Plastic Production

Serial Number Marking on Plastic Bottles

Laser marking is used to add serial numbers, production dates, and batch information to plastic bottles. This ensures product traceability, especially in the food, beverage, and cosmetics industries.

✅ Indelible and Wear-Resistant Marking: Laser markings are resistant to heat, moisture, chemicals, and friction.
✅ High Readability and Contrast: Barcodes, QR codes, and serial numbers can be clearly marked on transparent, matte, and glossy plastic surfaces.
✅ Fast and Efficient Production Process: High-speed laser marking systems, integrated into mass production, provide maximum efficiency with minimum processing time per bottle.
✅ Contactless and Chemical-Free Marking: Compared to methods like inkjet printing or labeling, laser marking offers a contactless, eco-friendly, and hygienic solution.
✅ FDA and Food Safety Compliance: Marking solutions that meet the standards for the food and pharmaceutical industries, ensuring safe, residue-free markings.

Example: Serial numbers and production dates are laser marked on water bottles or bottled beverages.

Serial Number Marking on Plastic Bottles

QR Code and DMC Marking on Plastic Electronic Parts

Laser marking is used to add Data Matrix (DMC) and QR codes to electronic products. This enables product traceability and provides users with important information.

✅ Full Traceability and Product Tracking: QR code and DMC markings allow the tracking of electronic components throughout the entire process, from production to post-sales service.
✅ Durable and Indelible Marking: Laser markings are resistant to wear, chemicals, high temperatures, and external impacts.
✅ High Readability and Contrast: High-resolution, sharp code markings can be made on bright, matte, or colored plastic surfaces.
✅ High-Speed Marking Suitable for Mass Production: Laser marking systems can be easily integrated into mass production by performing fast and contactless processing.
✅ Compliance with Industry Standards: Marking solutions that comply with standards such as ISO, CE, and RoHS, applicable in automotive, telecommunications, medical, and consumer electronics industries.

Example: QR codes and serial numbers are laser marked on phone components and electronic circuit boards.

QR Code and DMC Marking on Plastic Electronic Parts

Instructions for Use and Warnings on Medical Devices Marking

In medical plastic devices, usage instructions and safety warnings are laser marked. These markings ensure the safe use of the device.

✅ Resistance to Sterilization and Chemicals: Laser markings are resistant to gamma radiation, autoclave sterilization, UV rays, and chemical disinfectants.
✅ Clear and Readable Marking: Even on small plastic surfaces, precise, high-contrast, and sharp markings can be made.
✅ Compliance with FDA and CE Standards: Provides biocompatible and safe marking solutions that comply with food and drug safety regulations.
✅ Contactless and Precise Marking: Laser marking creates ultra-precise markings without using ink or chemicals, without damaging the surface.
✅ Fast and Efficient Production Process: Laser systems integrated into mass production can provide high-speed, flawless marking.

Example: Laser marking is done on medical devices such as sewing needles or cannula tubes, adding usage instructions or manufacturer information.

Instructions for Use and Warnings on Medical Devices Marking

Production Information and Date Marking on Plastic Lids

Laser marking is used to mark production information, expiration dates, or quality control labels on plastic caps.

✅ Durable and Wear-Resistant Marking: Laser markings are resistant to heat, moisture, chemicals, and friction.
✅ High Readability and Clear Contrast: Clear and high-contrast markings can be made on transparent, glossy, or matte plastic surfaces.
✅ Fast and Efficient Production Process: High-speed laser marking systems, integrated into mass production, provide maximum efficiency with minimum processing time per cap.
✅ Contactless and Environmentally Friendly Marking: Compared to ink printing or labeling methods, laser marking provides a contactless, chemical-free, and hygienic marking solution.
✅ Compliance with FDA, CE, and Food Safety Standards: Provides safe, residue-free, hygienic, and biocompatible marking for the food and pharmaceutical industries.

Example: Laser marking of production and expiration dates on plastic caps, such as beverage bottle caps or food containers.

Production Information and Date Marking on Plastic Lids

Marking Assembly Instructions for Automotive Plastic Parts

In the automotive industry, assembly instructions, model numbers, or part identification information are laser marked on plastic assembly parts.

