High-temperature resistant PTC electroconductive composition, high-temperature resistant PTC device containing composition and manufacturing method thereof
A conductive composition and manufacturing method technology, applied in the direction of current response resistors, resistors with positive temperature coefficients, etc., can solve the problems of resistance deviation from the initial value, low PTC strength, poor resistance cycle stability, etc., to achieve low The effect of resistance value, high PTC strength, and excellent resistance stability
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Embodiment 1
[0033] 45wt% nylon 12 (Aesno-TL, melting point: 165~180°C, melting index: 0.3g / 10min, ElfAtochem Company), 50wt% carbon black Raven 430 (particle size 82nm, DBP value 78cm 3 / 100g, Columbian company), 4.5wt% magnesia (MgO) and 0.5wt% antioxidant 1010 (Irganox1010, Ciba Geigy company) are premixed and then added to the twin-screw extruder for melt blending, and the mixture melt is produced by The machine head directly enters the single-screw extruder, and then is pressed to a certain thickness of 0.3mm by a double-roller calender, and at the same time, nickel-plated copper foil electrodes are pasted on the upper and lower surfaces of the composition to obtain a PTC sheet. Place the PTC sheet in an oven at 200°C for 30 minutes, then turn off the power of the oven, and slowly cool down to room temperature. The heat-treated sheet is cross-linked with γ-rays, and the irradiation dose is 20 Mrads. Finally, punch the irradiated sheet into 8×12mm PTC chips. Measure its resistance at ...
Embodiment 2
[0035] A PTC device was fabricated in the same manner as described in Example 1, except that the nylon 12 (Aesno-TL) content was changed from 45 wt% to 41 wt%, and the carbon black Raven 430 content was changed from 50 wt% to 54 wt%. The physical properties of the PTC device were measured in the same manner as described in Example 1, and the results are listed in Table 2.
Embodiment 3
[0037] A PTC device was fabricated in the same manner as described in Example 1, but changing the content of nylon 12 (Aesno-TL) from 45 wt% to 37 wt%, and the content of carbon black Raven 430 from 50 wt% to 58 wt%. The physical properties of the PTC device were measured in the same manner as described in Example 1, and the results are listed in Table 2.
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