174                             Handbook of Properties of Textile and Technical Fibres

         Bartow B: The further application of the intra-articular silk ligament in the flail joints of
             poliomyelitis paralysis, J Bone Joint Surg 2:217e220, 1916.
         Bazant ZP: Scaling theory for quasibrittle structural failure, Proc Natl Acad Sci USA 101:
             13400e13407, 2004.
         Bittencourt D, Souto BM, Verza NC, Vinecky F, Dittmar K, Silva Jr PI, Andrade AC, da
             Silva FR, Lewis RV, Rech EL: Spidroins from the Brazilian spider Nephilengys cruentata
             (Araneae: Nephilidae), Comp Biochem Physiol B 147:597e606, 2007.
         Blackledge TA, Hayashi CY: Unraveling the mechanical properties of composite silk threads
             spun by cribellate orb-weaving spiders, J Exp Biol 209:3131e3140, 2006.
         Bon de Saint-Hilaire FX: Dissertation sur l’araignée contenant la vertu & les propriétés de cet
             insecte, avec la qualité & l’usage de la soie qu’il produit & des gouttes qu’on en tire pour
             la guérison de l’apoplexie, de la léthargie et de toutes les maladies soporeuses, 1710.
             Montpellier.
         Camerlingo C, d’Apuuzzo F, Grassia V, Perillo L, Lepore M: Micro-raman spectroscopy for
             monitoring changes in periodontal ligaments and gingival crevicular fluid, Sensors 14:
             22552e22563, 2014.
         Chen X, Shao Z, Marinkovic NS, Miller LM, Zhou P, Chance MR: Conformation transition
             kinetics of regenerated Bombyx mori silk fibroin membrane monitored by time-resolved
             FTIR spectroscopy, Biophys Chem 89:25e34, 2001.
         Cheung HY, Lau KT, Tao XM, Hui D: A potential material for tissue engineering: silkworm
             silk/PLA biocomposite, Compos B Eng 39:1026e1033, 2008.
         Colomban P: Analysis of strain and stress in ceramic, polymer and metal matrix composites by
             Raman spectroscopy, Adv Eng Mater 4:535e542, 2002.
         Colomban P: Nanomechanics of advanced polymer fibers, Compos Sci Technol 69:1437e1441,
             2009.
         Colomban P: Understanding the nano- and macromechanical behaviour, the failure and fatigue
             mechanisms of advanced and natural polymer fibres by Raman/IR microspectrometry, Adv
             Nat Sci Nanosci Nanotechnol 4:013001, 2013.
         Colomban P, Gouadec G: Raman and IR micro-analysis of high performance polymer fibres
             tested in traction and compression, Compos Sci Technol 69:10e16, 2009.
         Colomban P, Dinh HM: Origin of the variability of the mechanical properties of silk fibres: II,
             the nanomechanics of single silkworm and spider fibres, J Raman Spectrosc 43:
             1035e1041, 2012.
         Colomban P, Sagon G, Lesage M, Martin Herrera J: Micro-Raman study of the compressive
             behaviour of advanced PA66 polyamide fibres in a diamond-anvil cell, Vib Spectrosc 37:
             83e90, 2005.
         Colomban P, Herrera Ramirez JM, Paquin R, Marcellan A, Bunsell AR: Micro-Raman study of
             the fatigue and fracture behaviour of single PA 66 fibres. Comparison with single PET and
             PP fibres, Eng Fract Mech 73:2463e2475, 2006.
         Colomban P, Dinh HM, Riand J, Prinsloo LC, Mauchamp B: Nanomechanics of single silkworm
             and spider fibres: a Raman and micromechanical in situ study of the conformation change
             with stress, J Raman Spectrosc 39:1749e1764, 2008a.
         Colomban P, Moukit SE, Dinh HM, Hassine M, Riand J, Mauchamp B: Micro- & nano-
             mécanique des fibres naturelles (animales), Revue des Matériaux Compos Avancés 18:
             163e168, 2008b.
         Colomban P, Dinh HM, Bunsell A, Mauchamp B: Origin of the variability of the mechanical
             properties of silk fibres: 1- The relationship between disorder, hydration and stress/strain
             behaviour, J Raman Spectrosc 43:425e432, 2012a.