Bibliografías temáticas / Cellulose fibres

Literatura académica sobre el tema "Cellulose fibres"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 21 de febrero de 2023

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Artículos de revistas sobre el tema "Cellulose fibres"

1

Ouajai, Sirisart, Peerachai Ruangwilairat, Kitti Ongwongsakul, Thanawadee Leejarkpai y Robert A. Shanks. "Morphology and Structure of Modified Oil Palm Empty Fruit Bunch Cellulose Fibre". Advanced Materials Research 93-94 (enero de 2010): 607–10. http://dx.doi.org/10.4028/www.scientific.net/amr.93-94.607.

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Oil palm empty fruit bunch (OPEFB) cellulose fibre has been widely used as a reinforcing filler in polymer composites. Surface modification of OPEFB fibre was aimed enhancing inter-phase adhesion with a poly(lactic acid) matrix. In this study, the OPEFB fibres were pre-treated in a sodium hydroxide solution. Surface compositions and thermal stability of the fibres were studied using ATR-FTIR and TGA techniques, respectively. The pre-treatment resulted in the removal of non-cellulosic components leaving purer fibres. In addition, an acetylation of OPEFB cellulose fibres by acetic anhydride was conducted under solvent free condition at room temperature (30 °C). The acetylation reaction was catalyzed by iodine. The degree of substitution monitored by solid state 13C NMR depended upon reaction time and molar ratio of OPEFB cellulose and acetic anhydride. Crystalline structure and morphology of the partial acetylated fibres were investigated using WAXD and SEM, respectively.
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Fernando, Sarah, Chamila Gunasekara, Amin Shahpasandi, Kate Nguyen, Massoud Sofi, Sujeeva Setunge, Priyan Mendis y Md Tareq Rahman. "Sustainable Cement Composite Integrating Waste Cellulose Fibre: A Comprehensive Review". Polymers 15, n.º 3 (19 de enero de 2023): 520. http://dx.doi.org/10.3390/polym15030520.

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This review presents the research conducted to date in the field of cement-based composites reinforced with waste paper-based cellulose fibres, focusing on their composition, mechanical properties, and durability characteristics. The literature demonstrates that the properties of raw material (depending on their own chemical composition) significantly influence the formation of the cement composite binders. When considering fresh properties, the presence of silica and magnesium compounds generally lead to favourable effects on the setting of the cement composite when combined with waste paper cellulose fibre. Reduction in density values, i.e., approximately 25%, was observed with the inclusion of waste paper fibres from 20 to 80% in cement composites. The homogeneous dispersion of fibres in the matrix is one of the crucial factors to achieve in order to develop composites with well-balanced mechanical properties incorporating waste paper cellulose fibres. Hence, dispersion of fibres can be improved by increasing water quantity corresponding to the optimal value, which was a water/cement ratio of 0.64 leading to optimum strength properties of the composite. Even though the effect of fibre dispersion in the matrix improves with the addition of water, higher porosity and voids govern the strength properties beyond an optimum water-to-cement ratio. Higher porosity leads to an increase in the water absorption and a lowering of the thermal conductivity properties with the addition of paper fibre in cement binders. Paper fibre absorbs a high amount of water leading to higher water absorption. This phenomenon is related to the hydrophilic nature of cellulosic fibres absorbing some volume of water due to their microporous structure.
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3

Manian, Avinash P., Sophia Müller, Doris E. Braun, Tung Pham y Thomas Bechtold. "Dope Dyeing of Regenerated Cellulose Fibres with Leucoindigo as Base for Circularity of Denim". Polymers 14, n.º 23 (2 de diciembre de 2022): 5280. http://dx.doi.org/10.3390/polym14235280.

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Circularity of cellulose-based pre- and post-consumer wastes requires an integrated approach which has to consider the characteristics of the fibre polymer and the presence of dyes and additives from textile chemical processing as well. Fibre-to-fibre recycling is a condition to avoid downcycling of recycled material. For cellulose fibres regeneration via production of regenerated cellulose fibres is the most promising approach. Textile wastes contain dyes and additives, thus a recycling technique has to be robust enough to process such material. In an ideal case the reuse of colorants can be achieved as well. At present nearly 80% of the regenerated cellulose fibre production utilises the viscose process, therefore this technique was chosen to investigate the recycling of dyed material including the reuse of the colorant. In this work, for the first time, a compilation of all required process steps to a complete circular concept is presented and discussed as a model. Indigo-dyed viscose fibres were used as a model to study cellulose recycling via production of regenerated cellulose fibres to avoid downcycling. Indigo was found compatible to the alkalisation and xanthogenation steps in the viscose process and blue coloured cellulose regenerates were recovered from indigo-dyed cellulose. A supplemental addition of reduced indigo to the cellulose solution was also found feasible to adjust colour depth in the regenerated cellulose to the level required for use as warp material in denim production. By combination of fibre recycling and indigo dyeing the conventional yarn dyeing in denim production can be omitted. Model calculations for the savings in water and chemical consumption demonstrate the potential of the process. The proportion of the substitution will depend on the collection rate of denim wastes and on the efficiency of the fibre regeneration process. Estimates indicate that a substitution of more than 70% of the cotton fibres by regenerated cellulose fibres could be achieved when 80% of the pre- and post-consumer denim wastes are collected. Therefore, the introduction of fibre recycling via regenerated cellulose fibres will also make a substantial impact on the cotton consumption for jeans production.
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Fuckerer, Katharina, Oliver Hensel y Joachim J. Schmitt. "Rye Bread Fortified With Cellulose and Its Acceptance by Elderlies in Nursing Homes and Young Adults". Journal of Food Studies 5, n.º 1 (27 de enero de 2016): 1. http://dx.doi.org/10.5296/jfs.v5i1.8847.

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<p>Several clinical studies suggest that a sufficient daily intake of fibres has positive effects on prevention of different diseases. Other studies show that most elderlies ingest too less fibres daily. As bread is one of the daily consumed food by elderly a brown rye bread fortified with three different cellulose fibres length (18 µm, 300 µm, 700 µm) was developed. To find out whether elderly would consume such cellulose fortified rye breads, preference tests and a questionnaire about fibres and liking of fibres enriched rye breads were conducted with people older than 75 years and living in a nursing home. Comparable test were conducted with young adults. Preference test and questionnaire showed that young adults favoured rye bread with 18 µm cellulose, because they associated soft crumb texture with freshly baked bread. Instead elderlies preferred standard rye bread and bread with 300 µm cellulose, because those two kinds of rye breads have similar crumb texture which is popular with elderlies. These results showed that there are differences in preferring of fortified rye bread between elderlies and young adults. Parallel questionnaires showed that elderlies and young are well informed about fibres and have a positive attitude towards rye bread fortified with fibres. Therefore given information about fibres did not increase liking of the fibre rye breads. Finally, it can be concluded that elderlies would eat bread fortified with fibers and there were differences in liking of bread between elderlies and young. </p>
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Stevulova, Nadezda, Viola Hospodarova, Vojtech Vaclavik, Tomas Dvorsky y Tomas Danek. "Characterization of cement composites based on recycled cellulosic waste paper fibres". Open Engineering 8, n.º 1 (10 de noviembre de 2018): 363–67. http://dx.doi.org/10.1515/eng-2018-0046.

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AbstractNowadays, there is paying an attention to the utilization of natural, renewable and biodegradable resources of raw materials of lignocellulosic character, residues from agricultural crops and wood processing as well as waste from papermaking industry in building composite materials preparing. Also recycled fibres coming from waste paper are considered as valuable material. The objective of this study is to utilize these recycled cellulosic fibres into cement composites and characterise their impact on resulting physical and mechanical properties of fresh and hardened cement composites. Manufactured cement composites contained 0.2%, 0.3% and 0.5% addition of cellulosic fibres. In fresh fibre cement mixtures reduction in workability with increasing amount of cellulose fibres was noticed. Density as well as compressive and flexural strength of 28 and 90 days hardened fibre cement composites was tested. Distribution of cellulosic fibres with 0.5% addition in hardened fibre cement composites was also observed. The results of density determination of 28 and 90 days hardened fibre cement composites showed reduction in their values related to weight lighter concretes. Compressive strengths of fibre cement composites have shown decreasing character with increasing added amount of cellulosic fibres into the mixture up to 0.5%. Maximal decrease in compressive strength values was observed in composites containing 0.5% of cellulosic fibres. However, obtained strength parameter values of hardened composites had satisfying results for their application in construction as non-load bearing building material.
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Sumithra, Murugesan y Gayathri Murugan. "Extraction and characterization of natural fibres form Elettaria Cardamomum". Tekstilna industrija 69, n.º 2 (2021): 30–33. http://dx.doi.org/10.5937/tekstind2102030s.

