Polyethylene Plastic | HD 1000 Polyethylene | |
| Teflon Polytetrafluoroethylene (PTFE) Plastic | Polytetrafluoroethylene | |
| CELERON – Bakelized Wood | CELERON |