All Outputs (3)

Electroless Ni-P\alginate microgels coatings with self-healing properties (2017)
Conference Proceeding
Stankiewicz, A., Winiarski, J., Zielinska, K., & Barker, M. (2017). Electroless Ni-P\alginate microgels coatings with self-healing properties. In Proceedings of EuroCorr 2017

Self-healing coatings, offering corrosion protection on an alloy steel substrate, were fabricated by electroless co-deposition of a Ni-P matrix together with alginate microgels incorporating nickel saltsand sodium hypophosph... Read More about Electroless Ni-P\alginate microgels coatings with self-healing properties.

A Novel Design for a Gel-Type DML Transducer Incorporating a Solid Panel Projecting Multiple Independent Sound Sources. (2010)
Conference Proceeding
Cho, M., Prokofieva, E., Barker, M., & Munoz, J. (2010). A Novel Design for a Gel-Type DML Transducer Incorporating a Solid Panel Projecting Multiple Independent Sound Sources.

The gel-type DML transducer (referred to as the gel transducer in this paper) excites a panel to radiate sound waves through the gel surround. The panel breaks into different characteristic modes of vibration as frequency increases. At high frequenci... Read More about A Novel Design for a Gel-Type DML Transducer Incorporating a Solid Panel Projecting Multiple Independent Sound Sources..

Improvement of Sound Quality by Means of Ultra-Soft Elastomer for the Gel Type Inertia Driven DML Type Transducer. (2010)
Conference Proceeding
Cho, M., Prokofieva, E., Munoz, J., & Barker, M. (2010). Improvement of Sound Quality by Means of Ultra-Soft Elastomer for the Gel Type Inertia Driven DML Type Transducer.

Unlike standard DML transducers, the gel-type inertia driven transducer (referred to as the gel transducer in this paper) designed as a mini woofer DML-type transducer, transfers its pistonic movement to a panel through the gel surround, thereby gene... Read More about Improvement of Sound Quality by Means of Ultra-Soft Elastomer for the Gel Type Inertia Driven DML Type Transducer..