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Zerodur� and optical glass in high-stress applications

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Zerodur� and optical glass in high-stress applications / Peter Hartmann.
作者:	Hartmann, Peter,
面頁冊數:	1 online resource (xix, 205 pages) :illustrations. :
標題:	Brand name products. -
電子資源:	https://dx.doi.org/10.1117/3.100275
ISBN:	9781510679900

Zerodur� and optical glass in high-stress applications
Hartmann, Peter,

Zerodur� and optical glass in high-stress applications [electronic resource] /Peter Hartmann. - 1 online resource (xix, 205 pages) :illustrations. - SPIE Press monograph ;PM378. - SPIE Press monograph ;PM103..

Restricted to subscribers or individual electronic text purchasers.

"The extremely low expansion glass ceramic ZERODUR and optical glass are crucial materials enabling the key functions of optical systems. In some of their applications they are subject to mechanical forces, which lead to bending stress loads. For the intended functions it is essential that the optical elements remain undamaged throughout their total lifetime. Brittle materials such as ZERODUR and optical glass break due to surface tensile stress depending on their surface condition. It is shown that for each surface condition a certain stress limit exists below which no breakage occurs. The breakage stress probability is described using the three parameter Weibull distribution. The parameter threshold breakage stress defines the allowable stress for given optical element designs. The underlying cause for breakage is the presence of subsurface micro cracks. The growth law for the micro cracks allows taking fatigue into account and so to calculate the admissible stress for the intended lifetime of the optical system. The experimental part comprises the presentation of the breakage stress measurement method and a comprehensive number of results for ZERODUR with different surface conditions such as ground with diamond grains, lapped with silicon carbide grains, etched and polished and for the determination of the fatigue dominating stress corrosion. A verification test confirmed the validity of the lifetime prediction model. Breakage stress results are also given for a selection of optical glass types. To estimate the threshold breakage stresses for the many other glass types, which could not be measured, correlations with other physical quantities such as Knoop hardness and fracture toughness have been investigated. Recommendations are given for improving strength in design and operation. A set of well-known applications of ZERODUR in astronomy proves the suitability of the glass and glass ceramic materials under mechanical stress loads"--

Mode of access: World Wide Web.

ISBN: 9781510679900

Standard No.: 10.1117/3.100275doiSubjects--Topical Terms:

557929
Brand name products.
Index Terms--Genre/Form:

554714
Electronic books.

LC Class. No.: QC375 / .H28 2024e

Dewey Class. No.: 666.156

Zerodur� and optical glass in high-stress applications
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490 1 $a SPIE Press monograph ; $v PM378
506 # $a Restricted to subscribers or individual electronic text purchasers.
520 # $a "The extremely low expansion glass ceramic ZERODUR and optical glass are crucial materials enabling the key functions of optical systems. In some of their applications they are subject to mechanical forces, which lead to bending stress loads. For the intended functions it is essential that the optical elements remain undamaged throughout their total lifetime. Brittle materials such as ZERODUR and optical glass break due to surface tensile stress depending on their surface condition. It is shown that for each surface condition a certain stress limit exists below which no breakage occurs. The breakage stress probability is described using the three parameter Weibull distribution. The parameter threshold breakage stress defines the allowable stress for given optical element designs. The underlying cause for breakage is the presence of subsurface micro cracks. The growth law for the micro cracks allows taking fatigue into account and so to calculate the admissible stress for the intended lifetime of the optical system. The experimental part comprises the presentation of the breakage stress measurement method and a comprehensive number of results for ZERODUR with different surface conditions such as ground with diamond grains, lapped with silicon carbide grains, etched and polished and for the determination of the fatigue dominating stress corrosion. A verification test confirmed the validity of the lifetime prediction model. Breakage stress results are also given for a selection of optical glass types. To estimate the threshold breakage stresses for the many other glass types, which could not be measured, correlations with other physical quantities such as Knoop hardness and fracture toughness have been investigated. Recommendations are given for improving strength in design and operation. A set of well-known applications of ZERODUR in astronomy proves the suitability of the glass and glass ceramic materials under mechanical stress loads"-- $c Provided by publisher.
530 $a Also published in print version.
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650 # 0 $a Optical glass $x Deterioration. $3 1490946
650 # 0 $a Optical glass $x Expansion and contraction. $3 1490945
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