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Littérature scientifique sur le sujet « Flax »

Auteur : Grafiati
Publié le 4 juin 2021
Mis à jour le 29 juillet 2024

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Articles de revues sur le sujet "Flax"

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Scharf, Birgit, Henriette Schuster-Wolff-Bühring, Reinhard Rachel et Rüdiger Schmitt. « Mutational Analysis of the Rhizobium lupini H13-3 andSinorhizobium meliloti Flagellin Genes : Importance of Flagellin A for Flagellar Filament Structure and Transcriptional Regulation ». Journal of Bacteriology 183, no 18 (15 septembre 2001) : 5334–42. http://dx.doi.org/10.1128/jb.183.18.5334-5342.2001.

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ABSTRACT Complex flagellar filaments are unusual in their fine structure composed of flagellin dimers, in their right-handed helicity, and in their rigidity, which prevents a switch of handedness. The complex filaments of Rhizobium lupini H13-3 and those of Sinorhizobium meliloti are composed of three and four flagellin (Fla) subunits, respectively. The Fla-encoding genes, named flaA through flaD, are separately transcribed from ς28-specific promoters. Mutational analysis of the fla genes revealed that, in both species, FlaA is the principal flagellin and that FlaB, FlaC, and FlaD are secondary. FlaA and at least one secondary Fla protein are required for assembling a functional flagellar filament. Western analysis revealed a ratio close to 1 of FlaA to the secondary Fla proteins (= FlaX) present in wild-type extracts, suggesting that the complex filament is assembled from FlaA-FlaX heterodimers. Whenever a given mutant combination of Fla prevented the assemblage of an intact filament, the biosynthesis of flagellin decreased dramatically. As shown in S. meliloti by reporter gene analysis, it is the transcription of flaA, but not of flaB,flaC, or flaD, that was down-regulated by such abortive combinations of Fla proteins. This autoregulation offlaA is unusual. We propose that any combination of Fla subunits incapable of assembling an intact filament jams the flagellar export channel and thus prevents the escape of an (as yet unidentified) anti-ς28 factor that antagonizes the ς28-dependent transcription of flaA.
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Alp, Hayriye. « Flax Seed ». Gastroenterology Pancreatology and Hepatobilary Disorders 5, no 5 (10 septembre 2021) : 01–02. http://dx.doi.org/10.31579/2641-5194/045.

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Flax sed also known as flax oil and linseed oil, is derived from the seeds of the plant Linium usitatissimum. Flax seed oil is a very rich source of alpha-linolenic acid. Alpha-linolenic acid concentration in flaxseed oil ranges from approximately 40 to 60%.lower amounts of linoleic acid and oleic acid (each about 15%) are also present in flaxseed oil.ın addition, flaxseed contains varying amounts of the lignan, secoisolariciresinol diglycoside (SDG).
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Chernikov, V. G., R. A. Rostovtsev et V. Yu Romanenko. « Flax Harvesting Technologies for Flax Harvesting Machines ». Agricultural Machinery and Technologies 17, no 1 (2 avril 2023) : 19–24. http://dx.doi.org/10.22314/2073-7599-2023-17-1-19-24.

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The technology of flax harvesting depends on input impacts, including: flax harvester qualitative characteristics; working body parameters; indicators of working conditions; intervening variables reflecting the dynamic properties of the working bodies and the dynamics of the flax flow input. (Research purpose) To establish patterns and the degree of correlation between the qualitative operation indicators (pulling and deseeding quality, flax line stretching); design parameters; machine dynamic properties and harvesting conditions (height and density of flax stem, field surface, thickness and unevenness of flax straw, etc.). (Materials and methods) Based on system analysis, mathematical models of the technological process of flax harvesting were developed. Information models were introduced for examining the main flax harvesters. (Results and discussion) The paper shows that the most typical indicators of the flax harvester working conditions are the flax stem height l(t), centimeters; the seed pod area a(t), centimeters; and field surface roughness z(t), centimeters. It is found that the quality of operation is determined by the deseeding quality, percentages; the flax straw stretching, times; the location of its apical and root parts, centimeters. The estimated indicators are as follows: the pulling height h(t), centimeters, the vibrations of the combine in the longitudinal-vertical plane Q(t), degrees, the location of the apical part of the flax flaw in front of the stripper. (Conclusions) A hydraulic device was developed to adjust the pulling height from 10 to 40 centimeters, depending on the flax stem. An important reserve for increasing the deseeding quality is the change in the width of the deseeding zone of the Vk harvester, centimeters. For this purpose, a mechanism was created for moving the deseeder against the clamping conveyor, depending on the flax stem height l(t), centimeters.
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Sharma, A. M., et M. A. Tarnopolsky. « Regulating adiponectin : of flax and flux ». Diabetologia 48, no 6 (12 mai 2005) : 1035–37. http://dx.doi.org/10.1007/s00125-005-1770-y.

