Safety enclosures for laser cells

Dahmen, M.; Alunovic, M.; Kreutz, E. W.; Schreiber, P.

doi:10.2351/1.5059668

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Safety enclosures for laser cells

M. Dahmen;

M. Dahmen

¹

Lehrstuhl für Lasertechnik, Rheinisch-Westfälische Technisch Hochschule Aachen

, Steinbachstraβe 15, D-52074 Aachen,

Germany

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M. Alunovic;

M. Alunovic

¹

Lehrstuhl für Lasertechnik, Rheinisch-Westfälische Technisch Hochschule Aachen

, Steinbachstraβe 15, D-52074 Aachen,

Germany

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E. W. Kreutz;

E. W. Kreutz

¹

Lehrstuhl für Lasertechnik, Rheinisch-Westfälische Technisch Hochschule Aachen

, Steinbachstraβe 15, D-52074 Aachen,

Germany

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P. Schreiber

²

Bundesanstalt für Arbeitsschutz

, Friedrich-Henkel-Weg 1 - 25, D-44149 Dortmund,

Germany

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https://doi.org/10.2351/1.5059668

Published Online: November 01 1997

During processing with laser radiation the operator as well as the environment in the vicinity of the laser machine has to be protected against primary and secondary radiation emitted by the process. Up to now there is a lack of information about the resistance and the holding time of frequently used materials for laser guards. Investigations were carried out to yield information about the behavior of several materials under laser irradiation at six wavelengths each representing a type of beam source utilized in industry. The evaluation was guided by the topics fire and health risk, mechanical behavior, damage threshold, and holding time to burn-through. Tables are created offering a comprehensive survey over the suitability of all materials tested. Recommendations and advice for design and layout of guarding equipment is given.

REFERENCES

1.

R.

Dierken

,

H. W.

Bergmann

(

1994

).

Entwicklungsbegleitende Normung - Lasersicherheit

, ed.

VDI-Technologiezentrum, Düsseldorf

Google Scholar

2.

E.

Sutter

,

P.

Schreiber

,

G.

Ott

(

1989

)

Handbuch Laser-Strahlenschutz

.

Springer

,

Berlin

Google Scholar

Crossref

3.

R. M.

Wood

(

1986

)

Laser Damage in Optical Materials

.

Adam Hilger

,

Bristol

Google Scholar

4.

J. K.

McIver

,

A. H.

Guenter

(

1986

)

Considerations for the Choice of Optics for High Power Laser Applications

.

Proceedings SPIE

650

,

123

https://doi.org/10.1117/12.938090

Google Scholar

Crossref

5.

M.

Alunovic

,

T.

Kramer

,

E. W.

Kreutz

,

P.

Schreiber

(

1995

)

Degradation of Guarding Materials for a CO₂ Laser Cell

.

Proceedings Industrial Laser Safety Forum 1995

, ed. by

F. O.

Olsen.København

,

235

Google Scholar

6.

M.

Alunovic

,

G.

Backes

,

E. W.

Kreutz

,

D.

Scheller

,

P.

Schreiber

(

April

1996

)

Auf dem Prüfstand. Laser Praxis

,

32

7.

DIN 4102 Teil 1

(

May

1981

)

Brandverhalten von Baustoffen und Bauteilen

.

Beuth, Köln

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1997

Laser Institute of America

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Safety enclosures for laser cells

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