The inner conductor is a heating wire made of suitable material and with appropriate dimensions for electrical resistance heating. This combination is called a sheathed heating conductor. Our further company MiL Heating Systems GmbH Poductname ISOHEAT www.isoheat.de offers ISOMIL-H heating elements with cold ends ready terminated in all lengths on customers requirements.
ISOMIL-H – Mineral Insulated Heating Cables
Mineral Insulated Heating Cables
Cable reference | Resistance | Diameter | Production Lengths |
Ohm/m @ 20°C | (mm) | (m) | |
36,10-2V2S38 | 36,089 | 3,8 | 140 |
29,52-2V2S38 | 29,527 | 3,8 | 140 |
24,60-2V2S38 | 24,606 | 3,8 | 140 |
19,68-2V2S38 | 19,685 | 3,8 | 140 |
16,40-2V2S38 | 16,404 | 3,8 | 140 |
13,12-2V2S38 | 13,123 | 3,8 | 140 |
9,02-2V2S38 | 9,022 | 3,8 | 450 |
8,20-2V2S38 | 8,202 | 3,8 | 450 |
6,56-2V2S40 | 6,562 | 4 | 410 |
5,577-2V2S40 | 5,577 | 4 | 410 |
4,60-2V2S40 | 4,593 | 4 | 410 |
3,28-2CN2S40 | 3,281 | 4 | 410 |
2,30-2CN2S40 | 2,297 | 4 | 410 |
1,97-2CN2S45 | 1,968 | 4,5 | 320 |
1,64-2CN2S45 | 1,64 | 4,5 | 320 |
1,31-2CN2S45 | 1,312 | 4,5 | 320 |
0,98-2CN2S45 | 0,984 | 4,5 | 320 |
0,82-2CN2S40 | 0,82 | 4 | 410 |
0,66-2CN2S40 | 0,656 | 4 | 410 |
0,492-2CN2S40 | 0,492 | 4 | 410 |
0,41-2CN2S40 | 0,41 | 4 | 410 |
0,32-2CN2S40 | 0,328 | 4 | 410 |
0,28-2CN2S48 | 0,279 | 4,8 | 280 |
0,23-2CN2S48 | 0,23 | 4,8 | 280 |
0,16-2C2S48 | 0,164 | 4,3 | 280 |
0,131-2C2S48 | 0,131 | 4,8 | 280 |
0,11-2C2S48 | 0,115 | 4,8 | 280 |
0,098-2C2A45 | 0,098 | 4,5 | 320 |
Description
Max. Voltage Rating | 300 V |
Number of Conductors | 2 |
Resistance | 36089 = 36,089 Ohm/m @ 20°C |
Sheath Material | A = AISI 321, S = AISI 316L, Q = AISI 310, L = Alloy 600, Z = Alloy 825 |
Conductor Material | V = Nichrome, C = Copper, T = Alloy 180, P = Alloy 30, |
Cable reference | Resistance | Diameter | Production Lengths |
Ohm/m @ 20°C | (mm) | (m) | |
2,5V2A34 | 2,5 | 3,4 | 500 |
1,6V2A36 | 1,6 | 3,6 | 450 |
1,0V2A39 | 1 | 3,9 | 400 |
0,63V2A43 | 0,63 | 4,3 | 350 |
0,40V2A47 | 0,4 | 4,7 | 300 |
0,25V2A53 | 0,25 | 5,3 | 280 |
1,6CN2A32 | 1,6 | 3,2 | 700 |
1,0CN2A34 | 1 | 3,4 | 650 |
0,63CN2A37 | 0,63 | 3,7 | 580 |
0,40CN2A40 | 0,4 | 4 | 500 |
0,25CN2A44 | 0,25 | 4,4 | 430 |
0,16CN2A49 | 0,16 | 4,9 | 430 |
0,063C2A32 | 0,063 | 3,2 | 800 |
0,040C2A34 | 0,04 | 3,4 | 750 |
0,025C2A37 | 0,025 | 3,7 | 600 |
0,017C2A46 | 0,017 | 4,6 | 350 |
0,011C2A49 | 0,011 | 4,9 | 300 |
0,007C2A49 | 0,007 | 4,9 | 300 |
0,007C2A53 | 0,007 | 5,3 | 230 |
0,004C2A59 | 0,004 | 5,9 | 100 |
Description
Max. Voltage Rating | 300 V / 500 V |
Number of Conductors | 1 |
Sheath Material | AISI 321, Maximum Cable Sheath Temp. 400°C Other sheath materials available upon request |
Conductor Material | V = Nichrome, CN = Copper-Nickel, C = Copper |
Cable reference | Resistance | Diameter | Production Lengths |
Ohm/m @ 20°C | (mm) | (m) | |
6,56V2S40 | 6,562 | 3,5 | 410 |
5,24V2S40 | 5,249 | 4 | 410 |
4,26V2S40 | 4,265 | 4 | 410 |
3,28V2S40 | 3,281 | 4 | 410 |
