X-ray or gamma ray systems or devices – Specific application – Diffraction – reflection – or scattering analysis
Patent
1991-02-14
1991-12-31
Westin, Edward P.
X-ray or gamma ray systems or devices
Specific application
Diffraction, reflection, or scattering analysis
378 74, 378 71, G01N 2320
Patent
active
050777670
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INFORMATION
This invention relates generally to determining the existence of misorientation in a crystal (this includes determining the non-existence of misorientation). Though the invention has general applicability, it is particularly applicable to gemstones, especially diamonds; without limiting the scope of this invention, the remainder of this specification relates to diamonds.
Various stones give problems in the diamond industry, amongst which can be listed polycrystals, bicrystals, twinned crystals, strained crystals, crystals with inclusions, cracked stones, coateds, and crystals with growth bands.
The present invention is primarily concerned with polycrystals (a bicrystal is a special case of a polycrystal) and twinned crystals. In each case, there is misorientation--one or more volumes of the crystal have a different crystallographic orientation to the remainder. A polycrystal grew from more than one seed or nucleus and there is no crystallographic orientation relationship between the differently orientated volumes. During the growth of a twinned crystal, the orientation changed; although one or more volumes have a different orientation, there is an orientation relationship. A twinned crystal is considered to be a type of single crystal. The formation of a maccle is the type of twinning that occurs in diamonds. A maccle is a form of twinned crystal in which the lattice of one part of the stone is apparently rotated 180 degrees about the [III] direction to form a twin boundary on the (III) plane. Physical rotation does not actually occur--the twinning occurs during growth. FIGS. 1a to 1d of the accompanying drawings shows stone shapes resulting from the maccle transformation.
In this specification, the terminology is as explained above, which is the crystallographic terminology. In the diamond industry, bicrystals are called twins.
The existence of two different orientations within a stone can cause problems during manufacture. In many cases, the only option is to manufacture solely by polishing, i.e. the stone cannot be sawn or cleaved using conventional procedures.
Polycrystals and twinned crystals (and particularly twinned crystals) are probably the most difficult stones for inexperienced sorters to master because of the many types and the different techniques used in their identification. Stone shape often indicates a stone might be a polycrystal or twinned but manual classification is only complete when a line at the boundary between misoriented regions of the crystal has been identified. In nearly all cases, the boundary extends to the surface of the stone.
In order to distinguish between a polycrystal or twinned crystals and a non-twinned single crystal, a sorter often needs to look into the bulk of the stone. Knowledge of refraction effects at the stone surface helps the sorter work out the position of internal features. Experience helps the sorter to distinguish between a line indicating misorientation and trails (i.e. growth pattern) on the surface of a stone. It would be very difficult to build a machine which sorted polycrystals or twinned crystals using even the external features because of the variety of ways that a polycrystal or twinned crystal is identified. It is unlikely that optical image processing could allow a machine to distinguish between e.g. a herringbone maccle line and normal trails.
A technique which gives bulk orientational information or contrast would have the advantage that an orientation difference is common to all polycrystals and twinned crystals. However, unless flats were polished on each stone, any optical technique which involved using internal information would require the refractive index of the stone and surrounding medium to be matched. Immersion in a matched refractive index liquid would present engineering problems. Also, all known liquids having refractive indices approaching that of diamond (2.4) are toxic. In addition, it may be desirable to make a distinction between polycrystals and twinned crystals to prevent polycrystals bein
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Berger, H., A Simple X-Ray Topographic Technique for Studying the Coarse Perfections of Crystals, Kristall und Technik, 1977.
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Aristov et al., "A Study of the Imperfections and Crystallographic Characteristics of Crystals by Scanning in a Widely Divergent X-Ray Beam", Sov. Phys. Crystallogr., 3-4, 1976, pp. 191-195.
Gersan Establishment
Porta David P.
Westin Edward P.
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