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Natural fibres are one of the good alternative sources for replacing synthetic fibres and reinforcing polymer matrices because of their eco-friendly nature. The present study was undertaken to investigate the fibres extract from Elettaria Cardamomum plant. The extracted Elettaria Cardamomum fibre was treated with NaOH for softening. Natural cellulose fibres extracted from Elettaria Cardamomum stems (ECS) have been characterized for their chemical composition and physical properties.The chemical composition of Elettaria Cardamomumstems (ECS) fi bres is, cellulose 60.44%, lignin 25.25%, wax 0.53%, ash 5.45%. Regarding physical properties of the fibres, single fibre strength was evaluated and the result was compared with cotton fibre and linen fibre.
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Sobczak, L., A. Limper, H. Keuter, K. Fischer y A. Haider. "Polypropylene-cellulose Innovative Compounding Technology". Polymers from Renewable Resources 3, n.º 1 (febrero de 2012): 27–32. http://dx.doi.org/10.1177/204124791200300103.

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Lightweight construction and recyclability are essential factors when it comes to meeting environmental targets. Natural fibre-reinforced composites (NFCs) have an important role to play here. The density of natural fibre materials is up to 50% lower than that of the reinforcing fibres traditionally used for plastics, such as glass fibres, and as well as being fully recyclable the composites offer 100% thermal energy recovery.
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8

Števulova, Nadežda, Viola Hospodárova y Adriana Eštoková. "Study of Thermal Analysis of Selected Cellulose Fibres". GeoScience Engineering 62, n.º 3 (1 de diciembre de 2016): 18–21. http://dx.doi.org/10.1515/gse-2016-0020.

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Abstract This paper provides the investigation of thermal analysis of cellulose fibres which will be used into building materials as a partial filler replacement. Cellulosic fibres come from two various sources: bleached wood pulp and unbleached waste paper whereas these natural fibres have different cellulose contents and another manufacturing process. Natural fibres have been widely used as reinforcing fillers in composite materials in recent years. As a result, they are subjected to thermal degradation during composite processing. It is thus of practical significance to understand and predict the thermal decomposition process of natural fibres and the knowledge will help better design the composite process and estimate the influence on composite properties by the thermal decomposition of natural fibres. The results obtained from the thermal analysis of cellulosic fibres showed differences in their thermal decomposition and also differences in the weight loss due to their chemo-mechanical treatment, the presence of impurities and CaCO3 originating from filler in paper making.
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Manian, Avinash Pradip, Barbara Paul, Helene Lanter, Thomas Bechtold y Tung Pham. "Cellulose Fibre Degradation in Cellulose/Steel Hybrid Geotextiles under Outdoor Weathering Conditions". Polymers 14, n.º 19 (5 de octubre de 2022): 4179. http://dx.doi.org/10.3390/polym14194179.

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Risks from rockfall and land sliding can be controlled by high-tensile steel nets and meshes which stabilise critical areas. In many cases, a recultivation of the land is also desired. However, high-tensile steel meshes alone are not always sufficient, depending on the location and the inclination of the stabilised slope, to achieve rapid greening. Cellulose fibres exhibit high water binding capacity which supports plant growth. In this work, a hybrid structure consisting of a nonwoven cellulose fibre web and a steel mesh was produced and tested under outdoor conditions over a period of 61 weeks. The cellulose fibres are intended to support plant growth and soil fixation, and thus the biodegradation of the structure is highly relevant, as these fibres will become part of the soil and must be biodegradable. The biodegradation of the cellulose fibres over the period of outdoor testing was monitored by microscopy and analytical methods. The enzymatic degradation of the cellulose fibres led to a reduction in the average degree of polymerisation and also a reduction in the moisture content, as polymer chain hydrolysis occurs more rapidly in the amorphous regions of the fibres. FTIR analysis and determination of carboxylic group content did not indicate substantial changes in the remaining parts of the cellulose fibre. Plant growth covered geotextiles almost completely during the period of testing, which demonstrated their good compatibility with the greening process. Over the total period of 61 weeks, the residual parts of the biodegradable cellulose web merged with the soil beneath and growing plants. This indicates the potential of such hybrid concepts to contribute a positive effect in greening barren and stony land, in addition to the stabilising function of the steel net.
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10

Ullrich, Julia, Martin Eisenreich, Yvonne Zimmermann, Dominik Mayer, Nina Koehne, Jacqueline F. Tschannett, Amalid Mahmud-Ali y Thomas Bechtold. "Piezo-Sensitive Fabrics from Carbon Black Containing Conductive Cellulose Fibres for Flexible Pressure Sensors". Materials 13, n.º 22 (16 de noviembre de 2020): 5150. http://dx.doi.org/10.3390/ma13225150.

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The design of flexible sensors which can be incorporated in textile structures is of decisive importance for the future development of wearables. In addition to their technical functionality, the materials chosen to construct the sensor should be nontoxic, affordable, and compatible with future recycling. Conductive fibres were produced by incorporation of carbon black into regenerated cellulose fibres. By incorporation of 23 wt.% and 27 wt.% carbon black, the surface resistance of the fibres reduced from 1.3 × 1010 Ω·cm for standard viscose fibres to 2.7 × 103 and 475 Ω·cm, respectively. Fibre tenacity reduced to 30–50% of a standard viscose; however, it was sufficient to allow processing of the material in standard textile operations. A fibre blend of the conductive viscose fibres with polyester fibres was used to produce a needle-punched nonwoven material with piezo-electric properties, which was used as a pressure sensor in the very low pressure range of 400–1000 Pa. The durability of the sensor was demonstrated in repetitive load/relaxation cycles. As a regenerated cellulose fibre, the carbon-black-incorporated cellulose fibre is compatible with standard textile processing operations and, thus, will be of high interest as a functional element in future wearables.
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Tesis sobre el tema "Cellulose fibres"

1

Hernandez, Zurine. "Conditions required for spinning continuous fibres from cellulose nano-fibrils". Thesis, Edinburgh Napier University, 2012. http://researchrepository.napier.ac.uk/Output/5286.

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The thesis describes a programme of work to develop a novel cellulose based fibre. The most important innovative step in this work lies in the manufacture of the fibre from a chiral nematic suspension of plant based cellulose nano-fibrils. In the course of the project a number of key steps have been addressed in the development process. These included: • Developing a method for extraction of nano-fibrils from wood and cotton based pulp and filter paper; • Development of concentrated chiral nematic suspensions of the nano-fibrils suitable for extrusion (spinning); • Spinning a continuous fibre or filament; • Fibre characterization. A key objective of the work was to understand the factors that could contribute to nematic order of the nano-fibrils in the fibre and produce a high strength fibre. The fibres developed showed reasonably good strength potential and good stiffness properties with the best fibres having a tenacity of between 40 and 100 cN/tex and an initial modulus of 5000-6000 cN/tex. These values fall midway between lyocell and Kevlar. Two patents have to date been published based upon the developments described in this work (Turner et al., 2010, 2011). However, the work highlighted a number of gaps in current knowledge that prevented development of the full potential strength properties of these fibres. These included: • Incomplete knowledge of the gel conditions required to achieve complete alignment of the fibrils in the spinning process; • Challenges in being able to draw the fibre sufficiently during spinning to produce target fibre diameters of 5-10μm; • The linear density of the spun fibres had a key impact on fibre strength. It was only when linear density values dropped below 1 tex (1g/km) that a significant increase in fibre strength occurred. Factors that had an important impact on linear density included solids content of the suspension, zeta potential, extrusion rate and fibre drying temperature. All these factors relate directly to the mobility of the cellulose nano-fibrils and their subsequent ability to align under flow during spinning. The thesis can be seen as a first phase in an ongoing process to develop a new approach to the manufacture of cellulose based industrial textile fibres.
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2

Yeoh, Sang Ju. "Electrospun cellulose fibres from kraft pulp". Thesis, University of British Columbia, 2009. http://hdl.handle.net/2429/12930.

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Cellulose, the most abundant biomass extractable from wood, was generated in fibre form from kraft pulp by electrospinning, a fibre-producing process using electrostatic forces. Kraft pulping is the most dominant pulping technique in North America. Kraft pulp fibres (diam. 30μm) have a tensile strength of 700MPa and elastic modulus of 20GPa. In comparison, individual cellulose nanofibrils (diam. 5nm) have a tensile strength of 10GPa and elastic modulus of 150GPa. The strength displayed by cellulose nanofibrils suggests that the smaller fibre diameter could lead to a lower probability of including smaller flaw sizes in the fibre. Electrospinning has been successfully demonstrated as a one-step process to produce cellulose fibres directly from kraft pulp, thereby showing great potential for reducing cost and making the fibre-producing process more environmental friendly. Based on SEM and XRD, the electrospun fibres have a fibrillation-free, nano-filament structure with a seemingly cellulose I crystal structure, indicating significant potential for making crystalline cellulose fibres directly from kraft pulp. Contact angle measurements show that the electrospun fibres appear more hydrophobic than kraft pulp. The mechanical properties of the electrospun fibres have a large variation, suggesting the need for further process optimization. The ability to produce cellulose fibres directly from kraft pulp with improved moisture resistance and mechanical properties could potentially result in the development of more high value-added products for the Canadian pulp and paper industry, and perhaps even globally.
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Bengtsson, Andreas. "Carbon fibres from lignin-cellulose precursors". Licentiate thesis, KTH, Träkemi och massateknologi, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-244756.

