Skip to main content
Image representation for Metals

Metals

View results

Many different materials are featured in the Foundation’s collection of metalwork, including silver, fused silver plate, pewter, copper, brass, iron and polished steel. Mixed media such as enamels, jewelry, and japanned sheet metal are also well represented. Ranging from the most basic and personal to the exceptional and ostentatious, metal objects of these diverse types filled homes and public spaces on both sides of the Atlantic.

British silver is one of the greatest strengths of the collection, in large part because of its great popularity in early America, especially in the southern colonies. Pieces with American histories of ownership are especially prized as documents of early consumer choice, but exceptional examples by important London silversmiths are also numerous. These include a rare ten-branch silver chandelier made for King William III, one of the earliest known English silver chocolate pots, and a pair of elaborate silver-gilt dessert baskets by the Huguenot craftsman Paul de Lamerie. The Foundation also has a modest but growing assemblage of American-made silver, including forms for drinking, dining, and personal adornment.

The technique of fusing silver to copper was discovered by Thomas Boulsover of Sheffield, England, in 1742. Often known as Sheffield plate, this new metal rapidly attained great popularity both at home and abroad because of its success in mimicking sterling silver at a far lower cost. Thanks in large part to gifts from three donors, Colonial Williamsburg holds one of the most extensive assemblages of Sheffield plate in any American institution.

Pewter, an alloy of tin, copper, antimony, bismuth, and lead, is also very well represented, with abundant examples of objects for dining, drinking, lighting, and household use. Although pewter was most often unadorned, the collection at Colonial Williamsburg includes specimens that feature engraving, relief ornamentation, and even painted and enameled decoration.