In-situ tensile testing of crystalline diamond coatings using Raman spectroscopy

The determination of the stress/strain level in diamond films was carried out here by polarized Raman spectroscopy. For as-grown polycrystalline films, a classical shift and splitting of the Raman spectra was evidenced. A polarized Raman study in two directions allowed confirming the isotropic biaxi

Fiber-optic Raman spectroscopy was used to monitor the curing of epoxy resins in situ for eventual application to polymer composite processing. A 200-pm diameter quartz fiberoptic sensor immersed in liquid resin was used to obtain Raman spectra for a concentration series of diglicidyl ether of bisph

## SYNOPSIS I n situ Raman spectroscopy experiments were used to determine effective kinetic propagation constants for a series of unsteady-state divinyl ether polymerizations at different isothermal temperatures and light intensities. Raman spectroscopy was found to be ideally suited for monitori

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 procedure is described for the evaluation of the fracture behaviour of polycyrstalline ceramics using an in-situ stress analysis involving either fluorescence or Raman microprobe spectroscopy. The full details of the experimental set-up, calibration procedures and stress calculations are shown, an