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It is in the nature of the human species to find solutions of complex technical problems and always strive for improvements. The development of new materials is not an exception. One of the many man-made materials is carbon fibre (CF). Its excellent mechanical properties and low density have made it attractive as the reinforcing agent in lightweight composites. However, the high price of CF originating from expensive production is currently limiting CF from wider utilisation, e.g. in the automotive sector.   The dominating raw material used in CF production is petroleum-based polyacrylonitrile (PAN). The usage of fossil-based precursors and the high price of CF explain the strong driving force of finding cheaper and renewable alternatives. Lignin and cellulose are renewable macromolecules available in high quantities. The high carbon content of lignin is an excellent property, while its structural heterogeneity yields in CF with poor mechanical properties. In contrast, cellulose has a beneficial molecular orientation, while its low carbon content gives a low processing yield and thus elevates processing costs.   This work shows that several challenges associated with CF processing of each macromolecule can be mastered by co-processing. Dry-jet wet spun precursor fibres (PFs) made of blends of softwood kraft lignin and kraft pulps were converted into CF. The corresponding CFs demonstrated significant improvement in processing yield with negligible loss in mechanical properties relative to cellulose-derived CFs. Unfractionated softwood kraft lignin and paper grade kraft pulp performed as good as more expensive retentate lignins and dissolving grade kraft pulp, which is beneficial from an economic point of view.   The stabilisation stage is considered the most time-consuming step in CF manufacturing. Here it was shown that the PFs could be oxidatively stabilised in less than 2 h or instantly carbonised without any fibre fusion, suggesting a time-efficient processing route. It was demonstrated that PF impregnation with ammonium dihydrogen phosphate significantly improves the yield but at the expense of mechanical properties.   A reduction in fibre diameter was beneficial for the mechanical properties of the CFs made from unfractionated softwood kraft lignin and paper grade kraft pulp. Short oxidative stabilisation (<2 h) of thin PFs ultimately provided CFs with tensile modulus and strength of 76 GPa and 1070 MPa, respectively. Considering the high yield (39 wt%), short stabilisation time and promising mechanical properties, the concept of preparing CF from lignin:cellulose blends is a very promising route.
Det ligger i människans natur att hitta lösningar på komplexa tekniska problem, samt att alltid sträva efter förbättringar. Utvecklingen av nya material är inget undantag. Ett av flera material utvecklade av människan är kolfiber. Dess utmärkta mekaniska egenskaper samt låga densitet har gjort det attraktivt som förstärkningsmaterial i lättviktskompositer. Det höga priset på kolfiber, vilket härstammar ur en kostsam framställningsprocess, har förhindrat en mer utbredd användning i exempelvis bilindustrin.   Det dominerande råmaterialet för kolfiberframställning är petroleumbaserad polyacrylonitril (PAN). Användandet av fossila råvaror och det höga priset på kolfiber förklarar den starka drivkraften att hitta billigare och förnyelsebara alternativ. Lignin och cellulosa är förnyelsebara makromolekyler som finns tillgängliga i stora kvantiteter. Det höga kolinnehållet i lignin gör det mycket attraktivt som råvara för kolfiberframställning, men dess heterogena struktur ger en kolfiber med otillräckliga mekaniska egenskaper. Däremot har cellulosa en molekylär orientering som är önskvärd vid framställning av kolfiber, men dess låga kolinehåll ger ett lågt processutbyte som i sin tur bidrar till höga produktionskostnader.             Det här arbetet visar att många av de problem som uppstår med kolfiber från respektive råvara kan kringgås genom att utgå från blandningar av desamma. Prekursorfibrer från blandningar av kraftlignin och kraftmassa från barrved tillverkade med luftgapsspinning konverterades till kolfiber. Utbytet för kolfibrerna som framställdes var mycket högre än vid framställning från endast cellulosa. Ofraktionerat barrvedslignin och kraftmassa av papperskvalitet presterade lika bra som de dyrare retentatligninen och dissolvingmassan, vilket är fördelaktigt ur ett ekonomiskt perspektiv.   Stabilisering är det mest tidskrävande processteget i kolfibertillverkning. I det här arbetet visades det att prekursorfibrerna kunde stabiliseras på kortare än två timmar, eller direktkarboniseras utan någon sammansmältning av fibrerna. Detta indikerar att en tidseffektiv produktion kan vara möjligt. Impregnering av prekursorfibrerna med ammoniumdivätefosfat ökade utbytet avsevärt, men med lägre mekaniska egenskaper som bieffekt.           Kolfibrernas mekaniska egenskaper ökade vid en diameterreduktion. En kort oxidativ stabilisering under två timmar i kombination med tunna prekursorfibrer gav kolfiber med en elasticitetsmodul på 76 GPa och dragstyrka på 1070 MPa. Att göra kolfiber från blandningar av lignin och cellulosa är ett lovande koncept om det höga utbytet (39%), den korta stabiliseringstiden samt de lovande mekaniska egenskaperna tas i beaktande.

QC 20190226

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4

Li, Yingjie. "Emulsion electrospinning of nanocrystalline cellulose reinforced nanocomposite fibres". Thesis, University of British Columbia, 2010. http://hdl.handle.net/2429/30474.

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Cellulose is the most abundant renewable and biodegradable natural polymer. Cellulose can release nanocrystalline cellulose (NCC). NCC is light-weight, biodegradable and strong. The strength of NCC is about 10 GPa, which is almost three times stronger than commercial high performance fibre such as Kevlar® and Spectra®. In order to realize the utmost translation of NCCs’ extraordinary properties to higher order structures, it is necessary to accomplish a well-controlled alignment and tailored distribution of NCCs within a matrix. However, it is challenging to achieve this goal since NCCs tend to agglomerate in matrix materials. To address this problem in the present study, NCC water- in-oil (W/O) emulsions were prepared, consisting of a drop phase of NCC aqueous suspension and a continuous phase of immiscible poly (lactic acid) (PLA) solution. NCC W/O PLA emulsions were electrospun into NCC reinforced nanocomposite fibres. The concept of emulsion electrospinning of NCCs is based on that (1) NCC can be stably and uniformly dispersed in the intermediate medium water; (2) NCC aqueous suspension can be dispersed in the form of droplets into the immiscible solutions of PLA solution system; and (3) the well dispersed NCC / PLA emulsion can be electrospun into fibres. In this work, to better control electrospinning of NCC/PLA emulsions, we started with electrospinning of W/O PLA emulsions consisting of a drop phase of distilled water and a continuous phase of hydrophobic PLA solution. This emulsion formulation for electrospinning was optimized using response surface methodology (RSM) to identify the optimal conditions for W/O PLA electrospinning. After optimizing the W/O PLA emulsion electrospinning process, the feasibility of the emulsion electrospinning of NCC W/O PLA was confirmed and the emulsion electrospun 5% NCC/ 8% PLA random fibre mats and aligned fibre yarns were collected. The distribution and alignment of NCCs in fibres were verified. The morphology, structure and properties of resultant fibres were characterized. The mechanism of the formation of fibre structure (core-shell and hollow) was also proposed and validated by the study of emulsion droplet size effect on fibre structure.
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5

Solberg, Daniel. "Adsorption kinetics of cationic polyacrylamides on cellulose fibres and its influence on fibre flocculation". Licentiate thesis, KTH, Fibre and Polymer Technology, 2003. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-1665.

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The adsorption of cationic polyacrylamide (C-PAM) and silicananoparticles onto a model surface of silicon oxide wascompared with the adsorption of C-PAM to fibres and theirinfluence on flocculation of a fibre suspension. An increase inionic strength affects the polyelectrolyte adsorption indifferent ways for these two systems. With the silica surface,an increase in the ionic strength leads to a continuousincrease in the adsorption. However, on a cellulose fibre, theadsorption increases at low ionic strength (1 to 10 mM NaCl)and then decreases at higher ionic strength (10 to 100 mMNaCl). It was shown that the adsorption of nanoparticles ontopolyelectrolyte-covered surfaces has a great effect on both theadsorbed amount and the thickness of the adsorbed layer. Theresults showed that electrostatic interactions were thedominating force for the interaction between both the fibresand the polyelectrolytes, and between the polyelectrolytes andthe silica particles. Furthermore, at higher NaClconcentrations, a significant non-ionic interaction between thesilicon oxide surface/particles and the C-PAM was observed.

