Low-wear disc type friction plate and preparing method thereof
A friction lining, low-wear technology, applied in the direction of friction linings, chemical instruments and methods, brake parts, etc., can solve the problems of unstable braking coefficient of local friction surfaces, brake deviation, rollover, etc., to avoid Scratches and grooves, stable friction coefficient, effect of increasing bond strength
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[0053] The embodiment of the present invention also provides a method for preparing a disc friction plate, comprising the following steps:
[0054] (1) Surface treatment of the steel back: Sandblast and polish the steel back, then spray high-temperature-resistant glue on the contact surface between the steel back and the buffer layer, and spray noise-absorbing and damping paint on the other sides of the steel back.
[0055] Among them, the high temperature resistant glue can be phenolic resin liquid glue, its viscosity is 1500-1700 (25°C CP), the free phenol content is ≤1.0%, and the gelation time is 5-6 minutes.
[0056] The weight composition of the raw materials of the sound-absorbing and damping paint is as follows: 45% of the above-mentioned phenolic resin liquid glue, 35% of thinner, 10% of mica, and 10% of wood powder. Its viscosity is 150-200 (25°C CP).
[0057] (2) Mixing of buffer layer: PLC program-controlled feeding is adopted, and the raw materials of the buffer ...
Embodiment 1
[0063] A disc type friction plate includes a steel back, a buffer layer and a ceramic layer laminated in sequence.
[0064] Wherein, the buffer layer is prepared from raw materials including the following parts by weight: 15 parts of glass fiber, 5 parts of vermiculite, 13 parts of phenolic resin, 20 parts of light calcium carbonate, 5 parts of hemp fiber, 5 parts of calcium hydroxide, neodymium iron 6 parts of boron powder alloy, 5 parts of petroleum coke powder, 10 parts of mineral fiber, 8 parts of EPDM rubber powder, and 6 parts of barium sulfate.
[0065] The ceramic layer is prepared from raw materials including the following parts by weight: 10 parts of carbon fiber, 1018 parts of ceramic fiber, 14 parts of light calcium carbonate, 16 parts of phenolic resin, 4 parts of calcium hydroxide, 10 parts of diatomaceous earth, 15 parts of barium sulfate 6 parts of graphite, 6 parts of petroleum coke powder, 4 parts of mica, 3 parts of alumina, 4 parts of aramid fiber.
[0066...
Embodiment 2~5
[0085] In Examples 2-5, the thickness ratio of the buffer layer to the ceramic layer and the amount of magnetic material added were changed, and other raw materials and preparation processes were the same as in Example 1. The corresponding changing parameters and the wear rate at 100 °C are shown in Table 3.
[0086] table 3
[0087]
[0088] It can be seen from Table 3 that when the thickness ratio of the buffer layer to the ceramic layer is not in the range of 1:3, or the amount of magnetic material added changes, the wear rate will increase.
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