Add to ORKGIn this paper, the cutting of Si3N4 engineering ceramics with Q-switched pulse CO2 laser is studied. Considering the influence of the cut front shape on the absorption of the laser beam, a simplified 2D mathematic model is developed based on a pulsed laser vaporization cut process. This model is based on the conservation of energy. The experimental results show that it would realize crack-free cutting by using high-speed and multi-pass feed cutting process
The key problems associated with laser processing of ceramics are centred on the induction of high t...
For the ultimate use of micro machining in technology the interaction of laser light and silicon nit...
A comparative study between the fiber and an Nd:YAG laser during the surface treatment of a Si 3N 4 ...
This paper demonstrates a comparative study of a relatively novel fibre laser and a conventional CO ...
Pulsed, high-beam quality lasers offer unique materials processing characteristics. In processing me...
Surface treatment of a Si3N4 engineering ceramic assisted by a CO2 laser was conducted to identify c...
In this study, the laser drilling parameters of a Nd:YAG ultrashort pulsed laser are evaluated to pr...
The fracture toughness property (K1c) of Si3N4 and ZrO2 engineering ceramics was investigated by mea...
Temperature distribution was predicted using a computational and experimental means during a CO2 and...
In this study, the laser drilling parameters of a Nd:YAG ultrashort pulsed laser are evaluated to pr...
To effectively improve the cutting quality of sapphire and optimize ultrafast picosecond laser cutti...
Ceramics like Si3N4, Al2O3 (sapphire) and ZrO2 and also diamonds can be hardly machined by conventio...
Laser surface treatment of engineering ceramics offers various advantages in comparison with convent...
In order to realize the laser precision machining of ceramics, the influence of some basic machining...
This study focused on the experimental and theoretical evaluation of the laser assisted machining (L...
The key problems associated with laser processing of ceramics are centred on the induction of high t...
For the ultimate use of micro machining in technology the interaction of laser light and silicon nit...
A comparative study between the fiber and an Nd:YAG laser during the surface treatment of a Si 3N 4 ...
This paper demonstrates a comparative study of a relatively novel fibre laser and a conventional CO ...
Pulsed, high-beam quality lasers offer unique materials processing characteristics. In processing me...
Surface treatment of a Si3N4 engineering ceramic assisted by a CO2 laser was conducted to identify c...
In this study, the laser drilling parameters of a Nd:YAG ultrashort pulsed laser are evaluated to pr...
The fracture toughness property (K1c) of Si3N4 and ZrO2 engineering ceramics was investigated by mea...
Temperature distribution was predicted using a computational and experimental means during a CO2 and...
In this study, the laser drilling parameters of a Nd:YAG ultrashort pulsed laser are evaluated to pr...
To effectively improve the cutting quality of sapphire and optimize ultrafast picosecond laser cutti...
Ceramics like Si3N4, Al2O3 (sapphire) and ZrO2 and also diamonds can be hardly machined by conventio...
Laser surface treatment of engineering ceramics offers various advantages in comparison with convent...
In order to realize the laser precision machining of ceramics, the influence of some basic machining...
This study focused on the experimental and theoretical evaluation of the laser assisted machining (L...
The key problems associated with laser processing of ceramics are centred on the induction of high t...
For the ultimate use of micro machining in technology the interaction of laser light and silicon nit...
A comparative study between the fiber and an Nd:YAG laser during the surface treatment of a Si 3N 4 ...