@misc{fe1360918ea949aabc2706950a4e39e3,
title = "Towards Polymer-Free, Femto-Second Laser-Welded Glass/Glass Solar Modules",
abstract = "This project explores the use of femto-second (fs) lasers to form glass-to-glass welds for hermetically sealed, polymer-free solar modules. Low iron solar glass coupons were welded together without the use of glass filler using a fs laser with dedicated optics to elongate the focal plane parallel to the incident beam. The resulting welds were then stress tested to failure to reveal the critical stress intensity factor, KIc. These values were used in a structural mechanics model of a 1 m by 2 m glass/glass module under a simulated static load test. The results show that the fs laser welds are strong enough for a suitably framed module to pass the IEC 61215 static load test with a load of 5400 Pa. Key to this finding is that the module must be framed and braced, and the glass must be ribbed to allow pockets for the cells and welds inside the border of the module. The result is a module design that is completely polymer-free, hermetically sealed, has improved thermal properties, and is easily recycled.",
keywords = "femto-second laser welded, glass/glass, hermetically-sealed, photovoltaic, PV, recyclable, solar module",
author = "David Young and Timothy Silverman and Nicholas Irvin and {Huerta Murillo}, Daniel and Bill Holtcamp and Nick Bosco",
year = "2024",
language = "American English",
series = "Presented at the 2024 Silicon Workshop, 28-31 July 2024, Breckenridge, Colorado",
publisher = "National Renewable Energy Laboratory (NREL)",
address = "United States",
type = "Other",
}