Krater (Oxybaphon)
1874 (made)
Artist/Maker | |
Place of origin |
This electrotype copy of a wine container was bought by the Museum in 1874 from Elkington and Co. of Birmingham and London, for £16. Elkington had bought the reproduction krater from Christofle & Cie of Paris. It is a copy of a Roman original that was discovered by soldiers among other ancient treasures near the German town of Hildesheim in 1868, and is now in the Altes Museum, Berlin.
The Museum bought electrotypes as part of its growing collection of reproductions. This collection enabled artists, designers and students to look closely at both modern and historic objects that were otherwise inaccessible. Electrotypes provided the same function as the Museum's collection of plaster casts and photographs. The V&A's collection during the 19th century was built on a mixture of original works and copies so that the museum could provide artists and designers with an encyclopedic collection of international ornament.
The discovery of the Hildesheim Treasure attracted huge international press coverage. Copies were made for sale in several countries either as home furnishings or, as in the case of the V&A's electrotypes, as artists' models. According to Practical Magazine in 1873, these copies would 'exercise the happiest influence on the taste of the public and on the works of our industrial artists.' One prominent buyer of copies of the Hildesheim Treasure was the Dutch artist, Lawrence Alma-Tadema (1836-1912) who not only decorated his London home with kraters and vases but also depicted them in a number of his romantic classical paintings including a study for 'The Roses of Heligoabalus' (1888) now in the Colleción Pérez Simón in Mexico.
The Museum bought electrotypes as part of its growing collection of reproductions. This collection enabled artists, designers and students to look closely at both modern and historic objects that were otherwise inaccessible. Electrotypes provided the same function as the Museum's collection of plaster casts and photographs. The V&A's collection during the 19th century was built on a mixture of original works and copies so that the museum could provide artists and designers with an encyclopedic collection of international ornament.
The discovery of the Hildesheim Treasure attracted huge international press coverage. Copies were made for sale in several countries either as home furnishings or, as in the case of the V&A's electrotypes, as artists' models. According to Practical Magazine in 1873, these copies would 'exercise the happiest influence on the taste of the public and on the works of our industrial artists.' One prominent buyer of copies of the Hildesheim Treasure was the Dutch artist, Lawrence Alma-Tadema (1836-1912) who not only decorated his London home with kraters and vases but also depicted them in a number of his romantic classical paintings including a study for 'The Roses of Heligoabalus' (1888) now in the Colleción Pérez Simón in Mexico.
Object details
Categories | |
Object type | |
Parts | This object consists of 3 parts.
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Materials and techniques | Electroplated copper |
Brief description | Reproduction of a large wine container (krater/oxybaphon), silver plated, the exterior decorated with griffins and foliage in relief, made by Christofle et Cie, Paris, 1874 reproducing a Roman krater of ca. 1st Century AD found at Hildesheim in 1868. |
Physical description | Reproduction of a large wine container (krater/oxybaphon), silver plated, the exterior decorated with griffins and foliage in relief, amongst which are boys attacking sea creatures. The krater stands on a narrow circular foot and has two curved handles near the top. |
Dimensions |
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Style | |
Production type | Copy |
Marks and inscriptions | 'Trésor d'Hildesheim / Fac-simile Galvanique / Christofle & Cie '
(Engraved on the underside of the foot.)