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Zheng, Dong, Ruo-Yao Ding, Zheng Lei, Zhang Xingqun et Yu Chong-Wen. « Thermal properties of flax fiber scoured by different methods ». Thermal Science 19, no 3 (2015) : 939–45. http://dx.doi.org/10.2298/tsci130329005z.

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Thermal properties of flax roves untreated and treated were characterized by differential scanning calorimetry (DSC) and thermal gravity analyzer (TGA) in order to understand their thermal behavior in more detail and to evaluate the effect of scouring processing on the thermal behavior. Flax roves were treated with six kinds of methods including biological scouring, one bath, two bath, bleaching, alkali scouring and industry chemical scouring as standards. Results showed that all treatments improved thermal stability of flax roves. The results indicated that glass transition temperature (Tg) decreased after scouring besides the sample by directly bleaching. It is more difficult to determine the endothermic peak of flax treated by chemical scouring in industry because it takes a very flat course. A distinct endothermic peak was observed for the untreated flax rove, while a distinct exothermic peak in different temperature interval was revealed for other four treated flax rove samples. For TGA analysis, thermal degradation of flax roves studied consists of three regions of the initial, main, and char decomposition, and the third stage consists of secondary weight loss and carbonization for flax roves with biological scouring, one-bath and two-bath. Besides, different residue left indicates that the bio-scoured flax roves are lost with volatile products and does not contribute to char formation. These results provide valuable preferences for mechanism and top value added application of bio-scouring in flax roves.
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Rabaan, Ali A., Ioannis Gryllos, Juan M. Tomás et Jonathan G. Shaw. « Motility and the Polar Flagellum Are Required for Aeromonas caviae Adherence to HEp-2 Cells ». Infection and Immunity 69, no 7 (1 juillet 2001) : 4257–67. http://dx.doi.org/10.1128/iai.69.7.4257-4267.2001.

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ABSTRACT Aeromonas caviae is increasingly being recognized as a cause of gastroenteritis, especially among the young. The adherence of aeromonads to human epithelial cells in vitro has been correlated with enteropathogenicity, but the mechanism is far from well understood. Initial investigations demonstrated that adherence of A. caviae to HEp-2 cells was significantly reduced by either pretreating bacterial cells with an antipolar flagellin antibody or by pretreating HEp-2 cells with partially purified flagella. To precisely define the role of the polar flagellum in aeromonad adherence, we isolated the A. caviae polar flagellin locus and identified five polar flagellar genes, in the order flaA, flaB, flaG, flaH, and flaJ. Each gene was inactivated using a kanamycin resistance cartridge that ensures the transcription of downstream genes, and the resulting mutants were tested for motility, flagellin expression, and adherence to HEp-2 cells. N-terminal amino acid sequencing, mutant analysis, and Western blotting demonstrated that A. caviae has a complex flagellum filament composed of two flagellin subunits encoded by flaAand flaB. The predicted molecular mass of both flagellins was ∼31,700 Da; however, their molecular mass estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis was ∼35,500 Da. This aberrant migration was thought to be due to their glycosylation, since the proteins were reactive in glycosyl group detection assays. Single mutations in either flaA orflaB did not result in loss of flagella but did result in decreased motility and adherence by approximately 50%. Mutation offlaH, flaJ, or both flagellin genes resulted in the complete loss of motility, flagellin expression, and adherence. However, mutation of flaG did not affect motility but did significantly reduce the level of adherence. Centrifugation of the flagellate mutants (flaA, flaB, and flaG) onto the cell monolayers did not increase adherence, whereas centrifugation of the aflagellate mutants (flaH, flaJ, and flaA flaB) increased adherence slightly. We conclude that maximum adherence of A. caviae to human epithelial cells in vitro requires motility and optimal flagellar function.
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Tambalo, Dinah D., Kate L. Del Bel, Denise E. Bustard, Paige R. Greenwood, Audrey E. Steedman et Michael F. Hynes. « Regulation of flagellar, motility and chemotaxis genes in Rhizobium leguminosarum by the VisN/R-Rem cascade ». Microbiology 156, no 6 (1 juin 2010) : 1673–85. http://dx.doi.org/10.1099/mic.0.035386-0.