2,78V2S40 | 2,789 | 4 | 410 |
2,297V2S40 | 2,297 | 4 | 410 |
1,64V2S40 | 1,64 | 4 | 410 |
1,247V2S40 | 1,247 | 4 | 41 |
0,984CN2S40 | 0,984 | 4 | 410 |
0,82CN2S40 | 0,82 | 4 | 410 |
0,658CN2S40 | 0,656 | 4 | 410 |
0,558CN2S40 | 0,558 | 4 | 410 |
0,492CN2S40 | 0,492 | 4 | 410 |
0,328CN2S40 | 0,328 | 4 | 410 |
0,262CN2S40 | 0,262 | 4 | 410 |
0,230CN2S40 | 0,23 | 4 | 410 |
0,197CN2S40 | 0,197 | 4 | 410 |
0,131CN2S40 | 0,131 | 4 | 410 |
0,118CN2S40 | 0,118 | 4 | 410 |
0,098CN2S40 | 0,098 | 5 | 410 |
0,066CN2S40 | 0,066 | 5 | 410 |
0,052CN2S40 | 0,052 | 4 | 410 |
0,043CN2S40 | 0,043 | 4 | 410 |
0,033C2S40 | 0,033 | 4 | 410 |
0,021C2S40 | 0,021 | 4 | 410 |
0,013C2S45 | 0,013 | 5 | 320 |
0,008C2S58 | 0,008 | 5,8 | 220 |
0,0055C2S50 | 0,005 | 5 | 280 |
0,0033C2S61 | 0,003 | 6,1 | 180 |
0,002C2S72 | 0,002 | 7,2 | 140 |
Description
Max. Voltage Rating | 600 V |
Number of Conductors | 1 |
Resistance | 06562 = 6,56200 Ohm/m @ 20°C |
Sheath Material | A = AISI 321, S = AISI 316L, Q = AISI 310, L = Alloy 600, Z = Alloy 825 |
Conductor Material | V = Nichrome, C = Copper, T = Alloy 180, P = Alloy 30, Q = Alloy 60, B = Constantan, R = Alloy 90 |
Cable reference | Resistance | Diameter | Production Lengths |
Ohm/m @ 20°C | (mm) | (m) | |
10V2A32 | 10 | 3,2 | 200 |
6,3V2A32 | 6,3 | 3,2 | 200 |
4,0V2A32 | 4 | 3,2 | 600 |
2,5V2A36 | 2,5 | 3,6 | 550 |
1,6V2A38 | 1,6 | 3,8 | 500 |
1,0V2A41 | 1 | 4,1 | 450 |
0,63V2A45 | 0,63 | 4,5 | 350 |
0,40V2A50 | 0,4 | 5 | 270 |
0,25V2A56 | 0,25 | 5,6 | 220 |
0,16V2A65 | 0,16 | 6,5 | 150 |
To ensure a suffcient level of dielectric strength between conductor and sheath, the insulation layer thickness was selected as ≥ 1.0 mm for all types in the standard program including the cold cable. It follows that all cables can be operated up to 800 V.
Description
Max. Voltage Rating | 800 V |
Number of Conductors | 1 |
Sheath Material | A = AISI 321, S = AISI 316L, Q = AISI 310, L = Alloy 600, Z = Alloy 825 |
Conductor Material | Nichrome |
Standard Program
Cable reference | Conductor | Cable Diameter | max. Conductor Resistance | Production Lengths | |
No. | Size (mm²) | (mm) | Ohm/km @ 20°C |
(m) | |
1AC1.5 | 1 | 1,5 | 4,9 | 12,1 | 350,00 |
1AC2.5 | 1 | 2,5 | 5,0 | 7,4 | 320,00 |
1AC4 | 1 | 4,0 | 5,1 | 4,6 | 300,00 |
1AC6 | 1 | 6,0 | 6,4 | 3,1 | 190,00 |
1AC10 | 1 | 10,0 | 7,3 | 1,8 | 150,00 |
1AC16 | 1 | 16,0 | 8,3 | 1,2 | 115,00 |
1AC25 | 1 | 25,0 | 9,6 | 0,7 | 84,00 |
1AC35 | 1 | 35,0 | 10,7 | 0,5 | |
1AC50 | 1 | 50,0 | 12,1 | 0,387 | |
1AC70 | 1 | 70,0 | 13,7 | 0,268 | |
1AC95 | 1 | 95,0 | 15,4 | 0,193 | |
2AC1.5 | 2 | 1,5 | 7,9 | 12,10 | 123,00 |
2AC2.5 | 2 | 2,5 | 8,7 | 7,41 | 100,00 |
2AC4 | 2 | 4,0 | 9,8 | 4,61 | 83,00 |
2AC6 | 2 | 6,0 | 10,9 | 3,08 | 65,00 |
2AC10 | 2 | 10,0 | 12,7 | 1,83 | 48,00 |
2AC16 | 2 | 16,0 | 14,7 | 1,15 | 35,00 |
2AC25 | 2 | 25,0 | 17,1 | 0,73 | 26,00 |
Description
Max. Voltage Rating | 750 V |
Sheath Material | SS, Alloy 825, Copper |
Conductor Material | Copper |