Ensure your labels endure the toughest conditions in the automotive industry. Achieve reliable scan rates and seamless integration into your tracking system.
Boost traceability with reliable, long-lasting labels. Whether you need standard pre-cure barcodes or custom tracking solutions, we’ve got you covered.
Our standard pre-cure air spring labels are engineered for longevity and performance in demanding environments. Constructed with a matte black polyester face stock and a permanent rubber emulsion adhesive, they come die-cut on a clear liner. Air spring labels are resistant to: oils, alkalis, water, salts, abrasion, and UV.
High-heat labels perform up to 380°F (193°C)
Available in two standard sizes, we can also customize them to any size you need. With their robust design, our labels maintain integrity and readability through the manufacturing process. Here are some key features of our standard labels:
Our sequence management services ensure no duplicates, providing you with reliable and unique labels for every part. We also offer full customization options to match your exact requirements if the standard label does not meet your needs. Our team is dedicated to delivering high-quality, tailored solutions to enhance your manufacturing process.
While our standard pre-cure air spring labels are designed for optimal performance, we also offer a range of additional and customizable options to meet your specific needs. Labels can be produced in various sizes and shapes to fit different applications and preferences. We offer labels in different colors for color-coding and enhanced visibility.
For those who require post-cure application, we offer materials better suited for this process, though pre-cure remains superior for tracking efficiency. Whatever your requirements, our customizable options ensure you get the perfect labeling solution for your air springs. Our commitment to quality and flexibility guarantees that we can meet even the most specialized labeling demands.
Drive belt marking solutions provide durable, clear identification. Designed to withstand the rigors of high-temperature and high-friction environments.
Tire bead labels are built to survive high temperatures and curing processes. They provide reliable tracking throughout tire manufacturing.
Durable labels for automotive parts ensure clear identification in challenging environments. They withstand heat, chemicals, and mechanical wear.
Leverage our advanced asset tracking software powered by atma.io from Avery Dennison. This platform provides unparalleled transparency and traceability for your air springs and other automotive parts. We develop customized interfaces and functionality based on the unique needs of your industry and application, offering specialized solutions to provide you with greater visibility and control.
Implementing an advanced asset tracking solution in your operations will help streamline processes, reduce waste, and improve overall supply chain transparency, ensuring your business stays ahead in a competitive market. Request a consultation and a demo to learn more about how this solution can add value to your operations.
Watch our scratch and peel test to see how our labels perform on hot rubber compared to the competition. See the durability of our labels as we attempt to scratch off the barcode and peel the label from the rubber. Label failure leads to costly scrap and rework and is unacceptable in automotive manufacturing. Witness the superior performance of our pre-cure rubber labels firsthand.
Explore how our air spring labels can withstand extreme environments. Request a sample and experience the durability firsthand.
BarTender makes label design and printing simple and efficient. Integrate easily with various systems for seamless label management.
RFID solutions enable efficient tracking and data management across industries. Improve accuracy and streamline processes with real-time monitoring.
The Zebra ZT Printer Series offers reliable, high-volume label printing. Designed for durability and performance in industrial environments.
© Computype 2024
© Computype 2024