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Gallery label |
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Object history | This electrotype copy of a wine container was bought by the Museum in 1874 from Elkington and Co. of Birmingham and London, for £16. Elkington had bought the reproduction krater from Christofle & Cie of Paris. The Roman original was discovered by soldiers near the German town of Hildesheim in 1868, and is now in the Altes Museum, Berlin. When the museum bought the krater it was catalogued under the offical accessioning system for msueum objects rather than as a reproduction. It was described in the register in 1874 as, 'VASE "Oxybaphon". The exterior is repoussé with griffins and foliage, amongst which are boys attacking shrimps &c. From the Roman original discovered at Hildesheim in 1868, and now in the Berlin museum. H. 15 1/8 IN., diam 15 in. Messrs. Elkington and Co. Silvered, 16l.' The discovery of the Hildesheim Treasure attracted huge international press coverage. Copies were made for sale in several countries either as home furnishings or, as in the case of the V&A's electrotypes, as artists' models. According to Practical Magazine in 1873, these copies would 'exercise the happiest influence on the taste of the public and on the works of our industrial artists.' One prominent buyer of Hildesheim copies was the Dutch artist, Lawrence Alma-Tadema (1836-1912) who not only decorated his London home with copies of the Hildesheim treasures but also depicted them in a number of his romantic classical paintings including a study for 'The Roses of Heligoabalus' (1888) now in the Colleción Pérez Simón in Mexico. As an electrotype the cup is an example of a 19th-century design model. Electrotypes play a key role in helping us to understand the V&A in its earliest days. The Museum grew largely out of the Great Exhibition in 1851 and, under the guidance of Henry Cole, sought to arrest the perceived decline in British design. The Museum aimed, initially, to collect 'modern manufactures' for the education of manufacturers, designers and the public, with a long term goal of improvng the quality and quantity of Britain's manufactured goods. Cole was also in charge of the Government Schools of Design, which he set about reforming. Cole passionately believed in the potential of both museums and the schools of design, to raise standards of taste. The aim of the Museum was to present a lesson in world ornament. The Museum bought electrotypes as part of its growing collection of reproductions. This collection enabled students to look closely at both modern and historic objects that were otherwise inaccessible. Electrotypes provided the same function as the Museum's collection of plaster casts. They sit alongside photography, invented around the same time, as the products of revolutionary new technology that enabled the reproduction of works of art to be made available to a wide audience. The relationship with photography is close. The electrotypes were not generally working copies. They were impressions of the outside surfaces of an object, in effect, 3-dimensional photographs. |
Historical context | ELECTROPLATING: Electricity revolutionised the trade of coating base metal objects with silver. Patented by Elkington and Company in the 1840s, this technique was the fulfilment of a century of research into the effects of electricity on metals. A negatively charged silver bar, suspended in a vat of potassium cyanide, deposited a coating of silver on a positively charged base metal (mostly copper, later nickel-silver) object immersed with it. Electroplated objects were fully formed in base metal before plating. ELECTROGILDING exploited the same technique but used gold bars instead of silver. It was safer than traditional mercury gilding. ELECTROFORMING transferred the metal deposits directly into moulds in the plating vats. When enough metal had been deposited to create a self-supporting object the mould was removed. Developed by Alexander Parkes, electroforms so accurately mirrored the moulds in which they were created that multiple copies could be created (ELECTROTYPES). The Process During the electrotyping process a mould was taken of the original object. The moulds were made from gutta percha or plaster. Gutta percha was a tree-resin from Malaysia that could be melted and poured onto an object, but would set hard and take a perfect impression. During cooling it could also be manipulated. When the mould set, it was removed from the original object and then lined with graphite or plumbago to make it conductive. This mould was then immersed in the plating vats for coating with copper. For this electrotype, the sequence therefore runs as follows: Separate moulds were taken of various parts of the cup. In these, copper impressions were electroformed. These became 'type patterns'. The type patterns became the source for future moulds to be made to save going back to the original, which might be fragile or, in the case of objects in private or overseas collections, inaccessible. This cup then was electroformed in copper from moulds made from a type pattern which itself was electroformed in a mould of the original. The copper electrotype was then electroplated and electrogilded to look like the original. The final electrotype is therefore two