Low, hoʻonāwaliwali lākou Eva kiwikā mauʻeke
Zonpak TM Low melt EVA valve bags are specially designed packaging bags for rubber additives and resin pellets. These bags are to be used with an automatic filling machine. Pack the materials with low melt EVA valve bags, there is no need for sealing after filled and no need for unsealing before putting the bags of material into a banbury mixer. So these EVA valve bags are ideal substitute for traditional kraft and PE heavy duty bags.
High mämä holo a laupaʻi iie hiki ke loaʻa ma ka wale no kau i ka nohona kiwikā awa ma ka luna a ma lalo o kaʻeke a hiki i ka spout o ka hoopiha mīkini. e loaʻa, e like me kekahi iie machines a me nā meaʻano o ka nohona kiwikā. Ka nohona kiwikā mauʻeke i i ka hou mea, makamake nui me ka haʻahaʻa mahele heheʻe i ka wahi, maikai hoʻokaulike me ka laholio, paa a me ka kiʻekiʻe hopena e kū'ē'ē mai. Ma hope o piha ka eke kala 'ana e haʻalele i loko o ka palahalaha cuboid, hiki ke paila iʻia. He pono no ka'ōpala o nā huna, he lepo la, a me kaʻoi loa-ke olonā i ka pauka lako.
Bags with different melting points are available to meet customers’ particular requirement.
They have good meltability and dispersity in the rubber and plastics.
With high tensile strength, impact strength and resistance to puncture, the bags can suit various filling machines.
The bags have excellent chemical stability, no toxicity, good environmental stress cracking resistance, weather resistance and compatibility with the rubber materials e.g. NR, BR, SBR, NBR.
These bags are mainly used for packages of 10-25kg of various particle or powder materials (e.g. CPE, carbon black, white carbon black, zinc oxide, calcium carbonate) in the rubber industry (tire, hose, tape, shoes), plastic processing industry (PVC, plastic pipe and extrude ) and rubber chemical industry.
|Ke Kēhaupaʻa wahi
|65-110 DEG. C
|HI ≥16MPa TD ≥16MPa
|Elongation ma kaʻoluʻolu o
|HI ≥400% TD ≥400%
|Modulus ma 100% elongation
|HI ≥6MPa TD ≥3MPa
|Ili o ka huina hoonui mea i lalo,ʻaʻohe meaʻaʻohe wrinkle,ʻaʻohe Oe.