The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Applications included Laser Perforated stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of EL Plastic, One-way mirrored film, LEDs, UV light and Smart Appliance Technology. For more info visit www.davidcassellsdesign.com
The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Specific applications included Laser Perforating stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of Electroluminescent Plastic, One – way mirrored film, coloured LEDs, ultraviolet light and Smart Appliance Technology.
The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Specific applications included Laser Perforating stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of Electroluminescent Plastic, One – way mirrored film, coloured LEDs, ultraviolet light and Smart Appliance Technology.
The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Specific applications included Laser Perforating stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of Electroluminescent Plastic, One – way mirrored film, coloured LEDs, ultraviolet light and Smart Appliance Technology.
The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Specific applications included Laser Perforating stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of Electroluminescent Plastic, One – way mirrored film, coloured LEDs, ultraviolet light and Smart Appliance Technology.
The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Specific applications included Laser Perforating stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of Electroluminescent Plastic, One – way mirrored film, coloured LEDs, ultraviolet light and Smart Appliance Technology.
The Research Project: A forecasting project focused on re-valuating white-ware lighting, identifying future technology that could be applied to kitchen appliances. Specific applications included Laser Perforating stainless steel to create seamless lighting, when backlit the material appears transparent when front lit it appears solid. Other applications included the use of Electroluminescent Plastic, One – way mirrored film, coloured LEDs, ultraviolet light and Smart Appliance Technology.
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Design Research

Fisher & Paykel: Innovation through Light by Affect Design Research Centre 2009

David Cassells
Creative Director / Founder at Studio Cassells Limited Hong Kong, Hong Kong