Development of hydrophobic cellulosic biocomposites and research on their properties for the development of liquid packaging (Q3803230): Difference between revisions
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The development and development of innovative paper packaging for the storage of liquids must focus primarily on material science. Because the main component of the paper is cellulose. The cellulose, like paper, has no hydrophobicity, i.e. water resistance, and can therefore be modified. The methods of modification are intended for: chemical and physical. The industry uses a variety of chemical methods. In fact, chemical modification of cellulose leads to oedema, but the cellulosic matrix remains permeable to water. In order to ensure the complete impermeability of the paper packaging, composites of cellulose and/or its derivatives may be formed. It uses a variety of substances, i.e. synthetic plastics and biopolymers (proteins or polysaccharides). (English) | |||||||||||||||
Property / summary: The development and development of innovative paper packaging for the storage of liquids must focus primarily on material science. Because the main component of the paper is cellulose. The cellulose, like paper, has no hydrophobicity, i.e. water resistance, and can therefore be modified. The methods of modification are intended for: chemical and physical. The industry uses a variety of chemical methods. In fact, chemical modification of cellulose leads to oedema, but the cellulosic matrix remains permeable to water. In order to ensure the complete impermeability of the paper packaging, composites of cellulose and/or its derivatives may be formed. It uses a variety of substances, i.e. synthetic plastics and biopolymers (proteins or polysaccharides). (English) / rank | |||||||||||||||
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Property / summary: The development and development of innovative paper packaging for the storage of liquids must focus primarily on material science. Because the main component of the paper is cellulose. The cellulose, like paper, has no hydrophobicity, i.e. water resistance, and can therefore be modified. The methods of modification are intended for: chemical and physical. The industry uses a variety of chemical methods. In fact, chemical modification of cellulose leads to oedema, but the cellulosic matrix remains permeable to water. In order to ensure the complete impermeability of the paper packaging, composites of cellulose and/or its derivatives may be formed. It uses a variety of substances, i.e. synthetic plastics and biopolymers (proteins or polysaccharides). (English) / qualifier | |||||||||||||||
point in time: 1 February 2022
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Revision as of 16:28, 1 February 2022
Project Q3803230 in Lithuania
Language | Label | Description | Also known as |
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English | Development of hydrophobic cellulosic biocomposites and research on their properties for the development of liquid packaging |
Project Q3803230 in Lithuania |
Statements
28,095.6 Euro
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46,826.0 Euro
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60.0 percent
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1 September 2019
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1 August 2020
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Uždaroji akcinė bendrovė "Birštono mineraliniai vandenys" ir Ko
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59209
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Inovatyvių popierinių pakuočių skirtų skysčiams laikyti kūrimui ir vystymui pirmiausiai ypatingas dėmesys turi būti skirtas medžiagotyrai. Kadangi pagrindinė popieriaus sudedamoji dalis yra celiuliozė. Celiuliozė, kaip ir popierius, nepasižymi hidrofobiškumu t.y. atsparumu vandeniui, todėl ji gali būti modifikuojama. Modifikavimo būdai yra skirtomi į: cheminius ir fizikinius. Pramonėje yra taikomi įvairūs cheminiai būdai. Iš esmės, cheminis celiuliozės modifikavimas lemia jos nebrinkimą, tačiau celiuliozės matrica vis tiek išlieka pralaidi vandeniui. Siekiant užtikrinti visišką popierinės pakuotės nepralaidumą, gali būti formuojami celiuliozės ir/ar jos darinių kompozitai. Jų sudarymui naudojamos įvairios medžiagos, t.y. sintetiniai plastikai ir biopolimerai (baltymai arba polisacharidai). (Lithuanian)
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The development and development of innovative paper packaging for the storage of liquids must focus primarily on material science. Because the main component of the paper is cellulose. The cellulose, like paper, has no hydrophobicity, i.e. water resistance, and can therefore be modified. The methods of modification are intended for: chemical and physical. The industry uses a variety of chemical methods. In fact, chemical modification of cellulose leads to oedema, but the cellulosic matrix remains permeable to water. In order to ensure the complete impermeability of the paper packaging, composites of cellulose and/or its derivatives may be formed. It uses a variety of substances, i.e. synthetic plastics and biopolymers (proteins or polysaccharides). (English)
1 February 2022
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B. Sruogos 7, Birštonas
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Identifiers
01.2.1-MITA-T-851-02-0116
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