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In this paper, we describe the regulatory roles of VisN, VisR and Rem in the expression of flagellar, motility and chemotaxis genes in Rhizobium leguminosarum biovar viciae strains VF39SM and 3841. Individual mutations in the genes encoding these proteins resulted in a loss of motility and an absence of flagella, indicating that these regulatory genes are essential for flagellar synthesis and function. Transcriptional experiments involving gusA–gene fusions in wild-type and mutant backgrounds were performed to identify the genes under VisN/R and Rem regulation. Results showed that the chemotaxis and motility genes of R. leguminosarum could be separated into two groups: one group under VisN/R-Rem regulation and another group that is independent of this regulation. VisN and VisR regulate the expression of rem, while Rem positively regulates the expression of flaA, flaB, flaC, flaD, motA, motB, che1 and mcpD. All of these genes except mcpD are located within the main motility and chemotaxis gene cluster of R. leguminosarum. Other chemotaxis and motility genes, which are found outside of the main motility gene cluster (che2 operon, flaH for VF39SM, and flaG) or are plasmid-borne (flaE and mcpC), are not part of the VisN/R-Rem regulatory cascade. In addition, all genes exhibited the same regulation pattern in 3841 and in VF39SM, except flaE and flaH. flaE is not regulated by VisN/R-Rem in 3841 but it is repressed by Rem in VF39SM. flaH is under VisN/R-Rem regulation in 3841, but not in VF39SM. A kinetics experiment demonstrated that a subset of the flagellar genes is continuously expressed in all growth phases, indicating the importance of continuous motility for R. leguminosarum under free-living conditions. On the other hand, motility is repressed under symbiotic conditions. Nodulation experiments showed that the transcriptional activators VisN and Rem are dramatically downregulated in the nodules, suggesting that the symbiotic downregulation of motility-related genes could be mediated by repressing the expression of VisN/R and Rem.
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Mikhailouskaya, N. « The effect of flax seed inoculation by Azospirillum brasilense on flax yield and its quality ». Plant, Soil and Environment 52, No. 9 (17 novembre 2011) : 402–6. http://dx.doi.org/10.17221/3458-pse.

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Field experiment demonstrated the benefit resulting from biological soil management including the use of N<sub>2</sub>-fixing and growth promoting bacteria A. brasilense B-4485 for long-fibred flax. Seed inoculation by A. brasilense B-4485 was equivalent to the introduction of 15 kg/ha of N that provided the possibility of partial flax N requirement supply. Treatment A. brasilense + N<sub>15</sub>P<sub>60</sub>K<sub>90</sub> is considered to be the most profitable management in regard to flax yield and its quality, and is comparable to N<sub>30</sub>P<sub>60</sub>K<sub>90</sub> treatment. Biological management allows preventing high concentrations of N in soil, excludes lodging and negative effects on flax yield and its quality. Implementation of biological management for flax nutrition may be profitable for both ecology and economy of long-fibered flax growing.
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Martinez, Patricio, et Steven Nutt. « Flax–Reinforced Vitrimer Epoxy Composites Produced via RTM ». Journal of Composites Science 8, no 7 (16 juillet 2024) : 275. http://dx.doi.org/10.3390/jcs8070275.

