Page 200 - Handbook of Properties of Textile and Technical Fibres
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Silk: fibers, films, and compositesdtypes, processing, structure, and mechanics 177
Hayashi CY, Blackledge TA, Lewis RV: Spider flagelliform silk: lessons in protein design, gene
structure, and molecular evolution, Mol Biol Evol 21:1950e1959, 2004.
Hearle JWS: A critical review of the structural mechanics of wool and hair fibres, Int J Biol
Macromol 27:123e138, 2000.
Herrera Ramirez JM, Colomban P, Bunsell A: Micro-Raman study of the fatigue fracture and
tensile behaviour of polyamide (PA 66) fibres, J Raman Spectrosc 35:1063e1072, 2004.
Herrera Ramirez JM, Bunsell AR, Colomban P: Microstructural mechanisms governing the
fatigue failure of polyamide 66 fibres, J Mater Sci 41:7261e7271, 2006.
Heslot H: Artificial fibrous proteins: a review, Biochimie 80:19e31, 1998.
Holland C, Terry AE, Porter D, Vollrath F: Natural and unnatural silks, Polymer 48:3388e3392,
2007.
Hosemann R, Steffen B: The phenomenon of paracrystallinity, Diffraction studies on non-
crystalline substances, Budapest, 1978, Reviews of the Hungarian Academy of Sciences,
pp 492e554.
Hu X, Kaplan D, Cebe P: Determining beta-sheet crystallinity in fibrous proteins by thermal
analysis and infrared spectroscopy, Macromolecules 39:6161e6170, 2006a.
Hu K, Lv Q, Cui FZ, Feng QL, Kong XD, Wang HL, Huang LY, Li T: Biocompatible fibroin
blende films with recombinant human-like collagen for hepatic tissue engineering, J Bioact
Compatible Polym 21:23e37, 2006b.
Iizuka E: The physico-chemical properties of silk fibers and the fiber spinning process,
Experimentia 39(5):449e454, 1983.
Inoue S, Tanaka K, Arisaka F, Kiura S, Ohtomo K, Mizuno S: Silk fibroin of Bombyx mori is
secreted, assembling a high molecular mass elementary unit consisting of H-chain, L-chain,
and P25, with a 6:6:1 molar ratio, Journal Biol Chem 275:40517e40528, 2000.
Jauzein V: Etude de la microstructure et du comportement mécanique de la fibre de soie, Ph.D.
dissertation, ParisTech Ecole des mines de Paris, https://hal.inria.fr/file/index/docid/
540941/filename/Jauzein.pdf.
Jauzein V, Bunsell A: Bio-composite aspect of silk: the sericin sheath acting as a matrix, J Mater
Sci 47:3082e3088, 2012.
Jelinski LW, Blye A, Liivak O, Michal C, La Verde G, Andreas S, Shah N, Yang Z: Orientation,
structure, wet-spinning, and molecular basis for supercontraction of spider dragline silk, Int
J Biol Macromol 24:197e201, 1999.
Jiang P, Liu H, Wang C, Wu L, Huang J, Guo C: Tensile behavior and morphology of differently
degummed silkworm (Bombyx mori) cocoon fibres, Mater Lett 60:919e925, 2006.
Jin HJ, Kaplan DL: Mechanism of silk processing in insects and spiders, Nature 424(6952):
1057e1061, 2003.
Kameda T, Nakazawa Y, Kazuhara J, Yamane T, Asakura T: Determination of intermolecular
distance for a model peptide of Bombyx mori silk fibroin, GAGAG, with rotational echo
double resonance, Biopolymers 64:80e85, 2002.
Kaplan DL, Adams WW, Viney C, Farmer BL, editors: Silk polymers material science and
biotechnology, Washington DC, 1994, American Chemical Society, pp 2e16.
Kawahara Y, Shioya M, Takaku A: Mechanical properties of silk fibers treated with meth-
acrylamide, J Appl Polym Sci 61:1359e1364, 1996.
Khan M, Tsukada M, Gotoh Y, Morikawa H, Freddi G, Shiozaki H: Physical properties and
dyeability of silk fibers degummed with citric acid, Bioresour Technol 101:8439e8445, 2010.
Kreplak L, Doucet J, Dumas P, Briki F: New aspects of the alpha-helix to beta-sheet transition in
stretched hard alpha-keratin fibers, Biophysical J 87:640e647, 2004.
Ki CS, Gang EH, Um IC, Park YH: Nanofibrous membrane of wool keratose/silk fibroin blend
for heavy metal ion adsorption, J Membr Sci 302:20e26, 2007a.
