AbstractThe CO2 -laser drilling in Schott D263Teco thin glass having a thickness of 500μm is intensively studied. The nearly cylindrical holes having diameters smaller 100μm could be drilled in 0.25seconds per hole. Reliability investigations by performing temperature cycling show cracks in 51% of the drilled holes in the glass substrate. The reason is thermally induced stress during thermal CO2 -laser ablation. Different thermal pre- and post-treatments have been successfully studied avoiding such cracks (98.4% crack-free holes) and show the high potential of CO2 -laser drilling for through glass via (TGV) processing in glass substrates for micro-system applications
Recent results of processing fused silica using a high-power \u1d444-switched CO2 laser source with ...
This article is aimed to present an improvised technique for inducing periodic structures on glass a...
Machining of microvias in 100-50 μm thick CMZ glass using an excimer laser (248 nm) was investigated...
The CO2-laser drilling in Schott D263Teco thin glass having thickness of 500µm will be intensively s...
AbstractThe CO2 -laser drilling in Schott D263Teco thin glass having a thickness of 500μm is intensi...
Glass as a substrate material for interposer application has many benefits compared to conventional ...
To understand mechanisms underlying laser-induced damage of BK7 and fused silica, we calculate the t...
This work proposes a new femtosecond laser helical drilling method with a high geometrical accuracy ...
Fibre-glass composite has been increasingly used in automotive, aerospace and electronics industries...
In this paper, we present laser-induced structural modifications inside BK7 glass (OHARA, S-BSL7) us...
The key problems associated with laser processing of ceramics are centred on the induction of high t...
Glass is relatively cheap and freely available. It has attractive properties such as resistance to t...
L'éventualité de la destruction du verre lorsque chauffé par laser comporte d'importantes implicatio...
All modern works on the laser cutting of glass are based on the use of CO2 laser
This research examines the thermal shock otherwise know as cracking on a ZrO2 advance ceramic (ZAC) ...
Recent results of processing fused silica using a high-power \u1d444-switched CO2 laser source with ...
This article is aimed to present an improvised technique for inducing periodic structures on glass a...
Machining of microvias in 100-50 μm thick CMZ glass using an excimer laser (248 nm) was investigated...
The CO2-laser drilling in Schott D263Teco thin glass having thickness of 500µm will be intensively s...
AbstractThe CO2 -laser drilling in Schott D263Teco thin glass having a thickness of 500μm is intensi...
Glass as a substrate material for interposer application has many benefits compared to conventional ...
To understand mechanisms underlying laser-induced damage of BK7 and fused silica, we calculate the t...
This work proposes a new femtosecond laser helical drilling method with a high geometrical accuracy ...
Fibre-glass composite has been increasingly used in automotive, aerospace and electronics industries...
In this paper, we present laser-induced structural modifications inside BK7 glass (OHARA, S-BSL7) us...
The key problems associated with laser processing of ceramics are centred on the induction of high t...
Glass is relatively cheap and freely available. It has attractive properties such as resistance to t...
L'éventualité de la destruction du verre lorsque chauffé par laser comporte d'importantes implicatio...
All modern works on the laser cutting of glass are based on the use of CO2 laser
This research examines the thermal shock otherwise know as cracking on a ZrO2 advance ceramic (ZAC) ...
Recent results of processing fused silica using a high-power \u1d444-switched CO2 laser source with ...
This article is aimed to present an improvised technique for inducing periodic structures on glass a...
Machining of microvias in 100-50 μm thick CMZ glass using an excimer laser (248 nm) was investigated...