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Composite laminates were produced by RTM using similar glass and flax fabrics and both vitrimer epoxy and aerospace-grade epoxy, both formulated for liquid molding. Tensile and flexural properties were measured and compared, revealing that the vitrimer composites exhibited equivalent performance in flexural strength and tensile modulus, but slightly lower performance in tensile strength relative to reference epoxy composites. In general, glass–fiber composites outperformed flax–fiber composites in tension. However, both glass and flax–fiber composites yielded roughly equivalent flexural strength and tensile modulus-to-weight ratios. Flax fabrics were recovered from composites by matrix dissolution, and a second-life laminate showed full retention of the mechanical properties relative to those produced from fresh flax. Finally, a demonstration of re-forming was undertaken, showing that simple press-forming can be used to modify the composite shape. However, re-forming to a flat configuration resulted in local fiber damage and a decrease in mechanical properties. An alternative forming method was demonstrated that resulted in less fiber damage, indicating that further refinements might lead to a viable forming and re-forming process.
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Pavelek, M. « Flax (Linum usitatissimum L.) Rina ». Czech Journal of Genetics and Plant Breeding 46, No. 1 (4 mars 2010) : 41–42. http://dx.doi.org/10.17221/95/2009-cjgpb.

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Thèses sur le sujet "Flax"

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Lundin, Emelie. « Flax in flux : Dress flax in a state of flux ». Thesis, Konstfack, Textil, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:konstfack:diva-7773.

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Radkar, Swarda Satish. « Potential Applications of Flax Fibers ». Thesis, North Dakota State University, 2018. https://hdl.handle.net/10365/29879.

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There has been a substantial increase in the usage of natural-fibers and biodegradable polymers due to the needs of the environmental sustainability. The use of natural fibers is inclusive of wide range of applications in load bearing structures, nursing and commercial commodities. In this study, tensile behavior of flax fiber tows removed from woven fabrics were investigated at different moisture levels and compared because one of the major challenges faced in the use of natural fibers is their hydrophilicity. As the moisture content increased from 5% to 80% the tensile strength increased by 75%. The diffusion process through the flax fiber mat with different areal densities was investigated using the desorption curves obtained using an oven drying method. Diffusion coefficients were not found to significantly change with varying areal densities of 200 gsm to 400 gsm, but were significantly different when dried at 55 ?C versus 80 ?C.
Ameriflax
SunStrand
North Dakota State University. Department of Mechanical Engineering
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Chigaeva, Irina V. « Biochemical improvement of flax-based materials ». Thesis, De Montfort University, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.391905.

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Whitacre, Ryan John. « Properties of Flax Fiber Reinforced Composites ». Thesis, North Dakota State University, 2013. https://hdl.handle.net/10365/26849.

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In the field of renewable materials, natural fiber composites demonstrate the capacity to be a viable structural material. When normalized by density, flax fiber mechanical properties are competitive with E-glass fibers. However, the hydrophilic nature of flax fibers reduces the interfacial bond strength with polymer thermosets, limiting composite mechanical properties. Corn zein protein was selected as a natural bio-based coupling agent because of its combination of hydrophobic and hydrophilic properties. Zein was deposited on the surface of flax, which was then processed into unidirectional composite. The mechanical properties of zein treated samples where measured and compared against commonly utilized synthetic treatments sodium hydroxide and silane which incorporate harsh chemicals. Fourier transform infrared spectroscopy, chemical analysis, and scanning electron microscopy were also used to determine analyze zein treatments. Results demonstrate the environmentally friendly zein treatment successfully increased tensile strength 8%, flexural strength 17%, and shear strength 30% compared to untreated samples.
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Mühleisen, Martin Bernd. « Chemical weed control : options in fibre flax ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape2/PQDD_0031/MQ64411.pdf.

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André, Alann. « Strengthening of timber structures with flax fibres / ». Luleå : Luleå University of Technology, 2007. http://epubl.ltu.se/1402-1757/2007/61/.

