AccuPaste™ CNT Heating Paste, 10 Ohm

AccuPasteTM CNT Heating Paste is a heating element composed of carbon nanotube (CNT) material. Unlike general heating paste, it maintains heat resistance without peeling of coating film at high temperature (maximum 320℃) and shows the best effect. It can be applied to heat-generating material due to thermal conductivity, ESD/EMI shielding material by electric conductivity, and transparent electrode material.
As low as $257.00
Cat. No.

Overview

  • 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.

Features and Benefits

  • 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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