Details
Maximum Working Pressure bar
0.26
Length Metres
10
Brand
Norres
Outside Diameter mm
168
Wall Thickness mm
0.6
Weight Kg per Metre
1.050
Vacuum bar
0.050
Inside Diameter mm
160
Working Temperature
-40°C to +90°C
Specification
160mm Inside Diameter x 168mm Outside Diameter, Abrasion-resistant, Anti-static Industrial PU Ducting, 10 Metres, PROTAPE PUR 330 AS, Wall Thickness 0.6mm, Vacuum 0.05 bar, Weight 1.05kg per Metre, Working Temperature -40°C to +90°C, Maximum Working Pressure 0.26 bar, Norres
Made from premium-grade ester Pre-PUR polyurethane, reinforced with a copper-coated spring steel wire helix. Wall Thickness: 0.6mm approx. Applications: Suction and transport hose for abrasive material, e.g. dust, chippings, powder, granules, fibres, etc. Also suitable for fume extraction, e.g. oil. kst, welding fumes and chemical vapours. Permenatly anti-static wall, <109Ω. Super lightweight, highly flexible. High tensile strength and tear resistance. Flame retardant to DIN 4102-B1 and UL94-HB. Optimised flow (observe direction of flow arrow) Microbe resistant. Supplied poly-sleeved in compressed form. Small Bend randius. Good resistance to oil, petrol and chemicals. Wire spiral reinforcement can be earthed. Use clamp type 212/212EC (refer to page 488)
Additional Variants
Product Name
Product Code
Outside Diameter mm
Vacuum bar
Weight Kg per Metre
Maximum Working Pressure bar
Inside Diameter mm
List Price
233
0.025
1.480
0.185
225
Available to Order
58
0.220
0.370
0.82
50
Available to Order
108
0.080
0.670
0.415
100
Immediately Available - 1 in stock
258
0.025
1.640
0.165
250
Available to Order
359
0.020
2.490
0.12
350
Available to Order
83
0.145
0.530
0.55
75
Available to Order
73
0.165
0.460
0.635
65
Available to Order
208
0.030
1.330
0.21
200
Available to Order
133
0.065
0.830
0.335
125
Available to Order
309
0.020
2.140
0.14
300
Available to Order
158
0.055
0.990
0.275
150
Immediately Available - 11 in stock
45
0.355
0.220
1.075
38
Available to Order
409
0.015
2.840
0.106
400
Immediately Available - 1 in stock