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Donaghy, John Anthony. « Factors affecting the retting of linen flax ». Thesis, University of Ulster, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.278388.

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Alimuzzaman, Shah. « Nonwoven flax fibre reinforced PLA biodegradable composites ». Thesis, University of Manchester, 2014. https://www.research.manchester.ac.uk/portal/en/theses/nonwoven-flax-fibre-reinforced-pla-biodegradable-composites(186ac2dd-0c03-497e-b984-853044fdee59).html.

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The awareness of environmental sustainability drives the composite industry to utilize natural fibres. Natural fibres are a readily available resource with a relatively low price. In this study natural fibre flax reinforced polylactic acid (PLA) biocomposites were made using a new technique incorporating an air-laying nonwoven process. Flax and PLA fibres were blended and converted to fibre webs in the air-laying process. Composite prepregs were then made from the fibre webs. The prepregs were finally converted to composites by compression moulding. The relationship between the main process variables and the properties of the biocomposite was investigated. It was found that with increasing flax content, the mechanical properties increased. As the moulding temperature and moulding time increased, the mechanical properties decreased. The physical, thermal and morphological properties of the biocomposites were also studied. The appropriate processing parameters for the biocomposites were established for different fibre contents. The biodegradability and water absorption properties of the composites were evaluated. The composites were incubated in compost under controlled conditions. The percentage weight loss and the reduction in mechanical properties of PLA and biocomposites were determined at different time intervals. It was found that with increasing flax content, the mechanical properties of the biocomposites decreased more rapidly during the burial trial. The increasing of flax content led to the acceleration of weight loss due to preferential degradation of flax. This was further confirmed by the surface morphology of the biodegraded composites from Scanning Electron Microscope (SEM) image analysis. This study also investigated the manufacturing of 3D PLA/Flax nonwoven prepregs by using a new system of 3D nonwoven web formation, and 3D biocomposite was made using these prepregs. A new mould unit for web and a new aluminium mould for biocomposite were developed. The physical properties of 3D biocomposites were investigated and it was found that there is no significant difference between 2D and 3D biocomposites in density and void content. The effects of fibre content and processing variables on the crushing behaviour, energy absorption and failure mode of 3D shell biocomposites were experimentally studied.
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Sparnins, Edgars. « Mechanical properties of flax fibers and their composites ». Doctoral thesis, Luleå, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-26640.

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Flax fibers, along with a number of other natural fibers, are being considered as an environmentally friendlier alternative of synthetic fibers in fiber-reinforced polymer composites. A common feature of natural fibers is a much higher variability of mechanical properties. This necessitates study of the flax fiber strength distribution and efficient experimental methods for its determination. Elementary flax fibers of different gauge lengths are tested by single fiber tension in order to obtain the stress-strain response and strength and failure strain distributions. The applicability of single fiber fragmentation test for flax fiber failure strain and strength characterization is considered. It is shown that fiber fragmentation test can be used to determine the fiber length effect on mean fiber strength and limit strain. The effect of mechanical damage in the form of kink bands and of diameter variability on the strength of elementary flax fibers is considered. Stiffness and strength under uniaxial tension of flax fiber composites with thermoset and thermoplastic polymer matrices are studied. The applicability of rule of mixtures and orientational averaging based models, developed for short fiber composites, to flax reinforced polymers are evaluated. Both the quasi-static and time dependent mechanical properties of flax fiber/thermoplastic starch based composites are analyzed. The effect of temperature and relative humidity is investigated. It is found that microdamage accumulation in this type of composites is not significant. Results show that the composite elastic modulus and failure stress are linearly related to the maximum stress reached by the matrix in tensile tests. Simple material models are suggested to account for the observed nonlinear viscoelasticity and viscoplasticity.
Godkänd; 2009; 20091029 (edgspa); DISPUTATION Ämnesområde: Polymera konstruktionsmaterial/Polymeric Composite Materials Opponent: Docent Kristofer Gamstedt, Kungliga Tekniska Högskolan, Stockholm Ordförande: Docent Roberts Joffe, Luleå tekniska universitet Tid: Onsdag den 9 december 2009, kl 10.00 Plats: E 231, Luleå tekniska universitet
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Sparnins, Edgars. « Mechanical properties of flax fibers and their composites ». Licentiate thesis, Luleå tekniska universitet, Materialvetenskap, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-16871.

