Thermal conductivity technology uses a company's thermal conductive silicone pad product with a coefficient of 3.0 and a thickness of 0.8. When it is applied to a laser machine, the thermal conductive silicone pad is not effective when it conducts heat too softly, which indicates that the thickness is poor.
Because the thermal conductivity effect is inversely proportional to the thickness: if the thickness of the thermally conductive silicone sheet is thicker, the longer it takes for the surface temperature of the heating component to pass from one end to the other, the slower the heat transfer. At the same time, the thicker the thermally conductive silicone sheet, the more expensive (because the same size, the thicker the thickness, the more materials are used).
The relationship between thermal conductivity and hardness: The harder the product, the worse the contact between the thermally conductive silicone and the heat-generating and heat-dissipating components. The softer, the more adequate the contact (but not the softer the better, because it is too soft and not easy to paste).
Thermally conductive silicone grease is a mixture of silicone oil and thermally conductive filler, which does not solidify.
Thermally conductive silicone pads are RTV adhesives and will cure at room temperature.
The thermal conductivity of thermal grease is better than that of thermal silica gel. Some products need insulation and thermal conductivity. Do not use thermal grease.
The function of thermal conductive silicone sheet for notebook is shock absorption.