DE19626868A1 - Gold@ crystals preparation - Google Patents

Abstract

Process for preparing gold crystals comprises adding mercury to pure gold or to gold doped with other elements; heating the mixture to a predetermined temperature; annealing the mixture for a period at this temperature; cooling at a defined rate to a predetermined final temperature; and using this temperature as a starting point either for the addition of a solvent (especially HNO3), to dissolve out the mercury, or for the removal of mercury by vapourisation or vacuum distillation. The gold starting material may be pure gold or it may be doped or mixed with other elements such as silver. The gold is e.g. filed to increase the surface area so that the gold dissolves rapidly in the mercury. The mixture of gold and mercury can be heated to temperatures up to 357 deg C at normal pressure and to higher temperatures under elevated pressures. The Au/Hg solution is annealed for a time at the prevailing temperature and pressure, then cooled either continuously or stepwise to a specified temperature to cause crystallisation of the gold. Finally, the Hg is removed either by addition of a solvent such as HNO3 or by vapourisation or vacuum distillation of the Hg.

Description

Crystal growths are made up of different phases and with the performed a wide variety of processes.

Gold crystals can be grown electrolytically, via the gas phase or by breeding from the melt. The first two methods are Crystal structures not varied and with those - in nature occurring - not to be compared. The third method is there is no solid body and individual free crystals.

The object of the invention is to grow gold crystals, which are detail, resemble the crystals in nature and more, that To complete and complete the entire spectrum of the occurring gold crystals expand. For one thing, it makes it possible in geology, Mineralogy and in crystallography draw conclusions about the nature of the Gold crystals can be drawn, and on the other hand you can find in the jewelry various jewelry items with a thin crystal base provided to achieve matting effects or reliefs.

According to the invention, the gold crystals are now produced in that the Gold is dissolved with the help of mercury and it is thereby in the liquid phase. Starting from this point is for the broad Spectrum of gold crystals every variant open.

In this phase it is now possible to use gold, platinum, etc. jewelry in the Solution to dive. The subsequent tempering and cooling now leaves Crystal structures develop on the surface of the jewelry. The subsequent chemical removal of the mercury causes also crystallization effects. Of course, it is also possible after defined cooling and reaching the desired temperature endpoint of the solution, the mercury using a Remove vacuum distillation. This will make another one Crystal effect achieved or the piece of jewelry, if necessary, before chemical reaction of the acid protected (silver jewelry).

The invention is explained in more detail below using an example. A certain amount of gold becomes pure or with other elements  mixed (claim 2, 3), then preferably by filing or shredded shredded (claim 4). In this way the Enlarged surface so that the mercury quickly dissolves the gold can.

This mixture is then heated. The temperature scale extends up to 357 ° C at normal air pressure, and can be expanded by increasing the pressure be (claim 5). - release phase.

The solution is then at different temperatures, times and Printing annealed (claim 5, 6). This work phase serves to start crystallization. The nucleation rate depends strongly dependent on the temperature and on the time - with highly viscous media - experimentally noticeable from time.

If you keep a certain nucleation temperature of the solution constant, or lowers the temperature in a defined manner, one can achieve that large Crystals are grown. Otherwise, smaller shapes are created (Claim 7, 8). - This phase described is the crystal formation by changing the state variables - temperature and pressure.

The mercury is then added by adding preferably nitric acid chemically dissolved as salt. Here too there is crystal formation, because gold is still dissolved in the mercury. For the design the crystal forms also play the concentration of nitric acid a crucial role. (Claim 9, 10). - (Similar to the cooling rate s. O.).

Removal of the mercury can also be done by vacuum distillation take place (claim 11).

Claims (11)

1. A process for the production of gold crystals, characterized in that pure gold or gold is doped with other elements, mercury is added, in order to then be heated to a certain temperature, there is annealed for a time, and then to a certain cooling rate to be brought to a defined final temperature, which then serves as the starting point for the addition of solvents (preferably nitric acid) in order to dissolve the mercury or serves as the starting point for removing the mercury by means of evaporation or a vacuum distillation. 2. The method according to claim 1, characterized, that the gold is used pure or as a doping or mixture of silver contains. 3. The method according to one or more of claims 1 to 2, characterized, that the gold is doped or mixed with other elements. 4. The method according to one or more of claims 1 to 3, characterized, that the gold, or the mixture in different sizes and shapes is used. 5. The method according to one or more of claims 1 to 4, characterized, that the gold at different dissolution temperatures, with different pressures is brought.   6. The method according to one or more of claims 1 to 5, characterized, that different annealing times are used. 7. The method according to one or more of claims 1 to 6, characterized, that the solution evenly or intermittently and with or without Stopovers is cooled. 8. The method according to one or more of claims 1 to 7, characterized, that after cooling, different final temperatures are maintained will. 9. The method according to one or more of claims 1 to 8, characterized, that acid or another solvent for mercury is used and their concentrations vary. 10. The method according to one or more of claims 1 to 9, characterized, that nitric acid is used and its concentration varies. 11. The method according to one or more of claims 1 to 10, characterized, that after the cooling process the mercury evaporates, evaporates or is removed by vacuum distillation.