The adsorption rate of C-PAM onto fibres was rapid andquantitative adsorption was detected in the time range between1 and 8 s at polyelectrolyte addition levels below 0.4 mg/g.Conversely, an increase in the amount of added polymer leads toan increased polymer adsorption up to a quasi-static saturationlevel. However, after a few seconds this quasi-staticsaturation level was significantly lower than the level reachedat electrostatic“equilibrium”. The adsorbed amountof charges at full surface coverage after 1 to 8 s contact timecorresponded to only 2 % of the total fibre charge, whereasafter 30 minutes it corresponded to 15 % of the total fibrecharge. This shows that a full surface coverage at shortcontact times is not controlled by surface charge. Based onthese results, it is suggested that a combination of anon-equilibrium charge barrier against adsorption and ageometric restriction can explain the difference between theadsorption during 1 to 8 s and the adsorption after 30 minutes.With increasing time, the cationic groups are neutralised bythe charges on the fibre as the polyelectrolyte reconforms to aflat conformation on the surface.

The addition of a high concentration of C-PAM to a fibresuspension resulted in dispersion rather than flocculation.This behaviour is most likely due to an electrostericstabilisation of the fibres when the polyelectrolyte isadsorbed. Flocculation of the fibre suspension occurred at lowadditions of C-PAM. A maximum in flocculation was found ataround 50 % surface coverage and dispersion occurred above 100% surface coverage. It was also shown that for a given level ofadsorbed polymer, a difference in adsorption time between 1 and2 seconds influenced the flocculation behaviour. An optimum inflocculation at 50 % surface coverage in combination with theimportance of polymer reconformation time at these shortcontact times showed that the C-PAM induced fibre flocculationagrees with La Mer and Healy’s description of bridgingflocculation.

A greater degree of flocculation was observed with theaddition of silica nanoparticles to the fibre suspension thanin the single polyelectrolyte system. Flocculation increased asa function of the concentration of added nanoparticles until0.5 mg/g. At higher additions the flocculation decreased againand this behaviour is in agreement with an extended model formicroparticle-induced flocculation. An increase in flocculationwas especially pronounced for the more extended silica-2particles. This effect is attributed to the more extendedpolyelectrolyte layer, since the adsorbed amount wasessentially the same for both silica particles.

Finally it was found that fines from the wood fibres had asignificant effect on the flocculation. When fines were added,a greater degree of flocculation was detected. Furthermore, itwas also more difficult to redisperse the fibres with polymerin the presence of fines.

Keywords:Adsorption, bridging, cationic polymers,cellulose fibres, electrosteric stabilisation flocculation,ionic strength, nanoparticle, polyelectrolyte, reconformation,retention aids and silica

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Ulfstad, Louise. "Rheological study of cellulose dissolved in aqueous ZnCl2 : Regenerated cellulosic fibres for textile applications". Thesis, Karlstads universitet, Fakulteten för hälsa, natur- och teknikvetenskap (from 2013), 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-28781.

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The most known regenerated cellulosic fiber is viscose, produced in a wet spinning process, but due to cost and environmental issues other processes have been developed. Lyocell fibers, produced in air-gap spinning, have superior dry and wet strenght and a lower environmental impact compared to viscose. Research in different cellulose solvent has increased significantly tha last decadess, due to an increased cotton price and a decreased paper production, providing more wood pulp to production of regenerated cellulosic fibers.   Inorganic molten salt hydrates have the ability of dissolving cellulose for production of textile fibers. Aqueous zinc chloride was investigated at Swerea IVF from dissolution of cellulose to fiber spinning.   Aqueous zinc chloride has a dissolving capacity of up to at least 13.5 % cellulose, possibly much higher. Dissolving concentration ZnCl2/water range from 65-76 % amd lowest possible ZnCl2 concentration increases as the cellulose concentration increases. Above around 68 % ZnCl2 results in a significantly increased viscosity due to a polymeric structure formed by zinc chloride, creating a network of cellulose-zinc complexes and causing a gel behaviour of the dope difficult to use in spinning processes. The dissolving capacity of 68 % ZnCl2 is only about 8 % cellulose, which is very low compared to other solvents used today e.g. Lyocell and ILs.   Additions of 0.3 % CaCl2 or 0.05-0.1 % NaOH is used to decrease degradation of cellulose. The addition causes ans increased viscosity, which is either a result of less degradation of the interaction of the added molecules to zinc-cellulose complexes. Addition of NaOH results in a temperature dependent geleation at increased temperatures (75˚C and 80˚C), which also might be an effect of the interaction.   Highest tensile strenght was reached for wet spun fibers coagulated in ethanol of 9.5 % cellulose with 0.1 % NaOH addition, with a tenacity of 13-15 cN/tex, elongation of 10-12 % and wet strenght 30 % of dry strenght. Beacuse of many disadvantages of zinc chloride as a solvent, e.g. degradation of cellulose, corrosivity and the viscosity and gel behaviour at cellulose concentrations of 9.5 % and 13.5 % cellulose, a future possibility of a conventional production of textile fibers appears to be quite limited.
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Qi, Haisong, Jianwen Liu, Yinhu Deng, Shanglin Gao y Edith Mäder. "Cellulose fibres with carbon nanotube networks for water sensing". Royal Society of Chemistry, 2014. https://tud.qucosa.de/id/qucosa%3A36157.

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Electroconductive cellulose-based fibres were fabricated by depositing multi-walled carbon nanotubes (MWNTs) on the surface using a simple and scalable dip coating. The morphology, mechanical properties and conductive properties of the resultant MWNT–cellulose fibres were investigated by scanning electron microscopy, tensile testing and electrical resistance measurement, respectively. The resistance (RL) of the single MWNT–cellulose fibre can be controlled in a wide range of 50–200 000 kΩ cmˉ¹ by varying the conditions of dip coating. The sensing behaviour of these fibres to liquid water was investigated in detail. The results showed that they exhibit rapid response, high sensitivity and good reproducibility to water, with a relative electrical resistance change of about 100–8000% depending on the initial resistance. It was proposed that the disconnection of MWNT networks caused by swelling effects of the cellulose fibres is the dominant mechanism. Moreover, the sensitivity of the MWNT–cellulose fibres to an electrolyte solution was also investigated.
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Gaffiot, Lauric. "Optimisation d’un procédé d’élaboration d’un composite à base de fibres naturelles". Thesis, Université Grenoble Alpes (ComUE), 2017. http://www.theses.fr/2017GREAI056.

