Payment & Shipping Terms:
|Outside Materials:||VMPET||Inside Material:||Poly Bubble|
|Optional Colors:||Gold，silver，red，green，yellow，black，blue，pink||Bubble Thickness:||40~200gsm|
|Usage:||Online Shopping，Cosmetics，Luxury Gift||Surface Layer Color:||Light Purple|
LDPE Aluminum Heat Seal Bags , 10.5" X 16" #5 Aluminum Foil Sachet Waterproof
|Since 1975, high density polyethylene film has also been developed. It has high strength, low temperature resistance, moisture proof, and good printing and processability. The largest use of linear low density polyethylene is also made of thin film. Its strength and toughness are better than those of LDPE, and its puncture and rigidity are also good. Its transparency is poor, but it is still slightly better than HDPE.|
|Aluminum Foil Envelopes
Aluminum Foil Envelopes performs well in the packaging of industrial products, hardware, circuit board, electronic parts and component and other static sensitive products for the requirements being vacuum, anti-static, moisture proof, keeping out of light.
The aluminum foil bag is sliver, opaque and glossy.
Aluminum Foil Envelopes’s surface resistance value: 105Ω - 1011Ω.
With great barrier property, heat sealing, corrosion resistance, shading, non-toxic and tasteless features, Aluminum Foil Envelopes protects the content from moisture, static and electromagnetic interference.
The regular design of aluminum foil bags include flat bag, seal-adhesive bag, zip lock bag, three-dimensional bag and organ bag.
The customized thickness, size, design and printing are available.
|Melting Point :||125°C|
|Working Temperature :||-100°C~+110°C|
|Material Density :||0.915g/cm³|
|Common Size :||10.5" x 16" #5|
|Sample Color :||Cyan|
|Basic Material :||LDPE|
|Protruding Characteristics :||Corrosion Resistant|
|Typical Application Industry :||Candy|
|Shape Style :||Flexiloop Handle|
|Classification:||Aluminum Foil Envelopes|
|LDPE is of low strength, hardness and rigidity, but has a high ductility and impact strength as well as low friction. It shows strong creep under persistent force, which can be reduced by addition of short fibers. It feels waxy when touched.|