Rubber Marking

Rubber, a necessary raw material for producing a myriad of products, is loved for its high strength, durability, and flexibility. From medical devices, automobile parts, kids toys, clothes, and more, numerous industries rely on this material but require an effective way to mark their rubber parts.

What is Rubber Marking?

Rubber marking is the process of marking barcodes, logos, or characters directly on a rubber product. Ink printers or stamps can be used when rubber marking; however, laser engraving rubber marks onto your products is more advantageous. Using a laser marking machine for laser engraving rubber is an ideal choice because of its durability, versatility, and efficiency.

Rubber Marking

A few common rubber products are hoses, tyres, water pipes, and wiper blades, all of which are exposed to environmental conditions like rain, dust, dirt, and oil. Laser engraving rubber is a permanent mark that is resistant to all environmental factors and will not fade over time with exposure.

Benefits of Laser Rubber Marking

Increased Flexibility with Rubber Shape

Rubber is known for its flexibility in shapes, sizes, and forms. When using a laser marker, such as KEYENCE’s 3-Axis CO2 Laser Marker ML-Z Series or 3-Axis Hybrid Laser Marker MD-X Series, laser engraving rubber variations is easy with 3-Axis control.

3-Axis control guides the laser's three-dimensionality to match the shape. Because of this, the laser can accurately mark stepped, inclined, cylindrical, and conical targets without distortion.

Increased Efficiency

Using a laser marker for laser engraving rubber is far more efficient than stamping or printing, saving time and money. The MD-X and ML-Z Series can auto-correct based on positioning, size, and shape. Also, if the laser marking machine notices the wrong product or a defect, it will not mark the product. Because of this, there is less changeover time for stopping and starting machines for correction.

Laser Rubber Marking Process

3-Axis CO2 Laser Marker ML-Z Series

The CO2 laser works by using heat to process CO2 in a tube. Next, the electrical discharge in the tube generates plasma between a reflective mirror and the output coupler. Then, the plasma hits materials, and the material absorbs the light. CO2 lasers work well with heat-resistant materials because of the high absorption rate.

3-Axis Hybrid Laser Marker MD-X Series

The hybrid laser marker works by combining the high peak power and depth of focus of a YVO4 laser and the high output of a fibre laser. Together, this creates a high output and short pulse laser with a peak power of 200 kW. Since natural rubber has low heat resistance, using the MD-X is an efficient way to mark natural rubber products.

Laser Rubber Marking Capabilities

Synthetic rubber: Wiper Blade

Synthetic rubber has high heat and chemical resistance. As an example, wiper blades are made from synthetic rubber because of exposure to friction and other environmental conditions. Because of the high heat absorption of a CO2 laser, using the ML-Z laser on a wiper blade is key for etching marks that will withstand the conditions wiper blades are in.

Natural rubber: Rubber Hose

Natural rubber is known for its elasticity and low heat resistance. Rubber hoses are made from natural rubber because of the need for this type of elasticity. Because of the high peak power and flexibility of the hybrid laser, using the MD-X to mark rubber hoses is perfect for discoloring the rubber for permanent marks.

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