Materials and their characteristics

The DOTHERM supply programme encompasses semi-finished products through to ready-to-install mounted assemblies.
The following displays all important properties of the materials that we process:

  Application
temperature
(°C)
Compressive
strength
(N/mm2)
Flexural
strength
(N/mm2)
Thermal
conductivity
(W/mK)
Linear thermal
expansion coefficient
(10-6 I/K)
Electrical
dielectric
strength
(KV/3mm)
Creepage current
resistance
Combustibility
UL94
  permanent short term at 23°C at 23°C          
DOTEX® 110 110 110 320 100 0.2 30 1.5 CTI 100 -
DOTEX® 120 120 120 300 135 0.2 30 10 CTI 100 -
DOGLAS® 155 155 210 250 130 0.3 22 36 CTI 600 V0
DOGLAS® 180 E 155 180 350 340 0.3 15 30 CTI 180 -
DOGLAS® 180 G 180 210 600 450 0.3 15 30 CTI 350 -
DOGLAS® 180 H 180 180 645 480 0.3 15 60 CTI 225 -
DOGLAS® 220 M 220 230 500 350 0.22 10 39 CTI 150 -
DOGLAS® 230 R 230 250 700 720 0.23 13 39 CTI 500 V0
DOGLAS® 230 230 250 450 450 0.23 13 30 CTI 200 -
DOGLAS® 240 240 250 400 120 0.3 15 15 CTI 450 V0
DOGLAS® 250 G 250 260 570 400 0.23 20 30 CTI 350 -
DOGLAS® 250 M 250 260 600 350 0.23 15 39 CTI 600 V0
DOGLAS® 250 HQ 250 260 660 780 0,23 12 39 CTI 500 -
DOGLAS® 280 300 320 500 250 0,3 10 20 CTI 600 V0

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

  Application
temperature
(°C)
Compressive
strength
(N/mm2)
Flexural
strength
(N/mm2)
Thermal
conductivity
(W/mK)
Linear thermal
expansion coefficient
(10-6 1/K)
Electrical
dielectric
strength
(KV/3mm)
Creepage current
resistance

Arc resistance
VDE0303-71
(seconds)

  permanent short term at 23°C at 23°C          
DOTHERM® 700 700 700 120 32 0.37 6 8,7 - > 370
DOTHERM® 1000 1000 1000 35 18 0.50 6.4 14.1 CTI 600 > 420
DOTHERM® 1100 1100 1100 16 7 0.1 7 - - -
DOTHERM® 1200 1200 1200 5 - 0.08 - - - -
DOTHERM® 600 M 600 600 400 230 0.26 10 75 CTI 500 > 420
DOTHERM® 800 M 800 800 330 170 0.26 10 75 CTI 525 > 420
DOTEC® 200 200 220 330 100 0.3 13 - - -
DOTEC® 280 280 300 150 30 0.28 20 - - -
DOTEC® 350 350 400 38 20 0.12 40 20 - -
DOTEC® 500 M 500 500 310 85 0.87 11 86.1 CTI 600 > 245
DOTEC® 600 600 600 220 76 1.32 10 49.5 CTI 600 > 345
DOTEC® 800 870 870 276 93 1.02 15 56.7 CTI 600 > 300
DOTEC® 1000 S 1000 1000 70 40 0.69 5.6 8.4 - > 600
DOFLEX® MSP 700 1000 - - 0.2 - 60 - -
DOFLEX® CM 30 1000 1100 - - 0.1 - 69 - -

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

  Application
temperature
(°C)
Compressive
strength
(N/mm2)
Flexural
strength
(N/mm2)
Thermal
conductivity
(W/mK)
Linear thermal
expansion coefficient
(10-6 1/K)
Electrical
dielectric
strength
(KV/3mm)
Creepage current
resistance

Arc resistance
VDE0303-71
(seconds)

  permanent short term at 23°C at 23°C          
DOTHERM® 700 700 700 120 32 0.37 6 8.7 - > 370
DOTHERM® 1000 1000 1000 35 18 0.50 6.4 14.1 CTI 600 > 420
DOTHERM® 1100 1100 1100 16 7 0.1 7 - - -
DOTHERM® 1200 1200 1200 5 - 0.08 - - - -
DOTHERM® 600 M 600 600 400 230 0.26 10 75 CTI 500 > 420
DOTHERM® 800 M 800 800 330 170 0.26 10 75 CTI 525 > 420
DOTEC® 200 200 220 330 100 0.3 13 - - -
DOTEC® 280 280 300 150 30 0.28 20 - - -
DOTEC® 350 350 400 38 20 0.12 40 20 - -
DOTEC® 500 M 500 500 310 85 0.87 11 86.1 CTI 600 > 245
DOTEC® 600 600 600 220 76 1.32 10 49.5 CTI 600 > 345
DOTEC® 800 870 870 276 93 1.02 15 56.7 CTI 600 > 300
DOTEC® 1000 S 1000 1000 70 40 0.69 5.6 8.4 - > 600
DOFLEX® MSP 700 1000 - - 0.2 - 60 - -
DOFLEX® CM 30 1000 1100 - - 0.1 - 69 - -

