Thermal Accumulation in Low-Conductivity Polymers

Heat Accumulation Zones by Wavelength

Thermal Conductivity Impact on Marking

Critical Physics Relationship

When optical penetration depth exceeds the thermal damage threshold depth, foaming becomes inevitable. The relationship is:

Foaming Risk = δ / (k × τ)
Where δ = penetration depth, k = thermal conductivity, τ = pulse duration

High risk values indicate the need for physics optimization to achieve clean marking.

Ready to Apply Physics-Based Solutions?

Let our experts analyze your polymer marking challenges and develop a science-driven optimization strategy.