Oral Medicine and Laser-Assisted Surgery Unit, Dental School, Faculty of Medicine, University of Parma, Parma, Italy.
Lasers Med Sci. 2011 Jul;26(4):415-20. doi: 10.1007/s10103-010-0788-7. Epub 2010 May 2.
The Nd:YAG laser has been used since 1970 in dental laboratories to weld metals on dental prostheses. Recently in several clinical cases, we have suggested that the Nd:YAG laser device commonly utilized in the dental office could be used to repair broken fixed, removable and orthodontic prostheses and to weld metals directly in the mouth. The aim of this work was to evaluate, using scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS) and dynamic mechanical analysis (DMA), the quality of the weld and its mechanical strength, comparing a device normally used in dental laboratory and a device normally used in the dental office for oral surgery, the same as that described for intraoral welding. Metal plates of a Co-Cr-Mo dental alloy and steel orthodontic wires were subjected to four welding procedures: welding without filler metal using the laboratory laser, welding with filler metal using the laboratory laser, welding without filler metal using the office laser, and welding with filler metal using the office laser. The welded materials were then analysed by SEM, EDS and DMA. SEM analysis did not show significant differences between the samples although the plates welded using the office laser without filler metal showed a greater number of fissures than the other samples. EDS microanalysis of the welding zone showed a homogeneous composition of the metals. Mechanical tests showed similar elastic behaviours of the samples, with minimal differences between the samples welded with the two devices. No wire broke even under the maximum force applied by the analyser. This study seems to demonstrate that the welds produced using the office Nd:YAG laser device and the laboratory Nd:YAG laser device, as analysed by SEM, EDS and DMA, showed minimal and nonsignificant differences, although these findings need to be confirmed using a greater number of samples.
钇铝石榴石激光自 1970 年以来一直被用于牙科实验室,以焊接牙科修复体上的金属。最近在几个临床病例中,我们建议在牙科诊所中常用的钕:钇铝石榴石激光设备可用于修复折断的固定、可摘和正畸修复体,并直接在口腔中焊接金属。本研究旨在通过扫描电子显微镜(SEM)、能谱仪(EDS)和动态力学分析(DMA)评估焊接质量及其机械强度,比较一种通常用于牙科实验室的设备和一种通常用于口腔手术的设备,与口腔内焊接所用设备相同。钴-铬-钼牙科合金和正畸钢丝的金属板进行了四种焊接程序:使用实验室激光无填充金属焊接、使用实验室激光填充金属焊接、使用办公室激光无填充金属焊接、使用办公室激光填充金属焊接。然后通过 SEM、EDS 和 DMA 对焊接材料进行分析。SEM 分析表明,尽管使用办公室激光无填充金属焊接的板材显示出比其他样品更多的裂缝,但各样本之间没有明显差异。焊接区的 EDS 微分析显示金属成分均匀。力学测试表明,两个设备焊接的样品具有相似的弹性行为,差异极小。即使在分析器施加的最大力下,也没有一根钢丝断裂。本研究似乎表明,使用办公室 Nd:YAG 激光设备和实验室 Nd:YAG 激光设备产生的焊接,通过 SEM、EDS 和 DMA 进行分析,显示出最小的和无显著差异,尽管这些发现需要使用更多的样本进行确认。