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

  Application
temperature
(°C)
Compressive
strength
(N/mm2)
Flexural
strength
(N/mm2)
Thermal
conductivity
(W/mK)
Linear thermal
expansion coefficient
(10-6 1/K)
Electrical
dielectric
strength
(KV/3mm)
Friction coefficient

Oil and grease resistance

  permanent short term at 23°C at 23°C          
DOGLIDE® 140 120 140 200 125 0.25 30 15 μ = 0.11 resistant
DOGLIDE® DBG 180 160 180 195 75 0.35 30 15 μ = 0.23 resistant
DOGLIDE® DBG 260 200 220 90 40 0.45 15 - μ = 0.14 resistant
DOGLIDE® 350 280 450 600 105 0.204 62 87 μ = 0.65 resistant
DOGLIDE® 350 G 280 450 350 80 0.304 40 21 μ = 0.28 resistant
DOGLIDE® GA 450 450 450 90 45 90 2.9 - μ = 0.15 resistant
DOGLIDE® GA 600 600 125 55 50 4 - μ = 0.1 resistant

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

  Application
temperature
(°C)
Compressive
strength under increased temperature
(N/mm2)
Flexural
strength
(N/mm2)
Thermal
conductivity
(W/mK)
Setting behaviour
(%)
  permanent short term   at °C   at 30 N/mm2 at 70 N/mm2
PRESSTHERM® WD 20 200 210 at 200°C: 260 500 0.21 at 200°C: 1.0 -
PRESSTHERM® WD 23 220 230 at 220°C: 450 600 0.3 - at 220°C: 0.6
PRESSTHERM® WD 23-1 230 250 at 230°C: 320 425 0.23 at 230°C: 0.3 at 230°C: 0.5
PRESSTHERM® WD 25 250 260 at 250°C: 350 400 0.23 - at 250°C: 0.6
PRESSTHERM® WD 25-1 250 260 at 250°C: 340 480 0.23 - at 250°C: 1.0
PRESSTHERM® WD 26 260 300 at 250°C: 200 120 0.22 - at 260°C: 0.7
PRESSTHERM® WD 28 280 300 at 250°C: 350 250 0.31 - at 280°C: 1.6
PRESSTHERM® WD 200 200 220 at 200°C: 190 - 0.24 at 200°C: 2.0 -
PRESSTHERM® WD 280 280 300 at 250°C: 130 - 0.28 at 280°C: 1.2 -
PRESSTHERM® PD 400 400 - - 0.21 - -
PRESSTHERM® GL 500 600 at 200°C: 250 200 0.26 at 260°C: 3.5 -
PRESSTHERM® AG 200 240 - - 0.13 - -

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

  Application
temperature
(°C)

Thermal
conductivity
(W/mK)

Compressive
strength
(N/mm2)
Flexural
strength
(N/mm2)
Linear thermal
expansion coefficient
(10-61/K)
  permanent short term   at 23°C at 200°C at 250°C at 23°C  
FRATHERNIT® DN 200 210 0.18 330 120 _ 140 18
FRATHERNIT® AN 200 210 0.19 600 350 - 380 13
FRATHERNIT® 4000 200 230 0.13 300 100 - 200 20
FRATHERNIT® AE3 250 260 0.21 570 - 360 425 19
FRATHERNIT® AE4 250 300 0.23 625 390 340 430 19
FRATHERNIT® AS 270 280 0.25 400 260 200 120 16
FRATHERNIT® 2000 B 200 210 0.12 300 110 - 130 18
FRATHERNIT® 2000 M 350 400 0.12 38 - 25 20 40
FRATHERNIT® SG 500 600 0.26 400 - 250 200 10

