| 66046 | |
| Laser Shock Peening (LSP) is a process used to work the surface of a metal to improve its material properties. The surface of the metal is confined by a glass or liquid barrier and then exposed to short pulses from a laser. The pulse creates a shock wave that travels into the metal to cool work the surface, improving the crystalline structure. The confining barrier directs the shock wave into the metal to enhance the effects of the process, but may limit its usefulness. Glass barriers are brittle and not practical for three-dimensional surfaces, and liquid barriers are limited by the laser intensity at which they break down. Researchers at Purdue University have developed a new method for generating a laser shock that still uses a liquid confinement barrier, but is more efficient and able to generate higher pressure. Using this method, the efficiency of LSP on aluminum alloy 6061 improved by 150 percent and the ablation rate of zinc increased by 300 percent. Advantages: -Liquid confinement can take any shape -Significantly improves efficiency of laser shock peening |
|
|
|
|
Jan 18, 2013
Utility Patent
United States
11,590,609
Feb 28, 2023
Feb 20, 2023
DIV-Patent
United States
(None)
(None)
May 30, 2012
Provisional-Patent
United States
(None)
(None)
Jan 18, 2012
Provisional-Patent
United States
(None)
(None)
|
|
|
Purdue Office of Technology Commercialization The Convergence Center 101 Foundry Drive, Suite 2500 West Lafayette, IN 47906 Phone: (765) 588-3475 Fax: (765) 463-3486 Email: otcip@prf.org |
