Non-destructive ‘in situ’ Raman study of artistic glasses

An in situ, non-destructive study of the coloured glaze on ancient Egyptian faience objects has been performed. The research was undertaken to examine further the e †ectiveness of Raman microscopy as a tool for archaeometric analysis. Initial studies revealed that faience pigmentation could not be a

## Abstract This work, by means of Raman spectroscopy, studies the vibrational modifications of a silica‐based sol‐gel bioactive glass (77S) in direct contact with a simple TRIS‐buffered solution. The novelty of this contribution with respect to similar previous works consists in the adoption of an

Diamond-like Carbon (DLC) coatings have recently proven to be suitable for a number of tribological applications. Hardness of the DCL coating is very important for such application. An in-situ, non-destructive technique to measure the film hardness would be crucial for process control and quality co

A standard, non-destructive, in situ analytical procedure has been developed to test the proposal that cinnabar [ mercury(II) sulphide ] is the principal component of red inks and pigments on pre-tenth century Chinese manuscripts. Eight manuscript fragments with traces of red ink or pigmentation, an