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Flax fibers, along with a number of other natural fibers, are being considered as an environmentally friendly alternative of synthetic fibers in fiber-reinforced polymer composites. A common feature of natural fibers is a much higher variability of mechanical properties. This necessitates study of the flax fiber strength distribution and efficient experimental methods for its determination. Elementary flax fibers of different gauge lengths are tested by single fiber tension in order to obtain the stress-strain response and strength and failure strain distributions. The applicability of single fiber fragmentation test for flax fiber failure strain and strength characterization is considered. It is shown that fiber fragmentation test can be used to determine the fiber length effect on mean fiber strength and limit strain. Stiffness and strength under uniaxial tension of flax fiber composites with thermoset and thermoplastic polymer matrices are considered. The applicability of rule of mixtures and orientational averaging based models, developed for short fiber composites, to flax reinforced polymers is evaluated.

Godkänd; 2006; 20061206 (pafi)

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Livres sur le sujet "Flax"

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British Columbia. Dept. of Agriculture., dir. Flax. Victoria, B.C : R. Wolfenden, 1994.

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2

International, CAB, et Commonwealth Bureau of Pastures and Field Crops., dir. Oilseed flax ; fibre flax : Temperature effects. Wallingford : C.A.B. International, 1988.

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3

Linder, Olive. Handspinning flax. Phoenix, AZ : Bizarre Butterfly Pub., 1986.

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4

Canada, Flax Council of, Saskatchewan Agriculture Development Fund et Saskatchewan Information Services, dir. Flax bibliography, 1990. Saskatoon, Sask : POS Information Services, 1990.

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You, Frank M., et Bourlaye Fofana, dir. The Flax Genome. Cham : Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-16061-5.

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Zinzendorf, Christian. The big book of flax : A compendium of flax facts, art, lore, projects and song. Atglen, Pa : Schiffer Pub., 2011.

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Martin, Chatterton, et Dassas Véronique 1952-, dir. Flax, la fée rebelle. Bois-des-Filion, Québec : Parfum d'encre junior, 2009.

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Saskatchewan. Dept. of Agriculture., dir. Hints for flax growers. 2e éd. Regina : J.A. Reid, 1997.

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Saskatchewan. Dept. of Agriculture., dir. Hints to flax growers. Regina : J.W. Reid, 1994.

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D, Muir Alister, et Westcott Neil D, dir. Flax : The genus Linum. London : Routledge, 2003.

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Chapitres de livres sur le sujet "Flax"

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Duguid, Scott D. « Flax ». Dans Oil Crops, 233–55. New York, NY : Springer New York, 2009. http://dx.doi.org/10.1007/978-0-387-77594-4_7.

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Beard, Benjamin H., et Verne E. Comstock. « Flax ». Dans Hybridization of Crop Plants, 357–66. Madison, WI, USA : American Society of Agronomy, Crop Science Society of America, 2015. http://dx.doi.org/10.2135/1980.hybridizationofcrops.c24.

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Gooch, Jan W. « Flax ». Dans Encyclopedic Dictionary of Polymers, 312. New York, NY : Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-6247-8_5071.

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Rahman, Mukhlesur, et Ahasanul Hoque. « Flax Breeding ». Dans The Flax Genome, 55–68. Cham : Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-16061-5_4.

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Fu, Yong-Bi. « Pale Flax (Linum Bienne) : an Underexplored Flax Wild Relative ». Dans The Flax Genome, 37–53. Cham : Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-16061-5_3.

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Li, Pingchuan, et Frank M. You. « Genome-Wide Prediction of Disease Resistance Gene Analogs in Flax ». Dans The Flax Genome, 217–33. Cham : Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-16061-5_10.

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« Principal insect pests of flax ». Dans Flax, 136–61. CRC Press, 2003. http://dx.doi.org/10.1201/9780203437506-10.

