Diamond Films Handbook by Jes Asmussen, D Reinhard

By Jes Asmussen, D Reinhard

Serves as a huge resource of data for readers desirous about the recent diamond movie know-how.

Show description

Read Online or Download Diamond Films Handbook PDF

Similar polymers & textiles books

Intelligent Textiles for Personal Protection and Safety

Terrorism has turn into an essential component of daily life lately and has dramatically affected the standard of lifestyles for people in society. expertise is the foremost to struggling with terrorism and retaining usual voters, first responders and squaddies, between others, from threat. the world of clever or clever textiles is a slightly new yet swiftly rising self-discipline with a excessive power for payoff within the struggle opposed to terrorism.

Application of Fracture Mechanics to Composite Materials

This quantity offers an invaluable precis of present wisdom at the software of fracture mechanics to composite fabrics. it's been written to fill the distance among the literature on primary rules of fracture mechanics and the particular courses at the fracture houses of traditional fabrics, reminiscent of metals, polymers and ceramics.

Materials Handbook

Annotation. AnnotationThe fabrics Handbookis an encyclopedic, A-to-Z association of all kinds of fabrics, that includes their key functionality houses, vital features and purposes in product layout. fabrics contain ferrous and nonferrous metals, plastics, elastomers, ceramics, woods, composites, chemical compounds, minerals, textiles, fuels, foodstuffs and traditional plant and animal components --more than 13,000 in all.

Additional info for Diamond Films Handbook

Sample text

Annu Rev Mater Sci 17:161, 1987. JC Angus. In: KE Spear, JP Dismukes, eds. Synthetic Diamond: Emerging CVD Science and Technology. New York: John Wiley & Sons, 1994, pp 21– 39. I Amato. Stuff: The Materials the World Is Made Of. New York: Basic Books, 1997. G Averani, CA Targioni. G Litt Ital 8:221, 1711. GN Lewis, M Randall. J Am Chem Soc 37:458, 1915. F Simon. Handb Phys 10:350, 1926. OI Liepunski. Usp Khim 8:1519, 1939. FD Rossini, RS Jessup. J Res Natl Bur Stand 21:491, 1938. H Meincke. Schweiz Arch Angew Wiss Tech 23:85, 1957.

AT Collins, SH Robertson. J Mater Sci Lett 4:681, 1985. OW Ka¨ding, M Ro¨sler, R Zachai, HJ Fu¨ßer, E Matthias. Diamond Relat Mater 3:1178, 1994. PK Bachmann, H-J Hagemann, H Lade, D Leers, DU Wiechert, H Wilson, D Fournier, K Plamann. Diamond Relat Mater, in press. TR Anthony, WF Banholzer, JF Fleischer, L Wei, PK Kuo, RL Thomas, RW Pryor. Phys Rev B 42:1104, 1990. JR Olson, RO Pohl, JW Vandersande, A Zoltan, TR Anthony, WF Banholzer. Phys Rev B 47:14859, 1993. L Wei, PK Kuo, RL Thomas, TR Anthony, WF Banholzer.

Much higher rates were reported than those of Eversole. A major achievement of the Soviet group was the use of atomic hydrogen during growth. This gave much higher growth rates and also permitted nucleation of new diamond crystallites on nondiamond substrates. This development apparently came about as the result of a suggestion of Valentin Varnin (A. Badzian, personal communication, 1991). He had learned of the results from Case Western Reserve University on atomic hydrogen from Dmitri Fedoseev, who had attended the 1971 Kiev meeting where the work was presented.

Download PDF sample

Rated 4.61 of 5 – based on 34 votes