HP Durable Synthetic Banner 2-Pack 42"x75' 133gsm Roll 2" Core
Availability: Call for Availability
HP Durable Synthetic Banner 2-Pack 42"x75' 133gsm Roll 2" Core
Deliver brilliant, durable banners
Respond to demanding indoor display conditions with a resilient, durable material. Moderately water-resistant and tear-resistant prints drape beautifully. This versatile material is compatible with both Original HP dye- and pigment-based inks and is ideal for photo-quality indoor banners with excellent opacity and over 75 years indoor display permanence. Finishing is quick and easy - see fast dry times in a material that's easy to hang, grommet, and stitch. And it's recyclable.
Stand up to demanding indoor and outdoor display conditions
Tough handling and display conditions demand a resilient, durable material. HP Durable Synthetic banner is engineered with DuPont Tyvek® material and together with Original HP inks, produces moderately water-resistant and tear-resistant prints. Indoor prints last over 75 years.
Offer brilliant vivid images that drape well
Vivid colors, dark blacks, and sharp edge definition create high-impact results. Ideal for a range of banners, this versatile, recyclable material is compatible with both Original HP dye-and pigment-based inks.
This banner can make your job easier
Save time and gain efficiency. ICC profiles help you get the color you need quickly. Fast dry times help keep your workflow moving. Achieve a professional finish with a material that's easy to handle and hang, grommet, or stitch.
Applications:
- POP and retail displays
- Banners
- Geographic Information Systems (GIS)/maps
- Outdoor Banners
Benefits:
- Durable, high-impact photo image quality
- Excellent opacity
- Fast dry time
- Moderately water-resistant prints
- 75+ years indoor, unlaminated display permanence
- Easy to hang, grommet, stitch tear-resistant prints
- Versatile compatibility with both HP dye- and pigment - based inks
- Recyclable through the HP Large Format Media take-back program
- Engineered with DuPont Tyvek material