A coating layer maintains the heat-resisting property under high temperature environment (maximum 320℃) unlike the general heating paste.
Temperature elevation rate of AccuPaste™ CNT Heating Paste is faster than the sheath heater comprised of an existing Ni-Chrome resistance wire, and its electric efficiency is excellent from at low voltage.
The heat generated by CNT Heating Paste cause less air pollution, noise and radiation.
AccuPaste™ CNT Heating Paste’s application can be classified into heat generation materials based on high heat conductivity, ESD/EMI shielding material based on electric conductivity, and the transparent conductive film for the touch screen.
High heat-generating AccuPaste™ CNT Heating Paste applies to the manufacture of high temperature heating devices and constant temperature heating devices. It is suitable for premium products that require slimness and sophisticated design.
AccuPaste™ CNT Heating Paste meets the demands and requirements for new high-functional materials due to existing limitations of heating materials.
CNT nano-material has an excellent dimensional stability with a lower Coefficient of thermal expansion value (α: -2 ~ +5 X 106 K-1) compared to the other existing materials.
High stability against most chemicals and solvents.
There is no biological infringement or blazing fire.
The electromagnetic wave shielding function in AccuPasteTM CNT Heating Paste shields the electromagnetic waves produced during energization, and heating hardly affects the human body.
The high thermal conductivity and far-infrared radiation capability enable the heating of an expansive space by instantaneous heat generation and far-infrared radiation.
Far-infrared has a physiological activity effect because of the resonance effects through water molecules existing in the living body.
The high heat generating property can be used as a heating device material or an industrial heating material.
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