Laser drilling: Energy partitioning

Chan, Cho Lik; Campbell, David W.; Paul, Andrew E.

doi:10.2351/1.5059874

ICALEO 2001: Proceedings of the Laser Materials Processing Conference and Laser Microfabrication Conference

October 15–18, 2001

Jacksonville, Florida, USA

ICALEO 2001: Proceedings of the Laser Materials Processing Conference and Laser Microfabrication Conference

ISBN:

978-0-912035-71-0

PROCEEDINGS PAPER

Laser drilling: Energy partitioning

Cho Lik Chan;

Cho Lik Chan

¹

The University of Arizona Aerospace and Mechanical Engineering Department

Tucson, AZ 85718 Email: [email protected],

USA

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David W. Campbell;

David W. Campbell ⁽¹⁾

²

Bldg.

840, MS 7 P.O. Box 11337 Raytheon Company Tucson, AZ 85705,

USA

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Andrew E. Paul

Andrew E. Paul ⁽²⁾

²

Bldg.

840, MS 7 P.O. Box 11337 Raytheon Company Tucson, AZ 85705,

USA

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https://doi.org/10.2351/1.5059874

Published Online: October 01 2001

A previously developed 1-D transient laser drilling model with variable properties is used to investigate energy partitioning during laser drilling. Energy conservation within the model is monitored by calculating the energy reflected, E_r, the energy loss due to convection and radiation at the boundaries, E_loss, the energy storage, E_g, energy removal by vaporization, E_v, and energy removal by liquid expulsion, E_l at each time step. These energies sum up to the total incident energy from the laser, E_laser. The energy balance is satisfied with less than 0.1% error. Using the energy balance calculation, we can predict how and where the energy is dissipated at each time step. Results for Rayleigh and top hat laser pulses are presented and discussed.

REFERENCES

1.

Anismov

,

S. I.

,

1968

, “

Vaporization of Metal Absorbing Laser Radiation

,”

Soviet Physics JETP

. Vol

27

, pp.

182

–

183

.

Google Scholar

2.

Chan

,

C. L.

,

1999

, “

Transient 1-D Laser Drilling Model with Variable Properties

,”

Proceeding of ICALEO 1999

, Vol.

87

, pp.

C21

–

C30

.

Google Scholar

3.

Chan

,

C. L.

,

Campbell

,

D. W.

,

Rosenwald

,

R. D.

, and

Paul

A. E.

,

2000

, “

The Threshold and Efficiency of Material Removal

,”

Proceeding of ICALEO 2000

, Vol.

88

, pp.

Google Scholar

Crossref

4.

Chan

,

C. L.

and

Mazumder

,

J.

,

1987

, “

One-dimensional Steady-State Model for Damage by Vaporization and Liquid Expulsion Due to Laser-Material Interaction

,”

Journal of Applied Physics

, Vol.

62

, No.

11

, pp.

4579

–

4586

.

https://doi.org/10.1063/1.339053

Google Scholar

Crossref

5.

Knight

,

C. J.

,

1979

, “

Theoretical Modeling of Rapid Surface Vaporization with Back Pressure

,”

AIAA Journal

, Vol.

17

, pp.

519

–

523

.

https://doi.org/10.2514/3.61164

Google Scholar

Crossref

6.

Pehlke

,

R.D.

,

1982

,

Summary of Thermal Properties for Casting Alloys and Mold Materials

,

National Science Foundation Grant DAR78-26171

.

Google Scholar

7.

Touloukian

,

Y. S.

,

1976

, Thermophysical properties of matter,

New York

,

IFI/Plenum

.

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