FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1564726538> ?p ?o ?g. }

• W1564726538 abstract "Soybean protein fibres (SPF) are manufactured fibres, produced from regenerated soya Glycine Max soybean proteins in combination with synthetic polymer (polyvinyl alcohol) as a predominant component. According to textile fibre labelling (FTC, 2010), textiles from SPF can be marked as azlons from soybean. Azlons are manufactured fibres in which the fibreforming substance is composed of regenerated naturally occurring proteins (FTC, 2011). The first commercially successful method for producing regenerated protein fibres was developed by the Italian chemist Antonio Ferretti in 1935 (Ferretti, 1944; White, 2008). In 1936 Snia Viscosa (Milan) started with the production of the world’s first commercially produced protein fibres LanitalTM which were made from milk casein (Anon., 1937). Courtaulds in Great Britain (casein fibres Caslen, Fibrolan), Enka in Netherlands, Germany and United States of America (casein fibres Aralac, R-53) soon followed with their commercial productions. Fibres were treated with formaldehyde or aluminium salts, to create cross-links between proteins in the fibre and improve fibre‘s wet properties. In the year 1945 Snia Viscosa replaced LanitalTM fibres with MerinovaTM casein fibres (Fig. 1), which had better properties than LanitalTM fibres. In the middle of the 20th century and until 1960, vegetable regenerated protein fibres from oilseed peanuts proteins (Ardil fibres, produced by British ICI Company) (Fig. 1) and from corn zein proteins (Vicara fibres produced by American Virginia-Carolina Corporation) were also produced among casein fibres. Fabrics made from regenerated protein fibres were soft, lustrous, resilient, with a good hand and thermal resistance. They were used as a wool or silk substitute by many European fashion designers. Rapid development of cheaper synthetic fibres with excellent mechanical properties in the early sixties had influence on the commercial production of regenerated protein fibres that was completely discontinued in the middle of the 1960s. Nowadays, increasing world population need additional quantities of textiles. The world fibre production increases from year to year and in 2010 there was globally produced 78 million tons of fibres, including about one million tons of wool and 0.15 million tons of silk (Kanitkar, 2010). Wool and silk are still very expensive fibres, with selling prices of about 14−23 €/kg and 28−40 €/kg, respectively (Reddy & Yang, 2007). Today’s fibre production strategy is redirected from crude oil to renewable raw materials, eco-friendly and sustainable fibres, that could be biodegraded or recycled. Important raw materials for future textile fibres production could be cheap and worldwide available agricultural by-products, like lignocellulose (from rice straw), wheat gluten (Yang et al., 2006), casein protein from milk after butterfat is removed, zein protein from corn after starch manufacture, and soybean protein after beans are pressed and oil is removed." @default.
• W1564726538 created "2016-06-24" @default.
• W1564726538 creator A5024164409 @default.
• W1564726538 creator A5043016749 @default.
• W1564726538 date "2011-10-28" @default.
• W1564726538 modified "2023-09-30" @default.
• W1564726538 title "Soybean Protein Fibres (SPF)" @default.
• W1564726538 cites W1594045354 @default.
• W1564726538 cites W2015008059 @default.
• W1564726538 cites W2032939643 @default.
• W1564726538 cites W2037762020 @default.
• W1564726538 cites W2050272724 @default.
• W1564726538 cites W2055084717 @default.
• W1564726538 cites W2056851765 @default.
• W1564726538 cites W2121104464 @default.
• W1564726538 cites W2131311335 @default.
• W1564726538 cites W2141243639 @default.
• W1564726538 cites W2158279281 @default.
• W1564726538 cites W2479417525 @default.
• W1564726538 cites W2496197819 @default.
• W1564726538 cites W612978375 @default.
• W1564726538 doi "https://doi.org/10.5772/19614" @default.
• W1564726538 hasPublicationYear "2011" @default.
• W1564726538 type Work @default.
• W1564726538 sameAs 1564726538 @default.
• W1564726538 citedByCount "8" @default.
• W1564726538 countsByYear W15647265382017 @default.
• W1564726538 countsByYear W15647265382018 @default.
• W1564726538 countsByYear W15647265382019 @default.
• W1564726538 countsByYear W15647265382020 @default.
• W1564726538 countsByYear W15647265382021 @default.
• W1564726538 countsByYear W15647265382022 @default.
• W1564726538 crossrefType "book-chapter" @default.
• W1564726538 hasAuthorship W1564726538A5024164409 @default.
• W1564726538 hasAuthorship W1564726538A5043016749 @default.
• W1564726538 hasBestOaLocation W15647265381 @default.
• W1564726538 hasConcept C192562407 @default.
• W1564726538 hasConceptScore W1564726538C192562407 @default.
• W1564726538 hasLocation W15647265381 @default.
• W1564726538 hasLocation W15647265382 @default.
• W1564726538 hasOpenAccess W1564726538 @default.
• W1564726538 hasPrimaryLocation W15647265381 @default.
• W1564726538 hasRelatedWork W2018879842 @default.
• W1564726538 hasRelatedWork W2040490366 @default.
• W1564726538 hasRelatedWork W2325423348 @default.
• W1564726538 hasRelatedWork W2737498735 @default.
• W1564726538 hasRelatedWork W2744391499 @default.
• W1564726538 hasRelatedWork W2898370298 @default.
• W1564726538 hasRelatedWork W2899084033 @default.
• W1564726538 hasRelatedWork W3120461830 @default.
• W1564726538 hasRelatedWork W3144504424 @default.
• W1564726538 hasRelatedWork W4292492973 @default.
• W1564726538 isParatext "false" @default.
• W1564726538 isRetracted "false" @default.
• W1564726538 magId "1564726538" @default.
• W1564726538 workType "book-chapter" @default.