Our keypad stands out for its exceptional resistance to aging, extreme temperatures, chemicals, and water, ensuring longevity and reliability. Equipped with versatile printing and conductive options, including silk screen, radium carving, carbon pills, conductive ink printing, metal domes, and metal pills, it delivers excellent conductivity for various needs. Certified with ISO9001-2015, IATF16949, and ROHS, our
Our OEM/ODM Customer Heat Resistant Conductive Rubber Keypad is crafted from high-quality silicone rubber, customizable in transparent or various colors. The keypad excels in aging, cold, and heat resistance, chemical stability, waterproofing, eco-friendliness, and durability. Supporting silk screen and radium carving printing methods, along with conductive options like carbon pills, conductive ink printing, metal domes, and metal pills, it ensures excellent conductivity. Certified with ISO9001-2015, IATF16949, and ROHS, our product guarantees quality. We offer free samples for testing. Whether for durability or conductivity, our keypad meets high standards, making it ideal for diverse applications.
Specification
Material: silicone rubber
Color: transparent or any colors
Hardness:shore A 30°~80°
Size: customized size
Tolerance: based on customer’s requirement
Printing: silk screen, radium carving
Molded Way: compression molded
Conductive Way: carbon pills, conductive ink printing, metal domes, metal pills
Surface Protective: pu coating, matte smooth coating, epoxy coating
Performance: aging resistance, cold resistance, heat resistance, chemical stability, waterproof, eco-friendly, durable
Certificate: ISO9001-2015, IATF16949, ROHS
OEM/ODM: available
Samples: free available samples
Packing: PE bag & carton, customized packing
Logo: silk printing, laser etching
Application: industrial, medical, automotive, consumer electronics, household, etc
Conductive Methods in Rubber Keypads
These methods ensure that the rubber keypad can effectively transmit electrical signals, making them essential components in various electronic devices like remote controls, keypads, and control panels. The choice of conductive method depends on the specific requirements of the application and the desired tactile response of the keypad.