Dyson

Last updated January 31, 2026

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Haircare appliance thermal airflow architecture: DysonRecent Research Landscape

Thermal damage during styling leads to irreversible fiber degradation and customer dissatisfaction. These innovations utilize real-time sensor data to modulate heat output and prevent structural hair damage.

What technical problems is Dyson addressing in Haircare appliance thermal airflow architecture?

Thermal hair damage

(15)evidences

Non-uniform heat and air delivery causes localized hair damage and inefficient drying. Achieving precise thermal control prevents fiber degradation and reduces styling time.

Inconsistent thermal distribution

(10)evidences

Excessive heat exposure during drying causes irreversible structural degradation of hair fibers. Preventing thermal trauma ensures hair health and integrity during styling.

Thermal hair damage

(5)evidences

Excessive heat exposure during drying leads to irreversible structural degradation of keratin fibers. Preventing this failure mode ensures hair health while maintaining styling efficacy.