Description
Personal Safety Netting (PSN) is made from #120 industrial grade, Knotted high Tenacity Nylon with 3-1/2 inch diamond mesh for high impact shock absorption. The netting has been dyed black and treated with Granguard Fire Retardant. PSN Nets are certified to meet the requirements of ANSI A10.11, the U.S. Army Corp. of Engineers, and all applicable OSHA safety rules and regulations.
All Jammar PSN netting is bordered with attachment hooks four feet on-center and staggered for attachment to cable or other nets. Provide ample deflection area under nets. Debris liner available upon request.
Features:
- Personal Safety Protection improves productivity and reduces downtime from injuries and clean up
- Easy to install, easy to use, low maintenance, low cost
All nets are custom made and non-returnable. Jammar can custom make any size net you need, sizing is for pricing purposes only.
Personal Safety Nets | PSN
Fiber | High Tenacity Nylon |
Style | Knotted Nylon Twine, dyed black and bonded |
Cord Diameter | #120 (5 mm) |
Mesh Size | 3-1/2 inch (90 mm) bar 7 inch (180 mm) stretched |
Cord Diameter | #120 (5mm) |
Mesh Break* | 1,145 lbf (5.1 kN) |
Dynamic Drop** | 17.500 ft-lb (23730 N-m) ANSI A10.11 |
Weight | 0.08 lb/ft (390 g/m) |
Melting Point | 489F (254C) |
UV | Extra UV Stabilizers added |
Border Options | Woven Rope |
Color | Black |
** ANSI A10.11 test method: 350 lb test weight dropped 34-1/2 ft into a 17x24 ft bordered net without deformation.
Personal Safety Nets | PSN HD
Fiber | High Tenacity Nylon |
Style | Knotted Nylon Twine, dyed black and bonded |
Cord Diameter | #120 (5 mm) |
Mesh Size | 2-1/2 inch (65 mm) bar 5 inch (130 mm) stretched |
Cord Diameter | #120 (5mm) |
Mesh Break* | 1,145 lbf (5.1 kN) |
Dynamic Drop** | 30.000 ft-lb (40,680 N-m) ANSI A10.11 |
Weight | 0.12 lb/ft (537 g/m) |
Melting Point | 489F (254C) |
UV | Extra UV Stabilizers added |
Border Options | Woven Rope |
Color | Black |
** ANSI A10.11 test method: 350 lb test weight dropped 34-1/2 ft into a 17x24 ft bordered net without deformation.