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Les matériaux composites constituent aujourd’hui un domaine très dynamique tant au niveau de l’industrie que de la recherche. Dans ce cadre, les renforts d’origines naturelles représentent une alternative intéressante aux fibres synthétiques de par leurs propriétés mécaniques élevées, leur faible densité et leur caractère biosourcé, afin de répondre à l’accroissement des niveaux de performances ciblés ainsi qu’aux exigences économiques et écologiques actuelles.Ces travaux s’inscrivent dans un projet regroupant laboratoires de recherche, fournisseurs et end-users, visant à développer un matériau composite unidirectionnel structural à base de fibre de lin pour une application sport et loisirs. Ainsi, les objectifs initiaux incluent le développement de différents traitements chimiques des fibres, afin de les laver, d’homogénéiser leurs propriétés mécaniques et d’améliorer l’adhésion fibre-matrice. Une stratégie originale a pour cela été élaborée, basée sur la réactivité et les propriétés physico-chimiques d’un agent de couplage biosourcé. Ce produit a montré un potentiel prometteur d’additif de renforcement des matériaux cellulosiques, notamment à l’état humide. De plus, sa réactivité avec des molécules compatibilisantes a permis de le fonctionnaliser pour promouvoir l’adhésion fibre-matrice.Les caractérisations menées aux différentes échelles de la fibre de lin ont ensuite montré la pertinence de ces traitements, qui renforcent les interfaces fibre-matrice et les fibres techniques à l’état humide. Les études mécaniques ont cependant soulevé de nombreuses problématiques expérimentales, et ont démontré que les spécificités morphologiques de ces objets et leur caractère naturel ne permettaient pas l’exploitation directe des mesures dans le cadre d’un tel projet de développement. Les axes de recherche se sont alors avant tout focalisés sur l’étude des matériaux composites. Ainsi, plusieurs verrous structuraux ont pu être identifiés. La qualité de l’imprégnation de ces renforts naturels, qui peut être influencée par la formulation des traitements et la mise en œuvre, est déterminante dans le développement du matériau à cause de la morphologie multi-échelles des fibres. L’orientation des fibres au sein des plis unidirectionnels s’est également avéré être un paramètre prépondérant, étroitement lié à l’architecture des renforts et aux procédés de traitements industriels.Les développements menés à la fois sur les traitements et sur la structure des composites ont ainsi permis de doubler les propriétés mécaniques des systèmes initiaux pour atteindre un module de rigidité de 30 GPa et une contrainte ultime d’environ 370 MPa en traction tout en limitant grandement la perte de résistance après vieillissement dans l’eau et en garantissant une déformation en flexion répondant au cahier des charges. Les évolutions réalisées ne permettent pas pour le moment d’envisager l’industrialisation de ce matériau, mais vont permettre le prototypage de produits finis
Nowadays, composite materials are a challenging and dynamic thematic for both industry and academic research. In this context, natural fibres are an interesting alternative to synthetic fibres thanks to their high mechanical properties, low density and biosourced origins in order to meet the requirements in terms of performance, costs and durability.This work take part into an industrial project that include research laboratories, suppliers and end-users. It aims at developing a unidirectional flax fibre composite material for sport and recreation application. The initial objectives of development focused on the surface optimization and the reinforcement, and the improvement of fibre-matrix adhesion. An original strategy has been set, based on the reactivity and the physico-chemical properties of métapériodate oxidized xyloglucan. This molecule has shown a promising effect of reinforcement on cellulosic materials, particularly in wet conditions. Besides, its reactivity with compatibilization agents allows different functionalization possibilities to increase fibre-matrix adhesion, encouraging its use as a coupling agent.The characterizations led on the different scales of flax fibre validated this strategy, as micro-mechanical tests showed adhesion improvement and mechanical properties of wet fibres had significantly increased. However, further mechanical investigations rose numerous experimental issues, and demonstrated that the specific morphology of these objects as well as their natural origins were major obstacles to measures exploitation in this kind of development project. So, the main research axis then focused on directly composite materials.Different structural problematics has been thus identified. Natural fibre impregnation, which can be influenced by treatments composition and elaboration process, has revealed itself has an important parameter linked to the multi-scale organization of flax. The fibre orientation in the unidirectional ply has been also identified as a key parameter that is affected by reinforcement architecture and industrial process of treatment.Those developments on treatments and composite structure led to a great increase of the material tensile properties to reach 30 GPa modulus and 370 MPa in strength, also improving its water ageing behaviour and its flexion ultimate strain. These promising enhancements are not sufficient in terms of overall mechanical performance and elaboration process to envisage an industrialization phase, but the prototyping of finished products will be realized
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Devallencourt, Leriche Christine. "Caractérisation physico-chimiques de celluloses recyclées, de résines mélamine formaldéhyde et de composites résine/cellulose". Rouen, 1997. http://www.theses.fr/1997ROUES055.

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Lorsqu’une résine mélamine formaldéhyde est introduite dans un substrat cellulosique, un matériau composite est obtenu. Dans ce travail, nous montrons que les propriétés mécaniques et le comportement à l'humidité de ce composite dépendent du taux de dilution, du PH de la solution de résine et de la température de traitement utilisée. Les méthodes expérimentales utilisées sont l'analyse thermogravimétrique (ATG), l'analyse thermogravimétrique couplée IRFT, la RMN du 13C, l'analyse mécanique dynamique et l'analyse enthalpique différentielle (AED). A l'aide de l'analyse ATG utilisée en mode isotherme, nous avons montré que les cinétiques de dégradation des celluloses recyclées sont d'ordre 1. Ce résultat nous a autorisés à utiliser le modèle cinétique de Broido (mode dynamique) et ainsi à trouver une méthode qui permet la quantification des constituants des celluloses de récupération en particulier les quantités relatives en pâte mécanique et chimique. A l'aide de l'ATG couplée IRFT, l'ATG en mode isotherme et en mode dynamique et l'AED, nous avons montré que les réactions d'auto condensation de la résine sont accélérées en PH acide lorsque cette résine est introduite dans la matrice cellulosique. Les mesures viscoélastiques montrent que des réactions de co-condensation peuvent avoir lieu pour des recuits à haute température lorsque le PH est neutre ou basique, tandis que pour les systèmes à PH acide les réactions d'auto condensation restent majoritaires. Enfin, l'étude en absorption d'eau sur les composites résine/cellulose recyclée (PH=7) montre un double mode d'absorption, du type Langmuir et Flory Huggins, dépendant du taux d'humidité relative. En présence de la résine mélamine formaldéhyde le comportement à l'humidité du composite se rapproche de celui d'un polymère dense.
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Doineau, Estelle. "Modification de fibres de lin par des nanocristaux de cellulose et du xyloglucane pour le développement de composites biosourcés hiérarchiques Adsorption of xyloglucan and cellulose nanocrystals on natural fibres for the creation of hierarchically structured fibres Hierarchical thermoplastic biocomposites reinforced with flax fibres modified by xyloglucan and cellulose nanocrystals Development of Bio-Inspired Hierarchical Fibres to Tailor the Fibre/Matrix Interphase in (Bio)composites". Thesis, IMT Mines Alès, 2020. http://www.theses.fr/2020EMAL0007.

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Ce travail de thèse vise à développer un traitement de surface de fibres de lin pour l’amélioration des propriétés mécaniques de biocomposites à matrice polymère et renforts en lin. Cette modification de surface s’inspire des structures hiérarchiques présentes dans les systèmes biologiques (os, nacre ou bois), constitués de nano-objets permettant un meilleur transfert de charges dans ces matériaux. Cette présence d’objets de dimensions nanométriques permet notamment d’atteindre des valeurs de contrainte et ténacité élevées et de limiter la propagation de fissures. Dans ces travaux de recherche, des produits dérivés de la biomasse ligno-cellulosique, à savoir les nanocristaux de cellulose (CNC) et le xyloglucane (XG), ont été choisis pour leurs propriétés et leur affinité mutuelle afin de créer des fibres de lin hiérarchiques. Dans un premier temps, l’adsorption de XG et CNC sur les fibres de lin a pu être localisée et quantifiée grâce à des marqueurs fluorescents. De plus, des mesures de force d’adhésion en microscopie à force atomique ont révélé la création d’un réseau extensible XG/CNC sur la surface de la fibre. Par la suite, deux voies ont été proposées avec l’élaboration de biocomposites thermoplastiques (polypropylène/fibres de lin) et thermodurcissables (résine époxy/tissu de lin) utilisant ces fibres nanostructurées. Dans les deux cas, une augmentation du travail à la rupture a été mesurée en micro-tractions et/ou tractions uniaxiales, permettant une plus grande dissipation de l’énergie lors de la rupture. L’ensemble de ces travaux a permis d’évaluer le potentiel de différents renforts en lin hiérarchiques(tissu unidirectionnel ou fibres courtes)pour le développement de biocomposites structuraux avec un focus fait sur la zone d’interphase fibre / matrice
This thesis project aims at developing flax fibres surface treatment for the improvement of the mechanical properties of biocomposites with polymeric matrix and flax reinforcements. This surface modification is inspired by the hierarchical structures present in biological systems (bone, nacre or wood), composed of nano-objects which allow a better transfer of loads in these materials. This presence of nano-sized objects makes it possible to reach impressive strength and toughness values and to limit cracks propagation. In this project, products derived from lingo-cellulosic biomass, namely cellulose nanocrystals (CNC) and xyloglucan (XG), were chosen for their interesting properties and mutual affinity to create hierarchical flax fibres. In a first step, the adsorption of XG and CNC onflax fibres w as localized and quantified using fluorescent markers. In addition, atomic force microscopy measurements of adhesive force revealed the creation of an extensible XG/CNC netw ork on the fibre surface. Subsequently, two paths were proposed with the elaboration of thermoplastic (polypropylene/flax fibres) and thermoset (epoxy resin/flax fabric) biocomposites using these nanostructured fibres. In both cases, an increase of the work of rupture has been measured by micro-and/or uniaxial tensile tests, allowing dissipating more energy upon breakage. All this work has allowed evaluating the potential of different hierarchical natural reinforcements (unidirectional fabric or short flax fibers) for the development of structural biocomposites with a focus on the fiber/matrix interphase zone
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Libros sobre el tema "Cellulose fibres"

1

Calvin, Woodings y Textile Institute (Manchester England), eds. Regenerated cellulose fibres. Boca Raton, FL: CRC Press, 2001.

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Sfiligoj Smole, Majda, Silvo Hribernik, Manja Kurečič, Andreja Urbanek Krajnc, Tatjana Kreže y Karin Stana Kleinschek. Surface Properties of Non-conventional Cellulose Fibres. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-10407-8.

