Fast delivery Low Melt EVA Bags For Silica - Low Melt EVA Bags – Zonpak
Fast delivery Low Melt EVA Bags For Silica - Low Melt EVA Bags – Zonpak Detail:
Low melt EVA bags (batch inclusion bags) are specially designed packing bags for rubber ingredients and chemicals used in the rubber and plastic compounding process. The compounding materials can be pre-weighed and temporarily stored in these bags. Due to their property of low melting point and good compatibility with natural and synthetic rubber, the bags together with the materials inside can be direct put into an internal mixer, and the bags will melt and fully disperse in the rubber or plastic as a minor effective ingredient.
BENEFITS:
- Assure accurate adding of additives and chemicals
- Make pre-weighing and storing of materials easy
- Provide clean mixing area
- Decrease waste of additives and chemicals
- Reduce workers’ exposure to the harmful materials
- Leave no packaging waste
APPLICATIONS:
- carbon black, silica (white carbon black), titanium dioxide, anti-aging agent, accelerator, curing agent and rubber process oil
OPTIONS:
- colour, printing, bag tie
SPECIFICATION:
- Material: EVA
- Melting point: 65-110 deg. C
- Film thickness: 30-100 micron
- Bag width: 150-1200 mm
- Bag length: 200-1500mm
Product detail pictures:
Related Product Guide:
We emphasize advancement and introduce new products and solutions into the market each year for Fast delivery Low Melt EVA Bags For Silica - Low Melt EVA Bags – Zonpak, The product will supply to all over the world, such as: Bangalore , Norway , Leicester , Our Company has professional engineers and technical staff to answer your questions about maintenance problems, some common failure. Our product quality assurance, price concessions, any questions about the products, Please feel free to contact us.
By Arabela from Egypt - 2018.09.21 11:44
Customer service staff and sales man are very patience and they all good at English, product's arrival is also very timely, a good supplier.
By Kevin Ellyson from Florida - 2017.09.22 11:32