stages removed from the original cup, but is still a highly accurate impression. The Educational Role of Electrotyping Early experiments in electroplating, often by amateur scientists using Elkington's home electroplating kits, involved coating fruit, flowers and animals in silver or gold "with the most perfect accuracy". They "retained all the characteristics of the specimens before their immersion" (Penny Magazine, 1844). The Art Journal enthused in same year, "The electrotypes are perfect; the finest lines, the most minute dots are as faithfully copied as the boldest objections." Henry Cole, the first director of the South Kensington Museum (V&A), quickly grasped the educational potential of this new technique. He employed Elkington's and Franchi & Son of Clerkenwell to take moulds of historic and modern objects in the Museum (at their own risk), create copies in copper and then electroplate them. These could be sold freely as reproductions, with a gold, silver or bronze finish, provided they bore the South Kensington Museum's official stamp. To avoid breaking English hallmarking laws, all marks were to be deleted from copies of silver objects. Copies were made of successful modern objects as well as historic works of art Elkington's display of electrotypes at the 1867 Paris Exhibition proved extremely popular and prompted Cole to organise a convention at which 14 European countries agreed to exchange works of art. Representatives of Elkington's and the V&A sent staff to Germany, Sweden, France, Denmark and Hungary. The most ambitious trip, to Moscow and St. Petersburg in 1880, secured copies of over 200 items from the Kremlin and the Hermitage, including the celebrated Jerningham Wine Cooler and much Elizabethan and Stuart silver sent as ambassadorial gifts to the Tsars. By 1920 the V&A held over 2000 electrotypes. Copies toured the country as part of the museum's educational programmes and were sold to the public and to museums and art schools. Electrotyping as a Product of Industrialisation Christofle of Paris, who made this krater, bought their licence to electroplate from Elkington the retailer of the krater. Elkingtons were a commercial giant selling electrotypes for profit as well as instruction. A variety of finishes met a range of tastes and budgets. Electrotypes are also relics of 19th-century industrialisation and mass production. The process of electroplating and electrotyping favoured companies that could afford large factories and expensive technology. The power of the machinery and new technology now at the disposal of the silver industry encouraged modern mass production to develop. Electroplaters could create thousands of identical objects using a fraction of the amount of silver to create "a degree of mechanical finish it would be difficult to surpass" (Art Union, 1846). The focus of silver and silver product manufacture moved from London to the new factories of Birmingham and Sheffield. Some smaller companies trying to keep pace with industrial change suffered. The large vats of potassium cyanide required spacious, well-ventilated factories. A report at the Great Exhibition claimed workers in smaller companies suffered blistered skin, headaches temporary blindness and nausea. This combination of art education and mass production made electrotypes the perfect marriage of art and industry. |
Production | Electrotype reproduction |
Summary | This electrotype copy of a wine container was bought by the Museum in 1874 from Elkington and Co. of Birmingham and London, for £16. Elkington had bought the reproduction krater from Christofle & Cie of Paris. It is a copy of a Roman original that was discovered by soldiers among other ancient treasures near the German town of Hildesheim in 1868, and is now in the Altes Museum, Berlin. The Museum bought electrotypes as part of its growing collection of reproductions. This collection enabled artists, designers and students to look closely at both modern and historic objects that were otherwise inaccessible. Electrotypes provided the same function as the Museum's collection of plaster casts and photographs. The V&A's collection during the 19th century was built on a mixture of original works and copies so that the museum could provide artists and designers with an encyclopedic collection of international ornament. The discovery of the Hildesheim Treasure attracted huge international press coverage. Copies were made for sale in several countries either as home furnishings or, as in the case of the V&A's electrotypes, as artists' models. According to Practical Magazine in 1873, these copies would 'exercise the happiest influence on the taste of the public and on the works of our industrial artists.' One prominent buyer of copies of the Hildesheim Treasure was the Dutch artist, Lawrence Alma-Tadema (1836-1912) who not only decorated his London home with kraters and vases but also depicted them in a number of his romantic classical paintings including a study for 'The Roses of Heligoabalus' (1888) now in the Colleción Pérez Simón in Mexico. |
Bibliographic references |
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Collection | |
Accession number | 316-1874 |
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Record created | June 24, 2009 |
Record URL |
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