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« The contribution of α-linolenic acid in flaxseed to human health ». Dans Flax, 162–92. CRC Press, 2003. http://dx.doi.org/10.1201/9780203437506-11.

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« The role of flaxseed lignans in hormone-dependent and independent cancer ». Dans Flax, 193–215. CRC Press, 2003. http://dx.doi.org/10.1201/9780203437506-12.

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« Flaxseed in the prevention of cardiovascular diseases ». Dans Flax, 216–25. CRC Press, 2003. http://dx.doi.org/10.1201/9780203437506-13.

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Actes de conférences sur le sujet "Flax"

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Sulman, E. M., Yu V. Lugovoy, K. V. Chalov, Yu Yu Kosivtsov, A. A. Stepacheva et E. I. Shimanskaya. « Flax shive thermocatalytic processing ». Dans 4TH INTERNATIONAL CONFERENCE ON FUNDAMENTAL AND APPLIED SCIENCES (ICFAS2016). Author(s), 2016. http://dx.doi.org/10.1063/1.4968068.

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W. Stanley Anthony. « Decortication of Straw From Seed Flax ». Dans 2001 Sacramento, CA July 29-August 1,2001. St. Joseph, MI : American Society of Agricultural and Biological Engineers, 2001. http://dx.doi.org/10.13031/2013.3587.

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Shi, Ruijie, Fei Dai et Wuyun Zhao. « Design of 2BF-4 Flax Seeder ». Dans 2018 International Conference on Mechanical, Electrical, Electronic Engineering & Science (MEEES 2018). Paris, France : Atlantis Press, 2018. http://dx.doi.org/10.2991/meees-18.2018.51.

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Delcourt, E., L. Gilson, L. Rabet et M. Pirlot. « Ballistic performance of dry stacked flax fabrics ». Dans DYMAT 2009 - 9th International Conferences on the Mechanical and Physical Behaviour of Materials under Dynamic Loading. Les Ulis, France : EDP Sciences, 2009. http://dx.doi.org/10.1051/dymat/2009123.

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« Genomic signatures of flax diversification and improvement ». Dans Plant Genetics, Genomics, Bioinformatics, and Biotechnology. Novosibirsk ICG SB RAS 2021, 2021. http://dx.doi.org/10.18699/plantgen2021-044.

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Foulk, Jonn A., Danny E. Akin et Roy B. Dodd. « New Low Cost Flax Fibers for Composites ». Dans SAE 2000 World Congress. 400 Commonwealth Drive, Warrendale, PA, United States : SAE International, 2000. http://dx.doi.org/10.4271/2000-01-1133.

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« Transcriptional profiling of fusarium wilt in flax ». Dans Bioinformatics of Genome Regulation and Structure/Systems Biology (BGRS/SB-2022) :. Institute of Cytology and Genetics, the Siberian Branch of the Russian Academy of Sciences, 2022. http://dx.doi.org/10.18699/sbb-2022-365.

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B. S Panigrahy, A Rana, S Panigrahi et P Chang. « OVERVIEW OF FLAX FIBER REINFORCED THERMOPLASTIC COMPOSITES ». Dans 2006 CSBE/SCGAB, Edmonton, AB Canada, July 16-19, 2006. St. Joseph, MI : American Society of Agricultural and Biological Engineers, 2006. http://dx.doi.org/10.13031/2013.22104.

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Bigué, Laurent, Karine Gautier et Marie-Ange Bueno. « Polarimetric inspection of flax composite material reinforcements ». Dans Polarization : Measurement, Analysis, and Remote Sensing XVI, sous la direction de David B. Chenault, Meredith K. Kupinski et Bradley M. Ratliff. SPIE, 2024. http://dx.doi.org/10.1117/12.3013794.

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Kudryavtsev, N. A., L. A. Zaitseva et Z. K. Kurbanova. « ECOLOGIZATION OF MEASURES A PROTECTIVE – STIMULATING AND HERBICIDES EFFECTS ON SEDS AND CROPS OF FLAX AND OTHER PLANTS ». Dans STATE AND DEVELOPMENT PROSPECTS OF AGRIBUSINESS. DSTU-PRINT, 2020. http://dx.doi.org/10.23947/interagro.2020.1.626-629.

