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Electronics

Laser marking operates on PCBs, connectors, chip carriers and plastic housings without mechanical contact, with focal spots in the micron range for high-density Data Matrix codes on heterogeneous surfaces and small components. Integration with vision systems guarantees immediate code reading and individual traceability of each component.

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Industrial Adhesive Bonding: Technology, Applications and Process Optimization

This article analyzes adhesive bonding as an engineering technology: from the chemistry of adhesion to operational configurations, from the choice of adhesive system to surface preparation-including the increasingly important role of laser treatment-to joint qualification.

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Traceability in Electrical Components: When Demand Compels Technological Change.

Laser marking for electrical switches: how traceability demands from OEMs, utilities and insurance companies are making pad printing and inkjet obsolete.

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The challenge of laser marking on plastics in the electronics industry

Technical guide to laser selection (fiber, MOPA, UV, green) for plastic marking in electronics: contrast, quality, and inline integration for switches and components.

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UV and green laser marking on electronic components: integration, precision and automation in production lines

UV and green lasers have established themselves as reference technologies for cold marking of technical plastics and polymeric materials used in electronics.

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