Porcelain vase "Squall Platinum Titanised" (medium, height 32 cm) - Design Cédric Ragot
Porcelain vase "Squall Platinum Titanised" (medium, height 32 cm) - Design Cédric Ragot
Quick info
porcelain | titanised | height 32 cm | weight 2.2 kg
Detailed description
Porcelain vase "Squall Platinum Titanised" (medium, height 32 cm) - Design Cédric Ragot
Fascinated by the plasticity and the limits of the malleability of materials, the French designer Cédric Ragot has designed a new series of vases. "Squall" picks up on the idea of capturing a movement in all its dynamics and allowing it to solidify. "Squall" is reminiscent of a whirlwind or water vortex whose elemental force is cast in the imperishability of porcelain, an extraordinary design object with great radiance.
Made of the finest porcelain by the renowned traditional house Rosenthal under the successful "studio-line" design brand. Medium version titanised in platinum. Height 32 cm. Weight 2.2 kg.
Producer: ars mundi Edition Max Büchner GmbH, Bödekerstraße 13, 30161 Hanover, Germany Email: info@arsmundi.de
Ceramic product made of kaolin, quartz, and feldspar.
Porcelain is formed by turning or pressing, and figurative objects are cast. Complex objects have to be cast in separated steps and sections, and then "assembled". After the moulding, the pieces are dried and undergo an initial firing at about 900°C. Next, the glaze will be applied and fired at temperatures between 1,240 °C and 1,445 °C. In renowned manufactories, the porcelain is painted by hand, with each colour being fired individually under strict temperature tolerances.
Porcelain was invented in China and became widespread in Europe from the 16th century onwards. The first European porcelain factory was founded in Meissen, Germany in 1710.
Other famous European porcelain factories include Fürstenberg, Höchst, Schwarzburger Werkstätten, Lladró, Nymphenburg, KPM, Augarten, Sèvres, Limoges, Royal Copenhagen, Worcester. Each factories label their products with their personal porcelain stamps to indicate their origin.