Laser cutting of pressed explosives: Revision 1
Abstract
We have used a femtosecond laser beam to make cuts through small pressed pellets of six common explosives. The laser system, which produces 100 fs pulses of 820 nm light at a repitition rate of 1 kHz, was intitially developed for cutting metal. The advantage of using a femtosecond laser for cutting is that the cutting process transfers virtually no heat to the material that is being cut and produces almost no waste. We used LX-16 explosive (96% PETN/4% FPC 461 binder) for out intial experiments because PETN is one of the most sensitve of the secondary explosives. In some of the experiments the beam first cut through the HE pellet and then through a stainless steel substrate and in other experiments the beam first cut through the stainless steel and then through the pellet. We also cut through pellets that were not backed by a substrate. No evidence of reaction was observed in any of the LX-16 pellets. In addition to LX-16 we cut pellets of LX-14 (95.5% HMX/4.5% Estane), LX-15 (95% HNS/5% Kel-F), LX-17 (92.5% TATB/7.5% Kel-F), PBX-9407 (94% RDX/6% Exon 461), and pressed TNT with no evidence of reaction. The HE was easily cut at low powermore »
- Authors:
- Publication Date:
- Research Org.:
- Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)
- Sponsoring Org.:
- USDOE Office of Financial Management and Controller, Washington, DC (United States)
- OSTI Identifier:
- 301351
- Report Number(s):
- UCRL-JC-128373-Rev.1; CONF-980356-
ON: DE98054778; BR: YN0100000
- DOE Contract Number:
- W-7405-ENG-48
- Resource Type:
- Conference
- Resource Relation:
- Conference: 4. conference on life cycles of energetic materials, Fullerton, CA (United States), 29 Mar - 1 Apr 1998; Other Information: PBD: 4 May 1998
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 45 MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE; CHEMICAL EXPLOSIVES; LASER BEAM MACHINING; CUTTING
Citation Formats
Roeske, F., Jr., Banks, R E, Armstrong, J P, Feit, M D, Lee, R S, Perry, M D, and Stuart, B C. Laser cutting of pressed explosives: Revision 1. United States: N. p., 1998.
Web.
Roeske, F., Jr., Banks, R E, Armstrong, J P, Feit, M D, Lee, R S, Perry, M D, & Stuart, B C. Laser cutting of pressed explosives: Revision 1. United States.
Roeske, F., Jr., Banks, R E, Armstrong, J P, Feit, M D, Lee, R S, Perry, M D, and Stuart, B C. 1998.
"Laser cutting of pressed explosives: Revision 1". United States. https://www.osti.gov/servlets/purl/301351.
@article{osti_301351,
title = {Laser cutting of pressed explosives: Revision 1},
author = {Roeske, F., Jr. and Banks, R E and Armstrong, J P and Feit, M D and Lee, R S and Perry, M D and Stuart, B C},
abstractNote = {We have used a femtosecond laser beam to make cuts through small pressed pellets of six common explosives. The laser system, which produces 100 fs pulses of 820 nm light at a repitition rate of 1 kHz, was intitially developed for cutting metal. The advantage of using a femtosecond laser for cutting is that the cutting process transfers virtually no heat to the material that is being cut and produces almost no waste. We used LX-16 explosive (96% PETN/4% FPC 461 binder) for out intial experiments because PETN is one of the most sensitve of the secondary explosives. In some of the experiments the beam first cut through the HE pellet and then through a stainless steel substrate and in other experiments the beam first cut through the stainless steel and then through the pellet. We also cut through pellets that were not backed by a substrate. No evidence of reaction was observed in any of the LX-16 pellets. In addition to LX-16 we cut pellets of LX-14 (95.5% HMX/4.5% Estane), LX-15 (95% HNS/5% Kel-F), LX-17 (92.5% TATB/7.5% Kel-F), PBX-9407 (94% RDX/6% Exon 461), and pressed TNT with no evidence of reaction. The HE was easily cut at low power levels with one or two sweeps at 0.5 W average power sufficing to cut most of the pellets. There is obvioulsy much more work to be done before laser machining of explosives becomes a reality, but the results of these intitial experiments indicate that laser machining of explosives may be an attractive option for explosives processing.},
doi = {},
url = {https://www.osti.gov/biblio/301351},
journal = {},
number = ,
volume = ,
place = {United States},
year = {Mon May 04 00:00:00 EDT 1998},
month = {Mon May 04 00:00:00 EDT 1998}
}