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Cellulosic materials: Fibers, networks, and composites. Boston, Mass: Kluwer Academic Publishers, 2002.

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Peltonen, Petri. Asphalt mixtures modified with tall oil pitches and cellulose fibres. Espoo, Finland: VTT, Technical Research Centre of Finland, 1992.

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S, Kaith B., Kaur Inderjeet y SpringerLink (Online service), eds. Cellulose Fibers: Bio- and Nano-Polymer Composites: Green Chemistry and Technology. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2011.

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Vares, Sirje. Cellulose fibre concrete. Espoo, Finland: Technical Research Centre of Finland, 1997.

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Simončič, Barbara. Biodegradation of cellulose fibers. New York: Nova Science Publishers, 2010.

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Barbara, Simončič, ed. Biodegradation of cellulose fibers. Hauppauge, N.Y: Nova Science Publishers, 2009.

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Arnaud, Lejeune y Deprez Thibaut, eds. Cellulose: Structure and properties, derivatives and industrial uses. Hauppauge, N.Y: Nova Science Publishers, 2009.

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Suleman, A. U. M. AFM studies of cellulosic fibres. Manchester: UMIST, 1996.

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Capítulos de libros sobre el tema "Cellulose fibres"

1

Prado, Karen S., Asaph A. Jacinto y Márcia A. S. Spinacé. "Cellulose Nanostructures Extracted from Pineapple Fibres". En Pineapple Leaf Fibers, 185–234. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-1416-6_10.

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Thomas, S., S. A. Paul, L. A. Pothan y B. Deepa. "Natural Fibres: Structure, Properties and Applications". En Cellulose Fibers: Bio- and Nano-Polymer Composites, 3–42. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-17370-7_1.

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Adusumalli, Ramesh Babu, Karthik Chethan Venkateshan y Wolfgang Gindl-Altmutter. "Micromechanics of Cellulose Fibres and Their Composites". En Wood is Good, 299–321. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3115-1_28.

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Northolt, M. G. "The Similarity Between Cellulose and Aramid Fibres". En Integration of Fundamental Polymer Science and Technology, 567–72. Dordrecht: Springer Netherlands, 1986. http://dx.doi.org/10.1007/978-94-009-4185-4_70.

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Sfiligoj Smole, Majda, Silvo Hribernik, Manja Kurečič, Andreja Urbanek Krajnc, Tatjana Kreže y Karin Stana Kleinschek. "Structure and Properties of Non-conventional Cellulose Fibres". En SpringerBriefs in Molecular Science, 49–59. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-10407-8_4.

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Wendler, Frank, Thomas Schulze, Danuta Ciechanska, Ewa Wesolowska, Dariusz Wawro, Frank Meister, Tatiana Budtova y Falk Liebner. "Cellulose Products from Solutions: Film, Fibres and Aerogels". En The European Polysaccharide Network of Excellence (EPNOE), 153–85. Vienna: Springer Vienna, 2012. http://dx.doi.org/10.1007/978-3-7091-0421-7_6.

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Srinivasababu, Nadendla y Kopparthi Phaneendra Kumar. "Synthesis of Nanocellulose Fibrils/Particles from Cellulose Fibres Through Sporadic Homogenization". En Lecture Notes in Mechanical Engineering, 893–902. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5463-6_79.

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Ramesh, M. y C. Deepa. "Properties of Cellulose Based Bio-fibres Reinforced Polymer Composites". En Biofibers and Biopolymers for Biocomposites, 71–89. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-40301-0_3.

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Lee, Y. A. "Case Study of Renewable Bacteria Cellulose Fiber and Biopolymer Composites in Sustainable Design Practices". En Sustainable Fibres for Fashion Industry, 141–62. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-0522-0_6.

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Lee, Koon-Yang, Anne Delille y Alexander Bismarck. "Greener Surface Treatments of Natural Fibres for the Production of Renewable Composite Materials". En Cellulose Fibers: Bio- and Nano-Polymer Composites, 155–78. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-17370-7_6.

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Actas de conferencias sobre el tema "Cellulose fibres"

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Hospodarova, Viola, Nadezda Stevulova, Vojtech Vaclavik, Tomas Dvorsky y Jaroslav Briancin. "Cellulose Fibres as a Reinforcing Element in Building Materials". En Environmental Engineering. VGTU Technika, 2017. http://dx.doi.org/10.3846/enviro.2017.104.

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Nowadays, construction sector is focusing in developing sustainable, green and eco-friendly building materials. Natural fibre is growingly being used in composite materials. This paper provides utilization of cellulose fibres as reinforcing agent into cement composites/plasters. Provided cellulosic fibres coming from various sources as bleached wood pulp and recycled waste paper fibres. Differences between cellulosic fibres are given by their physical characterization, chemical composition and SEM micrographs. Physical and mechanical properties of fibre-cement composites with fibre contents 0.2; 0.3and 0.5% by weight of filler and binder were investigated. Reference sample without fibres was also produced. The aim of this work is to investigate the effects of cellulose fibres on the final properties (density, water absorbability, coefficient of thermal conductivity and compressive strength) of the fibrecement plasters after 28 days of hardening. Testing of plasters with varying amount of cellulose fibres (0.2, 0.3 and 0.5 wt. %) has shown that the resulting physical and mechanical properties depend on the amount, the nature and structure of the used fibres. Linear dependences of compressive strength and thermal conductivity on density for plasters with cellulosic fibres adding were observed.
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Stevulova, Nadezda y Viola Hospodarova. "Cellulose Fibres Used in Building Materials". En Advanced HVAC and Natural Gas Technologies. Riga: Riga Technical University, 2015. http://dx.doi.org/10.7250/rehvaconf.2015.031.

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Missaoui, Mohamed, Evelyne Mauret, Mohamed Naceur Belgacem, Alberto D’Amore, Domenico Acierno y Luigi Grassia. "RETENTION OF CATIONIC STARCH ONTO CELLULOSE FIBRES". En IV INTERNATIONAL CONFERENCE TIMES OF POLYMERS (TOP) AND COMPOSITES. AIP, 2008. http://dx.doi.org/10.1063/1.2989078.

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Axelsson, Maria. "3D Tracking of Cellulose Fibres in Volume Images". En 2007 IEEE International Conference on Image Processing. IEEE, 2007. http://dx.doi.org/10.1109/icip.2007.4380016.

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Milestone, N. B. "Interactions of cellulose fibres in an autoclaved cement matrix". En International RILEM Symposium on Concrete Science and Engineering: A Tribute to Arnon Bentur. RILEM Publications SARL, 2004. http://dx.doi.org/10.1617/2912143586.014.

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Wang, Z., H. Xiao y M. Sain. "Poly (butyl acrylate)-Modified Cellulose Fibres for Toughening WPC". En SAE World Congress & Exhibition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2007. http://dx.doi.org/10.4271/2007-01-0574.

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Gaiolas, Carla, Maria Emilia Amaral, Ana Paula Costa, Manuel José Santos Silva y Mohamed Naceur Belgacem. "Cold-plasma assisted grafting of cellulose fibres by acrylic monomers". En 6TH INTERNATIONAL CONFERENCE ON TIMES OF POLYMERS (TOP) AND COMPOSITES. AIP, 2012. http://dx.doi.org/10.1063/1.4738475.

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Ciambella, Jacopo y David C. Stanier. "Orientation Effects in Short Fibre-Reinforced Elastomers". En ASME 2014 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/imece2014-40430.

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The large strain behaviour of a short fibre-reinforced composite is studied through numerical simulations. The reinforcing fibres yield the macroscopic response transversely isotropic which is indeed the case of many reinforcements currently used in composites: short carbon fibres, cellulose whiskers, carbon nanotubes. As a result of the analysis, it is shown that the reorientation of the fibres that takes place at large strain has a significant effect on the overall material response by changing the axis of isotropy. This behaviour can be adequately described by using a transversely isotropic model whose strain energy function depends on three invariants: two isotropic and one representing the stretch along the direction of the fibres. To assess its capabilities, the model is compared to the results of experiments carried out by the authors on nickel-coated chopped carbon fibres in a vulcanised natural rubber matrix for which the fibre orientation is achieved by controlling an external magnetic field prior to curing. Possible applications include micro-sized propulsion devices and actuators.
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Saavedra Flores, Erick I., Senthil Murugan, Michael I. Friswell y Eduardo A. de Souza Neto. "Fully Coupled Three-Scale Finite Element Model for the Mechanical Response of a New Bio-Inspired Composite". En ASME 2011 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. ASMEDC, 2011. http://dx.doi.org/10.1115/smasis2011-4946.

