By Ian R. Wheeler
There has been an upsurge of curiosity lately within the use of metal pigments. metal pigments are present in many gadgets that we use daily from home items and activities items to the coatings on scratch playing cards. color is likely one of the key elements that impacts a buyer purchasing a retail product. within the ‘fashion markets’, visible visual appeal is very vital and has a tendency to come back good sooner than performance. it truly is in those markets that steel pigments come into their own.
steel Pigments In Polymers is the fitting uncomplicated advisor for an individual who's approximately to begin operating with metal pigments but in addition incorporates a wealth of data should you already use those pigments. it's was hoping that this ebook may help latest clients to accomplish the very best results with metal pigments and inspire those that haven't but used them to discover their power so as to add worth to their products.
topics lined are:
* creation and history
* steel pigment types
* Pigment characteristics
* supply forms
* comparability of mass pigmentation and coating
* Mass pigmentation program characteristics
* circulate and weld traces in mass pigmented applications
* formula of mass pigmented polymers
* Conversion processes
* functions of steel pigmented coatings
* Powder coatings
* Non-coloristic applications
* well-being, protection and handling
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Extra info for Metallic Pigments in Polymers
They are silver-coated nickel spheres and silver-coated nickel flakes. Both forms are employed to produce electrically conductive composite products for use in shielding applications where high performance is vital. The flake form is preferred for coatings and inks whereas the spherical form is used in mass pigmented products such as silicone polymer gaskets. 30 Manufacture References 1. J. D. Edwards and R. I. , Reinhold Publishing Corporation, New York, USA, 1955, 1-14. 2. G. W. , UK, 1983, 6-14.
4 Continuous wet milling Just as continuous dry milling evolved from the batch dry milling process, so continuous wet milling is a later variant of the Hall process. Alcoa  was prominent in this field, patenting continuous feed of metal powder, lubricant and solvent through a tubular ball mill. 5 Spherical metal pigments A variation of the wet milling process was patented by McKay, McKay and Ringan of Silberline  to produce spherical metal pigments. These are polished aluminium spheres or facetted spheres, from 1 to 300 µm in diameter, derived from substantially spherical atomised aluminium powder.
G. W. , UK, 1983, 34. 37. R. G. Frieser and P. A. Scardaville, inventors; Interchemical Corporation, assignee, US Patent 3,067,052, 1959. 38. Y. Harakawa, inventor; Teikoku Piston Ring KK, assignee, Japanese Patent Kokai (A) H3-277666, 1990. 39. J. J. W. Knox and W. I. , assignee, GB Patent 2,288,411 B, 1994. 40. A. Fetz, K. Greiwe and H. Birner, Paint & Ink International, 1998, 11, 4, 18. 41. A. Fetz, K. Greiwe and H. Birner, Polymers Paint Colour Journal, 1998, 188, 4409, 42. 42. W. G. , and N.