Categories

Featured Products

  • 3W/mk Silicon-Free Thermal Pad HRTP-M16-N03050NN Series

3W/mk Silicon-Free Thermal Pad HRTP-M16-N03050NN Series

HRTP-M16-N03050NN Series is an acrylic thermal conductive interface filling gasket. Due to its soft texture and inherent adhesion on the surface, it is suitable for use in the compression process of integrated circuit chips It can reduce load and is a high-performance silicon-free thermal conductive gasket with high thermal conductivity and a soft interface.

CONTACT NOW DOWNLOAD TDS

Product Features


Good softness and comfort for non flat filling 
Excellent compression ratio
Compliant with UL94 V-0 
Very high thermal conductivity
Good surface adhesion leads to low surface thermal resistance
Silicone free polyurethane elastomer


Product Specifications


Customizable 【 e.g. length x width x thickness (10x5x0.3mmT) 】

Applications


LED lighting High speed and large capacity storage drive Communication hardware
Semiconductor automatic testing equipment  High speed hard drive  Automotive engine control device

Product Parameters


Property Value Unit Test Method
Thermal Conductivity 3.0±0.2 W/mk ASTM D5470
Color White / Visual
Hardness 50±5 Shore  OO° ASTM D2240
Thickness 0.50-10.0 mm ASTM D374
Thickness Tolerance ±10% mm NA
Density 2.9±0.2 g/cm³ ASTM D792
Thermal Impedance ≤0.75 ℃-in²/W@50psi ASTM D5470
Operating Temperature -30~150 NA
Flame Rating V-0 / UL94
Voltage withstand value ≥1500
≥5000
Volts AC ASTM D149
Dielectric Breakdown Voltage 2.5x10^13 Ω.cm ASTM D257
Dielectric Constant 6-7 @1MHz ASTM D150
Standard Sheet Size 200X400 mm NA
How can we help you?
Contact a product expert or sales representative
tel
Customer Support
+86 18952254580
tel
Support & Email
Jane@spring-grass.net
tel
Our Location

Zhengji New Materials Industrial Park, No. 6 Xufeng Road,
Zhengji Town,Tongshan District, Xuzhou City, Jiangsu Province

footerlogo wefimg
privacy settings Privacy settings
Manage Cookie Consent
To provide the best experiences, we use technologies like cookies to store and/or access device information. Consenting to these technologies will allow us to process data such as browsing behavior or unique IDs on this site. Not consenting or withdrawing consent, may adversely affect certain features and functions.
✔ Accepted
✔ Accept
Reject and close
X