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This paper proposes a fully coupled three-scale finite element model for the mechanical description of an alumina/magnesium alloy/epoxy composite inspired in the mechanics and architecture of wood cellulose fibres. The constitutive response of the composite (the large scale continuum) is described by means of a representative volume element (RVE, corresponding to the intermediate scale) in which the fibre is represented as a periodic alternation of alumina and magnesium alloy fractions. Furthermore, at a lower scale the overall constitutive behavior of the alumina/magnesium alloy fibre is modelled as a single material defined by a large number of RVEs (the smallest material scale) at the Gauss point (intermediate) level. Numerical material tests show that the choice of the volume fraction of alumina based on those volume fractions of crystalline cellulose found in wood cells results in a maximisation of toughness in the present bio-inspired composite.
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Gaiolas, C., A. P. Costa, M. J. Santos Silva y M. N. Belgacem. "Cold-plasma assisted hydrophobisation of cellulose fibres with styrene and para-halogenated homologues". En 6TH INTERNATIONAL CONFERENCE ON TIMES OF POLYMERS (TOP) AND COMPOSITES. AIP, 2012. http://dx.doi.org/10.1063/1.4738471.

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Informes sobre el tema "Cellulose fibres"

1

Granot, David, Scott Holaday y Randy D. Allen. Enhancing Cotton Fiber Elongation and Cellulose Synthesis by Manipulating Fructokinase Activity. United States Department of Agriculture, 2008. http://dx.doi.org/10.32747/2008.7613878.bard.

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a. Objectives (a) Identification and characterization of the cotton fiber FRKs; (b) Generating transgenic cotton plants overproducing either substrate inhibited tomato FRK or tomato FRK without substrate inhibition; (c) Generating transgenic cotton plants with RNAi suppression of fiber expressed FRKs; (d) Generating Arabidopsis plants that over express FRK1, FRK2, or both genes, as additional means to assess the contribution of FRK to cellulose synthesis and biomass production. b. Background to the topic: Cellulose synthesis and fiber elongation are dependent on sugar metabolism. Previous results suggested that FRKs (fructokinase enzymes that specifically phosphorylate fructose) are major players in sugar metabolism and cellulose synthesis. We therefore hypothesized that increasing fructose phosphorylation may enhance fiber elongation and cellulose synthesis in cotton plants. Accordinlgy, the objectives of this research were: c. Major conclusions and achievements: Two cotton FRKs expressed in fibers, GhFRK2 and GhFRK3, were cloned and characterized. We found that GhFRK2 enzyme is located in the cytosol and GhFRK3 is located within plastids. Both enzymes enable growth on fructose (but not on glucose) of hexose kinase deficient yeast strain, confirming the fructokinase activity of the cloned genes. RNAi constructs with each gene were prepared and sent to the US collaborator to generate cotton plants with RNAi suppression of these genes. To examine the effect of FRKs using Arabidopsis plants we generated transgenic plants expressing either LeFRK1 or LeFRK2 at high level. No visible phenotype has been observed. Yet, plants expressing both genes simultaneously are being created and will be tested. To test our hypothesis that increasing fructose phosphorylation may enhance fiber cellulose synthesis, we generated twenty independent transgenic cotton plant lines overexpressing Lycopersicon (Le) FRK1. Transgene expression was high in leaves and moderate in developing fiber, but enhanced FRK activity in fibers was inconsistent between experiments. Some lines exhibited a 9-11% enhancement of fiber length or strength, but only one line tested had consistent improvement in fiber strength that correlated with elevated FRK activity in the fibers. However, in one experiment, seed cotton mass was improved in all transgenic lines and correlated with enhanced FRK activity in fibers. When greenhouse plants were subjected to severe drought during flowering and boll development, no genotypic differences in fiber quality were noted. Seed cotton mass was improved for two transgenic lines but did not correlate with fiber FRK activity. We conclude that LeFRK1 over-expression in fibers has only a small effect on fiber quality, and any positive effects depend on optimum conditions. The improvement in productivity for greenhouse plants may have been due to better structural development of the water-conducting tissue (xylem) of the stem, since stem diameters were larger for some lines and the activity of FRK in the outer xylem greater than observed for wild-type plants. We are testing this idea and developing other transgenic cotton plants to understand the roles of FRK in fiber and xylem development. We see the potential to develop a cotton plant with improved stem strength and productivity under drought for windy, semi-arid regions where cotton is grown. d. Implications, scientific and agricultural: FRKs are probably bottle neck enzymes for biomass and wood synthesis and their increased expression has the potential to enhance wood and biomass production, not only in cotton plants but also in other feed and energy renewable plants.
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Morrison, Mark y Joshuah Miron. Molecular-Based Analysis of Cellulose Binding Proteins Involved with Adherence to Cellulose by Ruminococcus albus. United States Department of Agriculture, noviembre de 2000. http://dx.doi.org/10.32747/2000.7695844.bard.

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At the beginning of this project, it was clear that R. albus adhered tightly to cellulose and its efficient degradation of this polysaccharide was dependent on micromolar concentrations of phenylacetic acid (PAA) and phenylpropionic acid (PPA). The objectives for our research were: i) to identify how many different kinds of cellulose binding proteins are produced by Ruminococcus albus; ii) to isolate and clone the genes encoding some of these proteins from the same bacterium; iii) to determine where these various proteins were located and; iv) quantify the relative importance of these proteins in affecting the rate and extent to which the bacterium becomes attached to cellulose. BARD support has facilitated a number of breakthroughs relevant to our fundamental understanding of the adhesion process. First, R. albus possesses multiple mechanisms for adhesion to cellulose. The P.I.'s laboratory has discovered a novel cellulose-binding protein (CbpC) that belongs to the Pil-protein family, and in particular, the type 4 fimbrial proteins. We have also obtained genetic and biochemical evidence demonstrating that, in addition to CbpC-mediated adhesion, R. albus also produces a cellulosome-like complex for adhesion. These breakthroughs resulted from the isolation (in Israel and the US) of spontaneously arising mutants of R. albus strains SY3 and 8, which were completely or partially defective in adhesion to cellulose, respectively. While the SY3 mutant strain was incapable of growth with cellulose as the sole carbon source, the strain 8 mutants showed varying abilities to degrade and grow with cellulose. Biochemical and gene cloning experiments have been used in Israel and the US, respectively, to identify what are believed to be key components of a cellulosome. This combination of cellulose adhesion mechanisms has not been identified previously in any bacterium. Second, differential display, reverse transcription polymerase chain reaction (DD RT-PCR) has been developed for use with R. albus. A major limitation to cellulose research has been the intractability of cellulolytic bacteria to genetic manipulation by techniques such as transposon mutagenesis and gene displacement. The P.I.'s successfully developed DD RT- PCR, which expanded the scope of our research beyond the original objectives of the project, and a subset of the transcripts conditionally expressed in response to PAA and PPA have been identified and characterized. Third, proteins immunochemically related to the CbpC protein of R. albus 8 are present in other R. albus strains and F. intestinalis, Western immunoblots have been used to examine additional strains of R. albus, as well as other cellulolytic bacteria of ruminant origin, for production of proteins immunochemically related to the CbpC protein. The results of these experiments showed that R. albus strains SY3, 7 and B199 all possess a protein of ~25 kDa which cross-reacts with polyclonal anti-CbpC antiserum. Several strains of Butyrivibrio fibrisolvens, Ruminococcus flavefaciens strains C- 94 and FD-1, and Fibrobacter succinogenes S85 produced no proteins that cross-react with the same antiserum. Surprisingly though, F. intestinalis strain DR7 does possess a protein(s) of relatively large molecular mass (~200 kDa) that was strongly cross-reactive with the anti- CbpC antiserum. Scientifically, our studies have helped expand the scope of our fundamental understanding of adhesion mechanisms in cellulose-degrading bacteria, and validated the use of RNA-based techniques to examine physiological responses in bacteria that are nor amenable to genetic manipulations. Because efficient fiber hydrolysis by many anaerobic bacteria requires both tight adhesion to substrate and a stable cellulosome, we believe our findings are also the first step in providing the resources needed to achieve our long-term goal of increasing fiber digestibility in animals.
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Morrison, Mark, Joshuah Miron, Edward A. Bayer y Raphael Lamed. Molecular Analysis of Cellulosome Organization in Ruminococcus Albus and Fibrobacter Intestinalis for Optimization of Fiber Digestibility in Ruminants. United States Department of Agriculture, marzo de 2004. http://dx.doi.org/10.32747/2004.7586475.bard.