✅ Precise and Readable Marking: High-resolution clear markings can be made on small and complex plastic surfaces.
✅ Wear-Resistant and Chemical-Resistant Marking: Laser markings are resistant to oil, grease, solvents, temperature changes, and friction.
✅ High-Speed Marking for Mass Production: Laser marking systems can be integrated into automotive production lines, providing high-speed, flawless marking.
✅ Compliance with Industry Standards: Marking solutions can be provided in full compliance with ISO, CE, and OEM quality standards in the automotive sector.
✅ Contactless and Environmentally Friendly Marking: Laser marking offers clean, permanent, and reliable marking without the use of ink or chemicals.

Example: Laser marking of assembly instructions and product identification on automotive interior panels and plastic engine parts.

Marking Assembly Instructions for Automotive Plastic Parts

Lot Number Marking on Plastic Tubes

Laser marking adds lot numbers, production dates, or batch information on plastic tubes.

✅ Indelible and Durable Marking: Laser markings show high resistance to heat, moisture, chemicals, and external factors.
✅ Clear and High-Contrast Marking: Readable and sharp lot number marking can be made with high precision on glossy, matte, or transparent plastic surfaces.
✅ High-Speed Marking for Mass Production: Laser marking operates at high speed and can be seamlessly integrated into production lines.
✅ Chemical-Free and Hygienic Solution: Compared to inkjet printing or labeling methods, laser marking offers a contactless, hygienic, and environmentally friendly solution.
✅ Compliance with Food and Drug Safety Standards: Laser marking solutions can be provided in compliance with FDA, CE, and other international quality standards.

Example: Lot numbers and production dates are laser marked on toothpaste tubes and cream packaging.

Surface Cleaning of Plastic Device Cases

Laser marking is used for cleaning and decorative engraving on plastic device enclosures. This enhances both the aesthetic appearance and ensures the surface remains smooth and clean.

✅ Chemical Resistance Cleaning: Plastic device enclosures should be cleaned with alcohol-based cleaners, soapy water, or special surface protection solutions. Abrasive chemicals or solvents may damage the surface.
✅ Antistatic Cleaning: To prevent dust buildup on electronic device enclosures, antistatic cleaners should be used.
✅ Permanent Laser Marking: While screen prints and labels on the surface may wear off over time, laser markings are resistant to chemical cleaners and friction.
✅ Environmentally Friendly Cleaning Solutions: For the longevity of plastic device enclosures, environmentally friendly, solvent-free cleaning methods should be applied.
✅ Abrasion-Resistant Surface Marking: Laser marking technology ensures permanent and clear markings such as serial numbers, model information, and brand logos on device enclosures, providing long-lasting results.

Example: Surface cleaning and brand/logo marking on electronic device enclosures (e.g., TV remotes) done with laser.

Surface Cleaning of Plastic Device Cases

Functional Marking on Plastic Parts (Buttons and Switches)

Laser marking is used for functional markings and warnings on plastic buttons, switches, and control panel components.

✅ Day & Night Marking: Laser technology allows for adjustable light permeability, providing ideal solutions for vehicle interior buttons and illuminated control panels.
✅ Abrasion and Chemical Resistant Marking: Laser marking provides long-lasting, permanent markings that are resistant to friction, chemical cleaners, and temperature changes.
✅ High Readability and Precision: Even on the smallest button or switch surfaces, sharp, clear, and high-contrast markings can be applied.
✅ High-Speed Marking for Mass Production: Laser marking can be integrated into production lines, operating at high speeds to ensure high efficiency.
✅ Contactless and Chemical-Free Marking: Compared to traditional methods such as inkjet printing or labeling, laser marking is an environmentally friendly and solvent-free solution.

Example: Functional marking on kitchen robot buttons and washing machine controls done with laser.

Functional Marking on Plastic Parts (Buttons and Switches)

Automotive

Laser technology is widely used in the automotive industry to improve the precision and efficiency of manufacturing processes. In particular, laser marking and cutting play a critical role in meeting the requirements for accurate marking of components, aesthetic designs, high-speed cutting and material processing. Here are the most prominent laser marking and cutting applications in the automotive industry:

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Medical

The medical sector is an area in search of more precise, safe and efficient solutions every day. Laser technology is of great importance in this field with its high precision, minimally invasive features and fast processing capacities. As Venox Technology, we offer a wide range of laser systems from medical devices to implants. Here are the prominent laser marking and cutting applications in the medical sector:

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Mechanical

Laser technology stands out in the mechanical sector as a solution that performs precision cutting, drilling and marking processes at high speed and with excellent quality. This technology offers the opportunity to produce faster and with fewer errors than traditional methods, especially for parts with complex geometries. It provides design flexibility and cost advantage by increasing productivity in the mechanical sector.

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