Company
Incorporated in 1994 and certified to UNI EN ISO 9001: 2015, 3P Plast is specialised in the production of moulded components primarily for office chairs and for the building construction industry, containers for sorted waste collection and plastic grids to create trafficable grassed areas and gardens.
Thanks to the size of the organisation, which has facilities in two sites for a total area of 30,000m2 of which 12,000m2 covered, and thanks also to the use of twelve high tonnage injection moulding machines with clamping force from 250 to 1,800 tonnes and injection capacity of up to 20,000g, plus a plastics regeneration line, 3P Plast has a production capacity in excess of 9,000 tonnes of converted plastic with an annual output of more than eight million articles, while also offering an efficient and flexible fully stocked warehouse service.
3P Plast mainly moulds Polyethylene (PE), Polypropylene(PP), Nylon (PA) and ABS.
The flexibility and experience of 3P Plast in the field of injection moulding allows us to offer a tangible response to customer requirements, to handle subcontracting moulding work and to develop projects also in a participatory formula.
MISSION
- Fulfill costumer’s needs and follow them efficiently during the production.
- Respect ISO norms.
- Respect the environment by encouraging its savage and plastic recycling.
QUALITY AND TECHNOLOGY
Clear proof of 3P Plast’s focus on quality, production optimisation and customer satisfaction is evident from the fact that the company had already secured EN ISO 9002 certification back in 2001.
Moreover, 3P Plast has always ascribed the utmost importance to technology as one of its core values – Italian technology in particular – and uses the most advanced thermoplastics injection moulding machines available on the market made by top international manufacturers including Oima, Plastic Metal and BMB.
GENERAL CONDITIONS OF SALE ABOUT PLASTIC MATERIAL REGENERATION
Click below to download the complete document about general conditions of sale about plastic materials regeneration.