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Improving plant cell wall (fiber) degradation remains one of the highest priority research goals for all ruminant enterprises dependent on forages, hay, silage, or other fibrous byproducts as energy sources, because it governs the provision of energy-yielding nutrients to the host animal. Although the predominant species of microbes responsible for ruminal fiber degradation are culturable, the enzymology and genetics underpinning the process are poorly defined. In that context, there were two broad objectives for this proposal. The first objective was to identify the key cellulosomal components in Ruminococcus albus and to characterize their structural features as well as regulation of their expression, in response to polysaccharides and (or) P AA/PPA. The second objective was to evaluate the similarities in the structure and architecture of cellulosomal components between R. albus and other ruminal and non-ruminal cellulolytic bacteria. The cooperation among the investigators resulted in the identification of two glycoside hydrolases rate-limiting to cellulose degradation by Ruminococcus albus (Cel48A and CeI9B) and our demonstration that these enzymes possess a novel modular architecture specific to this bacterium (Devillard et al. 2004). We have now shown that the novel X-domains in Cel48A and Cel9B represent a new type of carbohydrate binding module, and the enzymes are not part of a ceiluiosome-like complex (CBM37, Xu et al. 2004). Both Cel48A and Cel9B are conditionally expressed in response to P AA/PPA, explaining why cellulose degradation in this bacterium is affected by the availability of these compounds, but additional studies have shown for the first time that neither PAA nor PPA influence xylan degradation by R. albus (Reveneau et al. 2003). Additionally, the R. albus genome sequencing project, led by the PI. Morrison, has supported our identification of many dockerin containing proteins. However, the identification of gene(s) encoding a scaffoldin has been more elusive, and recombinant proteins encoding candidate cohesin modules are now being used in Israel to verify the existence of dockerin-cohesin interactions and cellulosome production by R. albus. The Israeli partners have also conducted virtually all of the studies specific to the second Objective of the proposal. Comparative blotting studies have been conducted using specific antibodies prepare against purified recombinant cohesins and X-domains, derived from cellulosomal scaffoldins of R. flavefaciens 17, a Clostridium thermocellum mutant-preabsorbed antibody preparation, or against CbpC (fimbrial protein) of R. albus 8. The data also suggest that additional cellulolytic bacteria including Fibrobacter succinogenes S85, F. intestinalis DR7 and Butyrivibrio fibrisolvens Dl may also employ cellulosomal modules similar to those of R. flavefaciens 17. Collectively, our work during the grant period has shown that R. albus and other ruminal bacteria employ several novel mechanisms for their adhesion to plant surfaces, and produce both cellulosomal and non-cellulosomal forms of glycoside hydrolases underpinning plant fiber degradation. These improvements in our mechanistic understanding of bacterial adhesion and enzyme regulation now offers the potential to: i) optimize ruminal and hindgut conditions by dietary additives to maximize fiber degradation (e.g. by the addition of select enzymes or PAA/PPA); ii) identify plant-borne influences on adhesion and fiber-degradation, which might be overcome (or improved) by conventional breeding or transgenic plant technologies and; iii) engineer or select microbes with improved adhesion capabilities, cellulosome assembly and fiber degradation. The potential benefits associated with this research proposal are likely to be realized in the medium term (5-10 years).
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O'Neill, Hugh, Barbara Evans, Gary A. Baker y Roberto Benson. Directed Biosynthesis of Oriented Crystalline Cellulose for Advanced Composite Fibers. Fort Belvoir, VA: Defense Technical Information Center, mayo de 2012. http://dx.doi.org/10.21236/ada572961.

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Delmer, Deborah P. y Prem S. Chourey. The Importance of the Enzyme Sucrose Synthase for Cell Wall Synthesis in Plants. United States Department of Agriculture, octubre de 1994. http://dx.doi.org/10.32747/1994.7568771.bard.

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The goal of this work was to understand the role of the enzyme sucrose synthase (SuSy) in synthesis of cellulose and callose in plants. The work resulting from the this grant leads to a number of conclusions. SuSy clearly plays diverse roles in carbon metabolism. It can associate with the plasma membrane of cells undergoing rapid cellulose deposition, such as cotton fibers, developing maize endosperm, gravistimulated pulvini, and transfer cells of the cotton seed. It is also concentrated at sites of high callose deposition (tapetal cells; cell plates). When SuSy levels are lowered by mutation or by anti-sense technology, cell walls undergo degeneration (maize endosperm) and show reduced levels of cellulose (potato tubers). In sum, our evidence has very much strengthened the concept that SuSy does function in the plasma membrane to channel carbon from sucrose via UDP-glucose to glucan synthase complexes. Soluble SuSy also clearly plays a role in providing carbon for starch synthesis and respiration. Surprisingly, we found that the cotton seed is one unique case where SuSy apparently does not play a role in starch synthesis. Current evidence in sum suggests that no specific SuSy gene encodes the membrane-associated form, although in maize the SS 1 form of SuSy may be most important for cell wall synthesis in the early stages of endosperm development. Work is still in progress to determine what does control membrane localization - and the current evidence we have favors a role for Ca2+, and possibly also protein phosphorylation by differentially regulated protein kinases. Finally, we have discovered for the first time, a major new family of genes that encode the catalytic subunit of the cellulose synthase of plants - a result that has been widely cited and opens many new approaches for the study of this important plant function.
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Delmer, Deborah P., Douglas Johnson y Alex Levine. The Role of Small Signal Transducing Gtpases in the Regulation of Cell Wall Deposition Patterns in Plants. United States Department of Agriculture, agosto de 1995. http://dx.doi.org/10.32747/1995.7570571.bard.

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The combined research of the groups of Delmer, Levine and Johnson has led to a number of interesting findings with respect to the function of the small GTPase Rac in plants and also opened up new leads for future research. The results have shown: 1) The Rac13 protein undergoes geranylgeranlyation and is also translocated to the plasma membrane as found for Rac in mammals; 2) When cotton Rac13 is highly- expressed in yeast, it leads to an aberrant phenotype reminiscent of mutants impaired in actin function, supporting a role for Rac13 in cytoskeletal organization; 3) From our searches, there is no strong evidence that plants contain homologs of the related CDC42 genes found in yeast and mammals; 4) We have identified a rather unique Rac gene in Arabidopsis that has unusual extensions at both the N- and C-terminal portions of the protein; 5) New evidence was obtained that an oxidative burst characterized by substantial and sustained production of H202 occurs coincident with the onset of secondary wall synthesis in cotton fibers. Further work indicates that the H202 produced may be a signal for the onset of this phase of development and also strongly suggests that Rac plays an important role in signaling for event. Since the secondary walls of plants that contain high levels of lignin and cellulose are the major source of biomass on earth, understanding what signals control this process may well in the future have important implications for manipulating the timing and extent of secondary wall deposition. 6) When the cotton Rac13 promoter is fused to the reporter gene GUS, expression patterns in Arabidopsis indicate very strong and specific expression in developing trichomes and in developing xyelm. Since both of these cell types are engaged in secondary wall synthesis, this further supports a role for Rac in signaling for onset of this process. Since cotton fibers are anatomically defined as trichomes, these data may also be quite useful for future studies in which the trichomes of Arabidopsis may serve as a model for cotton fiber development; the Rac promoter can therefore be useful to drive expression of other genes proposed to affect fiber development and study the effects on the process; 7) The Rac promoter has also been shown to be the best so far tested for use in development of a system for transient transformation of developing cotton fibers, a technique that should have many applications in the field of cotton biotechnology; 8) One candidate protein that may interact with Rac13 to be characterized further in the future is a protein kinase that may be analogous to the PAK kinase that is known to interact with Rac in mammals.
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Winterhalter, C. Experimental Battledress Uniform Fabrics Made from Amine Oxide Solvent Spun Cellulosic Fibers. Fort Belvoir, VA: Defense Technical Information Center, febrero de 2002. http://dx.doi.org/10.21236/ada400546.

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Kosny, Jan, David W. Yarbrough, William A. Miller, Thomas Petrie, Phillip W. Childs y Azam M. Syed. 2006/07 Field Testing of Cellulose Fiber Insulation Enhanced with Phase Change Material. Office of Scientific and Technical Information (OSTI), diciembre de 2008. http://dx.doi.org/10.2172/983811.

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Mizell, Steve A. y Craig A. Shadel. Radiological results for samples collected on paired glass- and cellulose-fiber filters at the Sandia complex, Tonopah Test Range, Nevada. Office of Scientific and Technical Information (OSTI), marzo de 2016. http://dx.doi.org/10.2172/1242391.

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Lundy, Erika L., Daniel D. Loy y Stephanie L. Hansen. Influence of Distillers Grains from a Cellulosic Ethanol Process Utilizing Corn Kernel Fiber on Nutrient Digestibility of Lambs and Steer Feedlot Performance. Ames (Iowa): Iowa State University, enero de 2015. http://dx.doi.org/10.31274/ans_air-180814-1273.

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