Silicone Laser Keyboard Manufacture

Overview

The Silicone Laser Keyboard combines flexibility, durability, and advanced technology. Made from high-quality silicone, it features laser-etched keys for precise, long-lasting markings that are ideal for LED backlighting. The soft, flexible design ensures comfort and quiet typing, while the keys are resistant to wear and fading. Perfect for environments where durability and ease of cleaning are essential, this silicone keyboard is waterproof, dustproof, and easy to maintain, making it an ideal choice for both professional and home use.

Product Specifications:

Place of Origin :Xiamen, China

Brand Name :OEM

Material :Silicone

Shape: Custom shape

Color: Custom color

Coating :PU/Soft matt/Epoxy ect

Secondard processing :Soft matt coating,Epoxy coating,PU coating,laser etching,etc.

Additional service :metal dome,PCB and flexible FPC/PET assemble

Service :OEM Service

Logo:Custom

Certificates:ISO

One-Stop Service for Silicone Rubber Keypads

1. Design Consultation: Expert guidance on design optimization and manufacturability to meet your specific requirements.
2. Prototyping: Creation of functional prototypes to validate design and performance before mass production.
3. Custom Molding: Precision silicone compression molding to produce high-quality, durable keypads with custom shapes, sizes, and colors.
4. Printing and Finishing: Advanced techniques including silk screen printing, laser etching, and surface coatings for clear legends and enhanced durability.
5. Quality Control: Rigorous inspection processes to ensure product consistency, performance, and compliance with industry standards.
6. Assembly and Packaging: Comprehensive assembly services and custom packaging solutions to streamline logistics and reduce overhead costs.
7. After-Sales Support: Ongoing support and service to address any issues and ensure continued satisfaction with your silicone rubber keypads.

Surface Treatments for Keypad:

1. Silk Screen Printing: This method applies a durable ink layer to the surface, ideal for creating high-contrast legends and intricate designs.
2. Laser Etching: Utilizes a laser to engrave designs onto the keypad, offering precision and permanence for long-lasting markings.
3. Epoxy Coating: Provides a clear, protective layer over the keypad’s surface, enhancing durability and resistance to wear and tear.
4. PU Coating: A polyurethane coating that offers protection against scratches and abrasion while maintaining a smooth finish.
5. UV Coating: Cures under ultraviolet light to create a robust, protective layer that resists fading and enhances durability.
6. Matte Finish: Applies a non-glossy surface treatment to reduce glare and provide a soft, textured feel.
7. Glossy Finish: Creates a high-shine, reflective surface that enhances the visual appeal and makes the keypad easy to clean.
8. Textured Coating: Adds a tactile texture to the keypad, improving grip and usability, especially in high-touch areas.
9. Color Coating: Involves applying various colored coatings to achieve vibrant hues and custom color matching.

Application

Automotive Industry

Silicone keypads are used in automotive applications for their durability and resistance to extreme temperatures, providing reliable control interfaces in vehicles.

Consumer Electronics

In consumer electronics, silicone keypads offer tactile feedback and durability, making them ideal for keypads on remote controls, calculators, and other electronic devices.

Medical Devices

Silicone keypads are used in medical devices due to their biocompatibility, ease of sterilization, and resistance to harsh cleaning chemicals, ensuring reliable performance in healthcare settings.

Industrial Equipment

Silicone keypads are employed in industrial equipment for their resistance to dust, moisture, and chemicals, providing robust and reliable controls in harsh environments.

Military and Aerospace

In military and aerospace applications, silicone keypads withstand rigorous conditions, including shock, vibration, and extreme temperatures, ensuring critical reliability in mission-critical operations.