Construction: Medium duty abrasion resistant polyurethane liner with static dissipating PVC cover and sturdy clockwise PVC helix.
Application: Dust collection, dry fertilizer, plastic pellets or any dry medium abrasive requirements.
Features:
Application: Dust collection, dry fertilizer, plastic pellets or any dry medium abrasive requirements.
Features:
- Abrasion resistant PU tube
- Clear visual flow
- -40ºF cold weather resistance
- Sub-zero flexibility
- Easy to drag with "Go-Glide" external clockwise PVC helix
- Static dissipating PVC cover compound
Unit of Measure
Specifications
Inside Diameter
|
N/A 4 in101.60 mm |
Outside Diameter
|
N/A 4.57 in116.08 mm |
Reinforcement |
N/A PVC Helix |
Maximum Working Pressure at 68 ºF1 |
N/A 1.03 bar15 psi |
Vacuum at 68 ºF |
N/A 13.0 inHg |
Minimum Bend Radius (MBR) |
N/A 6.00 in152.40 mm |
Weight |
N/A 1.01 lbs/ft1.50 kg/m |
Standard Length |
N/A 100 ft |
Temperature Range |
N/A -40 to +60 ºC-40 to +140 ºF |
Liner Material |
N/A Polyurethane |
Cover Material |
N/A Polyvinyl Chloride (PVC) |
Helix Material |
N/A Polyvinyl Chloride (PVC) |
Direction of Helix |
N/A Clockwise |
Design Factor |
N/A 3:1 |
Applications |
N/A Dust collection, dry fertilizer, plastic pellets or any dry medium abrasive requirements. |
Construction
Construction |
N/A Medium duty abrasion resistant polyurethane liner with static dissipating PVC cover and sturdy clockwise PVC helix. |
Features
Features |
N/A
|
Note
Note |
N/A
All sizes may not be stocked in all locations. We disclaim any liability for use of our products in applications other than which they are designed. Hoses are constantly being upgraded. Jason Industrial reserves the right to make changes in construction without prior notice. |
California Proposition 65 Information
California Proposition 65 Information |
N/A This product can expose you to chemicals including DINP, which is known to the State of California to cause cancer or birth defects or other reproductive harm. For more information visit https://www.p65warnings.ca.gov/ |
- 1 Working pressure is temperature dependent.