它的适用范围:制氧、制氮、牙科治疗仪、仪器仪表、食品包装、激光切割等诸多行业。
It's suitable for: oxygen, nitrogen making, dental therapeutic apparatus, instruments and meters, food packaging, laser cutting, and many other industries.
结论等离子焊接与激光焊接是比较理想的牙科钛材焊接方法。
Conclusion Plasma welding and laser welding are ideal joining methods for titanium in dentistry.
在于,每个可被视为目标的发色团,所有市售的激光波长在牙科将交互与这些组分元素到一个或大或小的程度上。
In that each may be considered target chromophores, all commercially available laser wavelengths in dentistry will interact with these component elements to a greater or lesser extent.
目的研究铒激光在最小干预牙科技术中的应用。
Objective To study the application of erbium laser in minimal intervention dentistry.
随着激光焊接在传统牙科合金焊接领域的不断强化,在正畸矫治器制作工艺上也逐步得到了良好的运用。
Along with the development of laser welding in dental alloy welding, it was gradually applied in orthodontic appliance for weld of Ni-Cr alloy, Co-Cr alloy or Titanium alloy.
介绍了激光的特性、激光的生物效应及激光在临床医学上的应用,并着重介绍了激光在牙科治疗上的应用。
In this paper, the laser characteristics, laser biological effects, laser applications in biomedicine are discussed the emphasis is placed in laser applications in dentistry.
结论:激光焊接焊点强度高,明显优于传统的牙科钎焊,更适用于牙科焊接。
Conclusions: Laser welding is more suitable for prosthetic welding because of its stronger welded joints. Laser welding was found to be significantly superior to conventional dental soldering.
结论:激光焊接焊点强度高,明显优于传统的牙科钎焊,更适用于牙科焊接。
Conclusions: Laser welding is more suitable for prosthetic welding because of its stronger welded joints. Laser welding was found to be significantly superior to conventional dental soldering.
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