Introduction:
Specific thermal insulation is imperative in the fabrication of wood-based panels since the hot presser is subject to high thermal, mechanical and chemical stresses. To establish a complete thermal insulation system is a huge challenge as various insulation requirements are imposed by our customers in this industry.
Typical application cases are described below:
Insulation of the frame or piston
Cover of the heating plates
Thermal protection of the cross-beams against high temperatures in column presses
Thermal isolation of testing and measuring instruments
Compensation pads to maintain the parallelism of heating plates
Insulation Characteristics:
long term thermal stability and low coefficient of thermal conductivity
a uniform temperature distribution;
less thermal stress on the seals and sleeves
shorter heating -up time and huge energy- saving effect realized by reduced heat loss
Premium Thermal Isolation and anti-press resistance;
Insulation Plate Specifications:
|
Operaton Temperature |
Compressive Strength |
Bending Strenth |
Thermal Conductivity |
Comprehensive Strain |
|
|
Long term |
Short term |
N/mm2 |
at 23'C |
(w/mk) |
At 30N/mm2 |
At 70N/mm |
|
TX-200-YE |
200 |
210 |
350 At 220'C |
600 |
0.19 |
0.80 at 200 'c |
|
High Compression Resist |
TX-250-BR |
220 |
230 |
360 At 200'C |
500 |
0.21 |
0.30 at 200'C |
|
High Temperature Compression Resist |
TX-250-GN |
250 |
260 |
360 At 250'C |
760 |
0.22 |
|
0.30 at 250'C |
High Flexural Resist |
TX-250-BL |
250 |
260 |
350 At 250'C |
400 |
0.23 |
|
0.50 at 250'C |
High Temperature Long Term |
TX280-WH |
280 |
300 |
260 At 250'C |
120 |
0.2 |
|
0.6 at 260'C |
High Temperature Resist |
TX-600-SL |
500 |
600 |
250 At 200'C |
200 |
0.12 |
2.0 At260'C |
|
Low Heat Conductivity |
TX800-GD |
700 |
800 |
250 At 200'C |
140 |
0.12 |
2.0 at 280 'C |
|
High Temperature Low Heat Conductivity |
Product Photos: