上海交通大学学报(医学版)2025,Vol.45Issue(7):858-865,8.DOI:10.3969/j.issn.1674-8115.2025.07.007
基于数字光处理技术的牙科冠桥树脂制备及其打印参数优化研究
Optimization of optimal printing parameters and composition ratio of dental crown and bridge resin based on digital light processing technology
摘要
Abstract
Objective·To fabricate a 3D-printed dental crown and bridge resin slurry using digital light processing(DLP)technology,investigate the influence of different printing parameters on its mechanical properties,determine the optimal printing parameters,and optimize the composition ratio of DLP-printed crown and bridge resin.Methods·Based on the viscosity characteristics of the mixture,the optimal ratio of urethane dimethacrylate(UDMA)to poly(propylene glycol)dimethacrylate(PPGDMA)was explored.After silanizing silicon dioxide(SiO2),it was mixed with UDMA,PPGDMA,and 2,4,6-trimethylbenzoyl bis(p-tolyl)phosphine oxide(TMO)to prepare DLP-printed dental crown and bridge resin slurries with different solid contents,and their rheological properties were tested.The Beer-Lambert equation was used to calculate the light penetration depth and critical exposure energy of the printing slurry.Based on these values,different exposure intensities,exposure times,post-curing times,and layer thicknesses were set respectively to carry out a series of printing experiments.By comparing and analyzing the flexural strength of the products under different printing parameters,the optimal printing parameter combination was screened out.Results·Viscosity tests showed that the optimal UDMA-to-PPGDMA ratio was 6∶4.The rheological behavior of printing slurries with different solid contents was tested,and the results showed that the DLP-printed dental crown and bridge resin with a solid content of 22%exhibited the best printing performance.According to the Beer-Lambert analysis,the light penetration depth Dp of the printing slurry was 119.79 μm,and the critical exposure energy Ec was 25.54 mJ/cm2.When the exposure intensity was 20 mW/cm²,the flexural strength reached a maximum of(132.39±8.92)MPa,and the difference was statistically significant(P<0.05).The flexural results of different exposure times showed that the flexural strength could reach(131.73±9.43)MPa when the single-layer exposure time was 3.0 s,and there was no significant difference when the exposure time was further increased.The flexural results of different post-curing times showed that when the post-curing time reached 30 min,there was no significant relationship between the flexural strength value and the increase in post-curing time.Regarding the influence of different layer thicknesses on the flexural performance,the test results showed that when the layer thickness was 50 μm,the result was the best,and the difference was statistically significant(P<0.001).Conclusion·Based on viscosity and rheological tests,a DLP-printable crown and bridge resin slurry was successfully developed.The optimal printing parameters were determined through statistical analysis of flexural strength:exposure intensity of 20 mW/cm²,exposure time of 3.0 s,post-curing time of 30 min,and a layer thickness of 50 μm.关键词
数字光处理技术/牙科冠桥树脂/打印参数/黏度/光穿透深度/抗弯强度Key words
digital light processing technology/dental crown and bridge resin/printing parameters/viscosity/light penetration depth/flexural strength分类
医药卫生引用本文复制引用
刘俊龙,马佳音,赵喆,熊耀阳,郑元俐..基于数字光处理技术的牙科冠桥树脂制备及其打印参数优化研究[J].上海交通大学学报(医学版),2025,45(7):858-865,8.基金项目
上海市卫生健康委员会卫生行业临床研究专项(202440008) (202440008)
上海市自然科学基金(23ZR1453600). Health Industry Clinical Research Special Project of Shanghai Health Commission(202440008) (23ZR1453600)
Natural Science Foundation of Shanghai(23ZR1453600). (23ZR1453600)
