Well-designed Valve Box Bag - Low Melting Point Valve Bags – Zonpak
Well-designed Valve Box Bag - Low Melting Point Valve Bags – Zonpak Detail:
ZonpakTM low melting point valve bags are specially designed for the industrial packaging of rubber chemicals and resin pellets (e.g. carbon black, zinc oxide, silica, calcium carbonate, CPE). Using the low melting bags, material suppliers can make 5kg, 10kg, 20kg and 25kg packages which can be direct put into an internal mixer by the material users during rubber compounding process. The bags will melt and fully disperse into the rubber compounds as a minor ingredient.
BENEFITS:
- No fly loss of materials when packing.
- Improve the material packing efficiency.
- Facilitate the stacking and palletizing.
- Help material users reach accurate dosing of materials.
- Provide material users with cleaner work environment.
- Eliminate the disposal of packaging waste
SPECIFICATION:
- Melting point available: 70 to 110 deg. C
- Material: virgin EVA
- Film thickness: 100-200 micron
- Bag size: 5kg, 10kg, 20kg, 25kg
Product detail pictures:
Related Product Guide:
Our personnel are always in the spirit of "continuous improvement and excellence", and together with the top-quality good quality solutions, favorable selling price and superior after-sales providers, we try to acquire each customer's rely on for Well-designed Valve Box Bag - Low Melting Point Valve Bags – Zonpak, The product will supply to all over the world, such as: Turkey , New Zealand , Comoros , We insist on the principle of "Credit being primary, Customers being the king and Quality being the best", we are looking forward to the mutual cooperation with all friends at home and abroad and we will create a bright future of business.
By Roxanne from Toronto - 2017.05.21 12:31
Company director has very rich management experience and strict attitude, sales staff are warm and cheerful, technical staff are professional and responsible,so we have no worry about product,a nice manufacturer.
By Tyler Larson from Ukraine - 2017.06.25 12:48