High-Performance Silkscreen Printing Silicone Rubber Remote Control Buttons are designed for superior functionality and longevity. Made from premium silicone rubber with a Shore A hardness range of 30° to 80°, these buttons deliver precise tactile feedback and easy operation. Available in transparent or custom colors, they feature intricate silkscreen printed designs, combining visual appeal with dependable functionality. Advanced conductivity options such as carbon pills, conductive ink printing, metal domes, or metal pills ensure consistent electrical performance. Enhanced with surface protection options including PU coating, matte smooth coating, or epoxy coating, these buttons are built to last.

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

Advanced Conductive Technologies in Silicone Keypads

• Carbon Pill:

Our Silicone Keypad utilizes small carbon-filled protrusions for conductivity. When pressure is applied, these pillars facilitate electrical connectivity, ensuring a responsive and reliable user interface.

• Conductive Oil:

The Silicone Keypad incorporates a conductive oil solution to create seamless electrical pathways. This solution bridges gaps, enabling signal transmission upon pressure application to the keypad surface.

• Metal Dome:

Metal Dome conductivity involves integrating small, dome-shaped metal elements beneath the keypad surface. Pressing these domes creates a tactile response and completes the electrical circuit.

• Non-Conductive:

Strategically using non-conductive materials in specific areas prevents unintended electrical contact. This precise control over electricity flow prevents interference or unintentional input.