DEGRADATION IN WEIGHTED AND UNWEIGHTED HISTORIC SILKS
Janet E. Miller, & Barbara M. Reagan
REFERENCES
Annual Book of ASTM Standards. Philadelphia: American Society for Testing and Materials, 07.01 and 07.02.
Asia. M. M., M.Tsuboi, T.Shimanouchi, and S.Mizushima. “Infrared Spectra of Polypeptides and Related Compounds.”Journal of Physical Chemistry59 (1955): 322–325.
Bogle, M.“Artificial Weighting and the Deterioration of Silk.”AIC Preprints, Sixth Annual Meeting of the American Institute for Conservation of Historic and Artistic Works, Fort Worth, Tex. June 1978. 31–40.
Bresee, R. R., and G. E.Goodyear. “Fractography of Historic Silk Fibers.”Historic Textile and Paper Materials: Conservation and Characterization, Advances in Chemistry Series 212, edited by H. L.Needles, and S. H.Zeronian, Washington, D.C.: American Chemical Society, 1986. 95–109.
Higgenbothem, J.Instrumental Neutron Activation of Coal and Coal Fly Ash. Master's thesis, Kansas State University, 1983.
Hearle, J. W. S.“An Atlas of Fiber Fracture #1–15.”Textile Manufacturer99 (1972): 1164–1170.
Howitt, F. O.“The Structure of Textile Fibers: V—The Structure of Proteins—Silk.”The Journal of the Textile Institute. 40 (1949): 465–474.
Kuruppillai, R. V., S. P.Hersh, and P. A.Tucker“Degradation of Silk by Heat and Light.”Historic Textile and Paper Materials: Conservation and Characterization, In Advances in Chemistry Series 212, edited by H. L.Needles, and S. H.Zeronian, Washington, D.C.: American Chemical Society, 1986, 111–127.
Leene, J. E., L.Demeny, R. J.Elema, A. J.DeGraff, and J.Surtel. “Artificial Aging of Yarns in the Presence as Well as in the Absence of Light under Different Atmospheric Conditions.”Proceedings of the International Council of Museums13 (1958): 107–242.
Lucas, F., J. T. B.Shaw, and S. G.Smith. “The Silk Fibroins.”Advances in Protein Chemistry131958: 107–242.
Miller, J. E.A Comparative Analysis of Degradation in Naturally Aged and Experimentally Degraded Silk. Phd. dissertation, Kansas State University, Manhattan, KS (1986).
Needles, Howard, L. VickiCassman, and MarthaCollins, “Mordanted, Natural-Dyed Wool and Silk Fabrics: Light and Burial-Induced Changes in Color and Tensile Properties.” In Historic Textile and Paper Materials: Conservation and Characterization, Advances in Chemistry Series 212, edited by H. L.Needles, and S. H.Zeronian, Washington, D.C.: American Chemical Society, 1986. 199–210.
Scott, Walter M.“The Weighting of Silk,” Parts I–IV. American Dyestuff Reporter20 (1931): 517–518, 539–540, 543, 557–562, 591–594, 621–622.
Swiss Standards Association. “Silk Viscosity Testing Using Lithium Bromide.”Textil Rundscheu19 (1964): 80–83.
Tyler, A. G.“Survey of Silk Weighting.”Textile Journal of Australia24 (1949): 404, 406–407, 464.
Yang, C. Q., and W. G.Fateley. “The Effect of Particle Size on Fourier - Transform Infrared Photoacoustic Spectra.”Journal of Molecular Structure146 (1986): 25–39.
|