low m highest Basic requirements m 400m Travel distan ce uroupported none D highest Oil resistance none O 180 Torsion Motor cabie I TPE I chainflex CF35.UL Class 6.6.4.1 Properties and approvals , , UV resistance High. For extremely heavy duty applications , I TPE outer jacket Shielded lt: .l Oil resistance Oil resistant (following DIN EN 60811-404), bio-oil resistant (following VDM A oil Oil-resistant, bio-oil-resistant 24568 with Plantocut 8 S-MB tested by DEA), Class 4. Flame retardant Flame retardant According to IEC 60332-1-2, CEi 20-35, FT1, VW-1 UV-resistant Hydrolysis and microbe-resistant Silicone-free Free from silicone which can affect paint adhesion (following PV 3.1 O. 7 - status 1992). UUCSA Style 10492 and 21184, 1 OOO V, 80 ac Q ynamic information .. Bend radius e-chain linear minimum 7.5 x d NFPA Following NFPA 79-2012 chapter 12.9. . G--- flexible minimum 6xd minimum 4xd DNV-GL Certified according to GL type testing - Certificate no.: 61 938-14 HH < ) ( Temperatura e-chain linear -35 ac to +90 ac flexible -45 ac to +90 ac (following DIN EN 60811-504) EA Certificate no. RU C-DE.ME77.B.02324 (TR ZU) fixed -50 ac to +90 ac (following DIN EN 50305) lR C e vmax. unsupported 10 m/s CTP Certificate no. C-DE.PB49.B.00420 (Fire safety) e gliding 6m/s 2 ( amax. 80 m/s CEi Following CEi 20-35. o:. Travel distance Unsupported travel distanoes and up to 400 m and mare for gliding applica Lead-free Following 2011/65/EU (RoHS-II). tions, Class 6 Cabie structure c1eanroom According to ISO Class 1. Outer jacket materia complies with CF34.UL.25.04.D, 9 2 Conductor Cores < 1 O mm : Stranded conductor in especially bending-resistant design tested by IPA according to standard 14644-1. consisting of bare copper wires (following DIN EN 60228). Following 2014/35/EU. 2 Cores 2, 1 O mm : Conductor consisting of pre-wound conductor bundles (fol lowing DIN EN 60228). Core insulation Mechanically high-quality, especially low-capacitance TPE mixture. imus ( Core structure Cores wound with a short pitch length around a high tensile strength centre element. Temperatura, R min. lfactor x d Rmin. factorx d R min. factor x d Core identification Black cores with white numerals, one core green-yellow. from/to C 1. Core: U/ L1 /C/L + 2. Core: V/ L2 -35/-25 10 11 12 3. Core: W/ L3 / D / L-4. Core: 4 / N -25/+80 7.5 8.5 9.5 lnner jacket TPE mixture, adapted to suit the requirements in e-chains . +80/+90 10 11 12 < * Higher number of double strokes Online lifetime calculation: www.igus.eu/chainflexlife rtfJ) Overall shield Extremely bending-resistant braiding made of tinned copper wires. Coverage approx. 70 % inear, approx. 90 % optical Typical mechanical application areas Outer jacket Low-adhesion, extremely abrasion-resistant and highly flexible TPE mixture, For extremely heavy duty applications adapted to suit the requirements in e-chains . Almost unlimited resistance to oil, also with bio-oils Colour: Signal black (similar to RAL 9004) lndoor and outdoor applications, UV resistant CFRIP Strip cables aster: a tear strip is moulded into the inner jacket Unsupported travel distances and up to 400 m and mare for gliding applications Video www.igus.eu/CFRIP Storage and retrieval units for high-bay warehouses, Machining units/machine tools, quick handling Electrical information equipment, Clean room, semiconductor handling, outdoor cranes, low temperature applications Nomina voltage 600/1 OOO V following DIN VDE 0298-3) u ,&. Testing voltage 4000 V (following DIN EN 50395) 315 fixed low m highest Basic requirements m 400m Travel distance uroupported none D highest Oil resistance none O 180 Torsion Motor cabie I TPE I chainflex CF35.UL Class 6.6.4.1 Strip cables 50% taster Example image Part No. Number of cores and conductor Outer diameter Copper Weight nomina cross section (d)max. index 2 mm mm kg/km kg/km CF35.UL.05.04 (4G0.5)C 8.0 44 88 CF35.UL.07.04 (4G0.75)C 8.5 58 110 CF35.UL.15.04 (4G1.5)C 10.0 94 158 CF35.UL.25.04 (4G2.5)C 11.5 142 223 CF35.UL.40.04 (4G4.0)C 13.5 223 341 CF35.UL.60.04 (4G6.0)C 16.0 326 482 CF35.UL.100.04 (4G10.0)C 19.5 500 721 CF35.UL.160.04 (4G16.0)C 23.0 798 1083 CF35.UL.250.04 (4G25.0)C 27.5 1273 1636 CF35.UL.60.03.O.PE (3x6.0)C 15.0 256 387 111 CF35.UL.160.03.O.PE (3x16.0)C 21.0 610 848 CF35.UL.250.03.O.PE (3x25.0)C 25.0 973 1299 CF35.UL.350.03.O.PE (3x35.0)C 28.5 1318 1797 CF35.UL.500.03.O.PE (3x50.0)C 33.5 1828 2452 111 Phase-out model Note: The given outer diameters are maximum values and may tend toward lower tolerance limits. G = with green-yellow earth core x = without earth core imus 316 317