Compared with other insulation materials, electric wood panels have the following advantages:
–Bakelite panels with good mechanical properties: It has high mechanical strength and rigidity, is not easily deformed or cracked, can withstand certain external forces and loads, and can be used to manufacture insulation structural components in motors and electrical equipment that require high mechanical performance, such as mold clamps, fixture plates, etc
-Stable electrical properties of bakelite panels: With excellent insulation performance at room temperature, it can effectively prevent current leakage and short circuits. It can be used as an insulation material for electronic products such as insulated switches and variable resistors, ensuring the safe and stable operation of electrical equipment
-Outstanding anti-static performance: No static electricity is generated during use, which can avoid damage to electronic components caused by static electricity. It is commonly used in fixtures, jigs, etc. in electronic production, and the production and assembly of electronic components that are sensitive to static electricity are particularly important
-Strong wear resistance: High surface hardness, good wear resistance, able to withstand a certain degree of friction and wear, suitable for manufacturing mechanical molds, table grinding pads, etc., can extend service life and reduce replacement frequency
-Good processing performance: Various shapes and sizes of parts can be made through cutting, drilling, milling and other processing methods to meet different application needs, adapt to diverse production and processing requirements, and improve production efficiency
-Low raw material cost: Its raw material price is relatively low, making it the preferred substitute for many plastic products. It can reduce production costs, improve economic efficiency, and has significant advantages in large-scale production and cost sensitive applications
-Good high temperature resistance: Generally, the heat resistance level is Class E, with a maximum temperature of around 120 ℃. Some high-end materials can withstand temperatures up to 350 ℃, making them suitable for use in certain high temperature environments and meeting insulation requirements under some conventional high temperature conditions
