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Results 1 to 25 of 1263

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Influence des composés donneurs accepteurs sur l'hétérogénéité des solutions de filage de l'acétate de celluloseDENISOVA, G. P; ARTEMENKO, S. E.Himičeskie volokna. 1985, Num 5, pp 33-34, issn 0023-1118Article

Variation de la pression de vapeurs dans le système N-méthylmorpholine-N-oxyde-eau, en fonction de la températureSOKIRA, A. N; IOVLEVA, M. M.Himičeskie volokna. 1985, Num 5, pp 26-27, issn 0023-1118Article

Evaluation du pouvoir précipitant de différents liquides au cours de la formation des fibres à base de polyoxadiazolesEFIMOVA, S. G; OKROMCHEDLIDZE, N. P; PANKINA, O. I et al.Himičeskie volokna. 1984, Num 4, pp 37-39, issn 0023-1118Article

Mécanisme de l'apparition des microcanaux dans les fibres et les films obtenus par les procédés de formation humide et sec-humideNACHINKIN, O. I; SHUSTER, A. N; RUBAN, I. G et al.Himičeskie volokna. 1985, Num 4, pp 12-14, issn 0023-1118Article

Problème de la purification des solutions de filage du triacétate de cellulose par les ionites fibreusesKAZAKEVICH, YU. E; GIRLYAVICHYUS, A. A; STRUKOVA, I. M et al.Himičeskie volokna. 1985, Num 5, pp 16-17, issn 0023-1118Article

Détermination de la concentration des impuretés dans les solutions technologiques de production des fibres à base de polyamide aromatiqueBYKOVA, L. N; BOGOSLOVSKIJ, V. V; CHESNOKOVA, O. YA et al.Himičeskie volokna. 1985, Num 4, pp 57-59, issn 0023-1118Article

Influence des tensio-actifs sur la viscosité des solutions de filage du polyacrylonitrileGELLER, B. EH; MALYSHEV, YU. M; RIZAEV, SH. N et al.Himičeskie volokna. 1985, Num 4, pp 21-23, issn 0023-1118Article

DNA fibers by electrospinningFANG, X; RENEKER, D. H.Journal of macromolecular science. Physics. 1997, Vol 36, Num 2, pp 169-173, issn 0022-2348Article

The effect of alkali salt on solvent-polyacrylonitrile interactionPADHYE, M. R; KARANDIKAR, A. V.Journal of applied polymer science. 1985, Vol 30, Num 2, pp 667-673, issn 0021-8995Article

Solution blowing of chitosan/PVA hydrogel nanofiber matsRUIFANG LIU; XIANLIN XU; XUPIN ZHUANG et al.Carbohydrate polymers. 2014, Vol 101, pp 1116-1121, issn 0144-8617, 6 p.Article

Role of Liquid Jet Stretching and Bending Instability in Nanofiber Formation by Gas Jet MethodBENAVIDES, Rafael E; JANA, Sadhan C; RENEKER, Darrell H et al.Macromolecules (Print). 2013, Vol 46, Num 15, pp 6081-6090, issn 0024-9297, 10 p.Article

Critical length of straight jet in electrospinningHE, Ji-Huan; YUE WU; ZUO, Wei-Wei et al.Polymer (Guildford). 2005, Vol 46, Num 26, pp 12637-12640, issn 0032-3861, 4 p.Article

Fiber formation from liquid crystalline precursors. I: Poly(p-benzamide)CONIO, G; BRUZZONE, R; CIFERRI, A et al.Polymer journal. 1987, Vol 19, Num 6, pp 757-768, issn 0032-3896Article

Phase Equilibria in Polymer—Solvent Systems: Progress in the Field of FibersIOVLEVA, M. M; BANDURYAN, S. I.Polymer science. Series A, Chemistry, physics. 2010, Vol 52, Num 11, pp 1228-1232, issn 1757-1820, 5 p.Article

Electrospinning of viscoelastic Boger fluids : Modeling and experimentsCARROLL, Colman P; YONG LAK JOO.Physics of fluids (1994). 2006, Vol 18, Num 5, issn 1070-6631, 053102.1-053102.14Article

Role of chain entanglements on fiber formation during electrospinning of polymer solutions : good solvent, non-specific polymer-polymer interaction limitSHENOY, Suresh L; BATES, W. Douglas; FRISCH, Harry L et al.Polymer (Guildford). 2005, Vol 46, Num 10, pp 3372-3384, issn 0032-3861, 13 p.Article

Prediction of birefringence, stresses and kinematics in fibre spinning for solutions of finitely extensible macromoleculesMACKAY, M. E.Journal of non-newtonian fluid mechanics. 1988, Vol 27, Num 3, pp 323-332, issn 0377-0257Article

Allometric scaling for voltage and current in electrospinningHE, Ji-Huan; WAN, Yu-Qin.Polymer (Guildford). 2004, Vol 45, Num 19, pp 6731-6734, issn 0032-3861, 4 p.Article

Double-Nozzle Air-Jet Electrospinning for Nanofiber FabricationCONGCONG PU; JIANXIN HE; SHIZHONG CUI et al.Journal of applied polymer science (Print). 2014, Vol 131, Num 6, issn 0021-8995, 40040.1-40040.12Article

Parameter study and characterization for polyacrylonitrile nanofibers fabricated via centrifugal spinning processYAO LU; YING LI; SHU ZHANG et al.European polymer journal. 2013, Vol 49, Num 12, pp 3834-3845, issn 0014-3057, 12 p.Article

A New Mechanism for the Electrospinning of NanoYarnsBASEL BAZBOUZ, Mohamed; STYLIOS, George K.Journal of applied polymer science. 2012, Vol 124, Num 1, pp 195-201, issn 0021-8995, 7 p.Article

Bioinspired Fibers Follow the Track of Natural Spider SilkELICES, M; GUINEA, G. V; PLAZA, G. R et al.Macromolecules (Print). 2011, Vol 44, Num 5, pp 1166-1176, issn 0024-9297, 11 p.Article

State-of-the-art equipment for carbon fibre production linesGLAWION, E; ZENKER, D.JEC composites. 2011, Num 63, pp 96-98, issn 1639-965X, 3 p.Article

The Use of Weber Number to Predict Morphology in the Electrospinning of Poly(ethylene oxide) NanofibersCALL, Christopher C; SCHWARTZ, Christian J.Journal of applied polymer science (Print). 2011, Vol 120, Num 2, pp 880-885, issn 0021-8995, 6 p.Article

Effect of Applied Voltage on Surface and Volume Charge Density of the Jet in Electrospinning of Polyacrylonitrile SolutionsFALLAHI, D; RAFIZADEH, M; MOHAMMADI, N et al.Polymer engineering and science. 2010, Vol 50, Num 7, pp 1372-1376, issn 0032-3888, 5 p.Article

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