Precious Metal Powders and Preparations

8.1 Precious Metal Powders

Precious metal powders are used as raw materials for many technical products as well as for medical and decorative applications. Among these are the manufacture of composite silver materials for electrical contacts (Ag/Ni, Ag/metal oxides, Ag/C, Ag/W, etc), catalysts, electrodes, or dental products. Besides these precious metal powders are used as the base material in preparations as well as conductive paints and adhesives.

Precious metal powders consist of small particles of approx. 1 – 100 µm diameter which distinguish themselves by particle shape, particle size and particle size distribution. Depending on the manufacturing process, silver particles may be spherical, crystalline, or dentritic. Smaller particle size typically leads to a larger surface area.

The measured densities of powders – both, the apparent density and the tap density – are low compared to the wrought metals because of the gaps between the particles. They vary in a wide range between 0.5 and 6 g/cm3 depending on the morphology of the particles and their tendency to agglomeration. Precious metal powders can be compacted by pressing and then sintered; a certain amount of porosity is however always retained.

Precious metal powders are produced by various methods, such as for example electrolysis, atomizing from the molten phase, chemical precipitation, or by cementation with non-precious metals. Depending on the manufacturing process silver powders – as the by far largest volume precious metal powder used – have

Fig. 81: Different shapes of silver powders a) spherical b) rounded crystal applomerates

different properties as shown in Tables 8.1 and 2.12. Atomizing from a melt results in a powder with high tap density composed of spherical particles. Using electrolytic deposition from a silver salt solution creates randomly shaped dentritic to crystalline particle structures. Chemical processes can result in rather fine particles with a large specific surface area. Fig. 8.1 shows typical SEM photo-graphs of atomized silver powder in spherical shapes (a) and a cementation powder composed of rounded crystal agglomerates (b).

Table 8.1: Different Types of Silver Powders

8.2 Precious Metal Preparations

While in the past mostly glass ware and ceramics (table china) were coated for decorative purposes with gold or platinum, precious metals have since quite a few years been applied to non-metallic substrates such as ceramics, glass, or plastics to make their surfaces electrically conductive. To coat these surfaces fine powders of the precious metal are dispersed in a carrier containing a paint basis and organic solvents. Such preparations can be applied by screen or tampon printing, by spraying, immersion, or with a paint brush.

8.2.1 Precious Metal Firing Preparations

The firing preparations in liquid or paste form are widely used in electrical and electronic engineering and especially in the thick-film technology (Table 8.2). The precious metal filler material is mostly pure silver because of its high electrical conductivity. During firing in an oxidizing atmosphere at temperatures between 400 and 850°C a well adhering and highly conductive surface layer is formed. When utilizing screen printing techniques any shapes of conductive patterns can be created (Fig. 8.2) resulting in conductive paths with good electrical properties and high temperature stability.

Table 8.2: Liquid Silver Preparations for Firing Application (ARGONOR)

Fig. 8.2: Solar cell with print pattern of ARGONOR N920

8.2.2 Conductive Paints and Adhesives