In this study, the morphological changes of chemically treated (or
preserved) with aqueous solutions of 1) a sodium chloride (NaCl) and 2) a
compound containing sodium silicate, so called “wasserglass”, and untreated
I-type collagen fibers of Mongolian goatskin are investigated by atomic
force microscopy in ambient condition and at room temperature. The
experimental results show that the difference between D period for both
chemically treated and untreated collagen fibers are a relatively stable for
morphological behavior. However, we find that the width of collagen fibers
treated with the NaCl solution is more increasing with approximately 112 nm
than those of samples (untreated and treated with wasserglass solution) for
the range 93.4-94.8 nm. We also observe that a typically structure of the
collagen fibers generally, a dense packing of the untreated and treated by
wasserglass collagen fibers in bundles in a nearly parallel arrangement,
with little changes in orientation can be seen. The collagen fibers treated
by NaCl are a more destructive than untreated and treated by wasserglass for
collagen fibers.
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