Tpcm™ 7000 Thermal Phase Change Material
Tpcm™ 7000 is the newest in Laird's line of high-performance TIM product offerings. With a thermal conductivity of 7.5 W/mK, Tpcm™ 7000 is designed to enhance the cooling of the most rigorous thermal challenges in electronics. Softening between 50°C - 70°C, the initial pad thickness can decrease to a bondline as thin as 35µm.Coupled with superior wetting of the mating surfaces and displacing air, Tpcm™ 7000 provides industry-leading lowest thermal resistance. Tpcm™ 7000 reliability has been demonstrated through exposure to 2,000 hours of various aging tests resulting in proven dependability at an operating temperature of 150°C. The specialty polymeric matrix offers superior pump-out resistance when compared to thermally conductive greases and other phase-change materials. Tpcm™ 7000 has been formulated to provide just the right tack, remaining on liners yet easily removable for application.
- 7.5 W/mK bulk thermal conductivity
- No pump out
- Fully characterized long term reliability
- Non silicone formulation that provides naturally tacky surface
- Environmentally friendly solution that meets regulatory requirements including RoHS and REACH
Industries
Telecom/Datacom | Computing | Industrial Electronics | Servers | Video graphics
Applications
Desktop computers | Graphic Cards | Notebook computers | Gaming Systems
Capabilities
Automated Packaging | Autoated Pad Placement | Custom Automation | Custom Product Development | Modeling | Prototyping | Service | Testing
Specifications
- Construction: Free Standing, Filled, Non-Silicone Thermoplastic
- Color: Gray
- Thickness:
- 0.13mm
- 0.20mm
- 0.25mm
- 0.40mm
- Density: 2.5 g/cc
- Bulk Thermal Conductivity (W/m-K): 7.5
- Thermal Resistance (°C-cm2/W @70°C):
- 10 psi: 0.10
- 50 psi: 0.06
- Operating Temperature Range: -40°C - 125°C
- Softening Temperature Range: 50°C - 70°C
- Minimum Bondline Thickness: 35µm
- Dielectric Constant: 31.54 @1MHz
- Volume Resistivity: 5.4 x 1015Ω-cm
- UL Recognition: V0
SKU | G101073 |
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Brand | Laird |