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Proceedings Paper

Homogeneity of the coefficient of linear thermal expansion of ZEDRODUR
Author(s): Ralf Jedamzik; Thorsten Doehring; Rolf Mueller; Peter Hartmann
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Paper Abstract

The low thermal expansion glass ceramic ZERODUR is the material of choice for many big astronomical telescope projects like VLT, Keck I + II, HET, LAMOST and GRANTECAN (GTC). For future giant telescope projects like OWL or TMT with at least several hundreds of mirror blanks the CTE homogeneity within a single blank and from blank to blank is an crucial issue. The ZERODUR production process is based on established and proven methods used in the production of high homogeneity optical glasses. Therefore ZERODUR itself is a material of highest homogeneity even in large dimensions and huge quantities. This paper presents an evaluation of the homogeneity of the thermal expansion coefficient within more than 250 mirror blanks. The observed homogeneity range is only slightly larger than the repeatability of the standard dilatometer measurement of ±0.005*10-6 K-1. To improve the accuracy of measurement and to get a deeper understanding of the thermal expansion behaviour of ZERODUR a new dilatometer was built exhibiting a repeatability of ±0.001*10-6 K-1. Detailed evaluations of the thermal expansion coefficient homogeneity of a 100 mm x 100 mm ZERODUR test block showed no variation within the repeatability of measurement of the improved dilatometer.

Paper Details

Date Published: 18 August 2005
PDF: 11 pages
Proc. SPIE 5868, Optical Materials and Structures Technologies II, 58680S (18 August 2005); doi: 10.1117/12.614424
Show Author Affiliations
Ralf Jedamzik, SCHOTT AG (Germany)
Thorsten Doehring, SCHOTT AG (Germany)
Rolf Mueller, SCHOTT AG (Germany)
Peter Hartmann, SCHOTT AG (Germany)


Published in SPIE Proceedings Vol. 5868:
Optical Materials and Structures Technologies II
William A. Goodman, Editor(s)

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