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When testing a protective – stimulating and herbicides means acceptable to the technology of cultivation flax, it is established that the growth regulators – Lostor and Artaphit – effective against bacterioosis (Bacillus macerans Schr.), аnthracnose (Colletotrichum lini Manns et Bolley), mottle /ozoniose/ (Ozonium vinogradovi Kudr.) flax and contribute increasing the yild of flax and hemp. New biological product developed by us (mix the inoculum of smut /uroczistose/ qack grass (Urocystis agropyri /P./S.) and fragrant rust (Puccinia suaveollens /Pers./) bristly Thistle – reduced contamination of crops called weeds of flax and hemp.
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Rapports d'organisations sur le sujet "Flax"

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Wiedenhoeft, Mary H., Sarah Carlson, David Haden et Margaret A. Smith. Seeding Rate for Flax, 2005–2006. Ames : Iowa State University, Digital Repository, 2007. http://dx.doi.org/10.31274/farmprogressreports-180814-841.

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Burge, Legand L. Dr. Alexander H. Flax : Technologist of Aeronautics. Fort Belvoir, VA : Defense Technical Information Center, mars 1992. http://dx.doi.org/10.21236/ada258441.

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Wiedenhoeft, Mary H., Sarah Carlson et Margaret A. Smith. Weed Management Strategies for Organic Flax, 2005–2006. Ames : Iowa State University, Digital Repository, 2007. http://dx.doi.org/10.31274/farmprogressreports-180814-1349.

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Wiedenhoeft, Mary H., Sarah Carlson et Margaret A. Smith. Cultivar and Planting Date Effects on Organic Flax, 2005–2006. Ames : Iowa State University, Digital Repository, 2007. http://dx.doi.org/10.31274/farmprogressreports-180814-1008.

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Smith, Margaret A., Ryan Rusk et David Haden. Planting Pattern and Cultivar Effects on Flax Yields in Northwestern Iowa. Ames : Iowa State University, Digital Repository, 2005. http://dx.doi.org/10.31274/farmprogressreports-180814-487.

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Delate, Kathleen, Andrea McKern, Robert Burcham et John Kennicker. Evaluation of Flax Varieties for Certified Organic Production - Neely-Kinyon Trial, 2004. Ames : Iowa State University, Digital Repository, 2005. http://dx.doi.org/10.31274/farmprogressreports-180814-2124.

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Delate, Kathleen, Andrea McKern, Daniel Rosmann et Kevin Van Dee. Evaluation of Previous Rotation on Flax Performance in Certified Organic Production - Crawfordsville Trial, 2005. Ames : Iowa State University, Digital Repository, 2006. http://dx.doi.org/10.31274/farmprogressreports-180814-150.

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Delate, Kathleen, Andrea McKern, Robert Burcham et John Kennicker. Evaluation of Varieties, Fertility Treatments, and Red Clover Underseeding for Certified Organic Flax Production. Ames : Iowa State University, Digital Repository, 2008. http://dx.doi.org/10.31274/farmprogressreports-180814-2330.

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Delate, Kathleen, Andrea McKern, Daniel Rosmann, Robert Burcham et John Kennicker. Evaluation of Varieties, Fertility Treatments, and Red Clover Underseeding for Certified Organic Flax Production - Neely-Kinyon Trial, 2005. Ames : Iowa State University, Digital Repository, 2006. http://dx.doi.org/10.31274/farmprogressreports-180814-794.

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Lord. L51596 Flux Distribution - Pipeline Flaws. Chantilly, Virginia : Pipeline Research Council International, Inc. (PRCI), mars 1989. http://dx.doi.org/10.55274/r0010532.

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Describes the use of finite element analysis to carry out magnetic flux leakage studies intended to optimize the design of pipeline flaw detection vehicles based on this technology. The report provides predictions based on this approach supported by experimental measurement for a wide variety of defect shapes.
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