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

DIN 7735

EN 06893 IEC 893

NEMA Form of semi-finished produc Applications and characteristic properties Combustibility    Note
HP 2061 PFCP 201 X, XP Boards Mechanical application. Mechanical characteristics better than with other PFCP types. Low electrical characteristics. - -
HP 2061.5 PFCP 202 XX Boards High-voltage application under mains frequencies. High dielectric strength in oil. Good dielectric strength in air under normal moisture. - electr. +
HP 2061.6 PFCP 203 XXP Boards Mechanical and electrical applications. Good electrical characteristics under normal moisture. Low water absorption. - -
HP 2062.8 PFCP 206 XXXP Boards Mechanical and electrical applications. Good electrical characteristics under normal moisture. Low water absorption. - tropic-proof
HP 2062.9 PFCP 205 FR 2 Boards Similar to PFCP 204, however with defined firing behaviour. V0 -
HP 2063 PFCP 204 XXXPC Boards Electrical and electronic applications. Good electrical characteristics under high moisture. - -
HP 2064 PFCP 202 XXX Boards High-voltage application under mains frequencies. High dielectric strength in oil. Good dielectric strength in air under normal moisture. - -
HP 2065 PFCP 21 X Tubes Mechanical and electrical applications under low voltage. Good electrical characteristics under normal relative moisture. - coiled
HP 2066 PFCP 22 XX Tubes Electrical applications under high voltage with mains frequency. High dielectric strength in oil. - -
HP 2067 PFCP 23 XX Tubes Similar to PFCP 21, however with improved electrical characteristics under high relative moisture. - -
HP 2361.1 EPCP 201 FR 3 Boards Electronic applications. Good electrical characteristics under high moisture. With defined firing behaviour. V0 -
HGW 2072 PFGC 201 G 3 Boards Mechanical and electrical applications. Good mechanical and electrical characteristics under normal moisture. Heat resistant. - -
HGW 2075 PFGC 21 G 3 Tubes Mechanical, electrical and electronic applications. Very high mechanical strength. - coiled
HGW 2082 PFCC 201 C Boards Mechanical applications. Rough-textured textile. - -
HGW 2082.5 PFCC 202 CE Boards Mechanical and electrical applications. Rough-textured textile. Higher electrical characteristics than PFCC 201. - electr. +
HGW 2083 PFCC 203 L Boards Mechanical application. Fine fabric. - extremely finely threaded
HGW 2083.5 PFCC 204 LE Boards Mechanical and electrical applications. Fine fabric. Higher electrical characteristics than PFCC 203. - electr. +
HGW 2272 MFGC 201 G 5 / G 9 Boards Mechanical and electr. applications. Good resistance to the formation of electric arcs and creepage paths. With defined firing behaviour. V0 -
HGW 2275 MFGC 21 G 5 / G 9 Tubes Mechanical and electrical applications. High mechanical strength. Good resistance to the formation of electric arcs and creepage paths. - coiled
HGW 2085 PFCC 22 C Tubes Mechanical and electrical applications. Rough-textured textile. - coiled
HGW 2086 PFCC 21 LE Tubes Mechanical and electrical applications. Fine fabric. - coiled
HGW 2088 PFCC 42 - Rods Mechanical and electrical applications. Rough-textured textile. - compression moulded
HGW 2372 EPGC 201 G 10 Boards Mechanical and electr. applications. High mechanical strength under moderate temperature and high moisture. - -
HGW 2372.1 EPGC 202 FR 4 Boards Similar to type EPGC 201. With defined firing behaviour. V0 -
HGW 2372.4 EPGC 203 G 11 Boards Similar to type EPGC 201. High mechanical strength under increased temperature. - temp. + (180°C)
HGW 2372.2 EPGC 204 FR 5 Boards Similar to type EPGC 203. With defined firing behaviour. V0 -
HGW 2372.4 EPGC 205 G 11 Boards Similar to type EPGC 203, however with very rough roving fabric. - roving
HGW 2375 EPGC 21 G 10 Tubes Mechanical and electrical applications. High mechanical strength. Very good electrical characteristics under high relative moisture. - coiled
HGW 2375.4 EPGC 22 G 11 Tubes Similar to type EPGC 21, however with high mechanical strength under increased temperature. - coiled
HGW 2375.4 H EPGC 308 G 11 Boards Similar to type EPGC 203, however with significantly higher temperature resistance. - > 180°C
HGW 2572 SIGC 202 G 7 Boards Mechanical and electrical applications under increased temperature. Good heat resistance. V0 -
HGW 2575 SIGC 21 G 7 Tubes Mechanical, electrical and electronic applications under high relative moisture. V0 coiled
HM 2471 UPGM 203 GPO-3 Boards Mechanical and electrical applications. With defined firing behaviour. Good resistance to the formation of electric arcs and creepage paths. V0 -
HM 2472 UPGM 204 GPO-1 Boards Similar to type UPGM 203, however with good mechanical characteristics under increased temperature. V0 -

 

The values listed were determined on standard test specimens. The material properties can deviate from these values depending on the application and component geometry. Please contact us should you require a precise clarification of the material suitability. Other technical data on request. Subject to technical modifications and errors. 2014 edition. Download

 

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