Evaluation of Cure Depth and Geometrical Overgrowth Depending on Zirconia Volume Fraction Using Digital Light Processing

Jang Kyoung-Jun; Kang Jin-Ho; Sakthiabirami Kumaresan; Lim Hyun-Pil; Yun Kwi-Dug; Yim Eun-Kyung; Oh Gye-Jeong; Yang Hyun-Sam; Lee Kyung-Ku; Park Sang-Won

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Evaluation of Cure Depth and Geometrical Overgrowth Depending on Zirconia Volume Fraction Using Digital Light Processing

机译：根据使用数字光处理的氧化锆体积分数评估固化深度和几何过度生长

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The optical properties of zirconia photopolymer suspension for DLP (Digital Light Processing) were evaluated. The light source and intensity were set to 395 nm and 30 mW/cm(2). Experimental groups were divided into 48, 50, 52, 54, 56 and 58 vol% according to the zirconia volume fraction. The cure depth of all groups was at least 47.35 um when cured for 1 sec, which was higher than layer parameter values of the 3D printer. The geometrical overgrowth showed 28.55% at 48 vol% and 36.94% at 58 vol%. As the volume fraction of zirconia increased, the geometrical overgrowth increased and the cure depth reduced.

机译：评估氧化锆光聚合物悬浮液的光学性质（数字光处理）。将光源和强度设定为395nm和30 mw / cm（2）。根据氧化锆体积分数，实验组分为48,50,52,54,56和58体积％。在固化1秒时，所有组的固化深度至少为47.35μm，其高于3D打印机的层参数值。几何过度生长显示为28.55％，达到48体积％，36.94％，58体积％。随着氧化锆的体积分数增加，几何过度生长增加，固化深度降低。

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来源
《Journal of nanoscience and nanotechnology》 |2019年第4期|共4页
作者
Jang Kyoung-Jun; Kang Jin-Ho; Sakthiabirami Kumaresan; Lim Hyun-Pil; Yun Kwi-Dug; Yim Eun-Kyung; Oh Gye-Jeong; Yang Hyun-Sam; Lee Kyung-Ku; Park Sang-Won;
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作者单位

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

Chonnam Natl Univ Sch Dent Resources Informat Syst Fdn Adv Biomat Gwangju 500757 South Korea;

Nambu Univ Dept Automot &

Mech Engn Gwangju 62271 South Korea;

Gwangju Technol Pk Biomed Mat &

Component Serv Ctr Gwangju 62253 South Korea;

Chonnam Natl Univ Sch Dent Dept Prosthodont Gwangju 500757 South Korea;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
Zirconia; Ceramic 3D Print; Additive Manufacturing; Photopolymer Suspension;

机译：氧化锆;陶瓷3D打印;添加剂制造;光聚合物悬浮液;

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1. Evaluation of Cure Depth and Geometrical Overgrowth Depending on Zirconia Volume Fraction Using Digital Light Processing [J] . Jang Kyoung-Jun, Kang Jin-Ho, Sakthiabirami Kumaresan, Journal of nanoscience and nanotechnology . 2019,第4期

机译：根据使用数字光处理的氧化锆体积分数评估固化深度和几何过度生长
2. Effect of light-curing time on light-cure/post-cure volumetric polymerization shrinkage and regional ultimate tensile strength at different depths of bulk-fill resin composites [J] . Kurumi IDE, Masatoshi NAKAJIMA, Juri HAYASHI, Dental Materials Journal . 2019,第4期

机译：光固化时间对填充树脂复合材料不同深度下光固化/固化后体积聚合收缩率和区域极限抗拉强度的影响
3. Curing depth of composite resin light cured by LED and halogen light-curing units [J] . Calixto LR, Lima DM, Queiroz RS, Laser Physics: An International Journal devoted to Theoretical and Experimental Laser Research and Application . 2008,第11期

机译：LED和卤素光固化机固化的复合树脂光的固化深度
4. Curing of Thick Angle-Bend Thermoset Composite Part: Curing Cycle Effect on Thickness and Fiber Volume Fraction Variation [C] . Malak I. Naji, Suong V. Hoa Design and manufacturing of composites . 1998

机译：厚弯角热固性复合材料部件的固化：固化周期对厚度和纤维体积分数变化的影响
5. Processing of Transparent Rare Earth Doped Zirconia for High Temperature Light Emission Applications [D] . Hardin, Corey Lee 2015

机译：用于高温发光应用的透明稀土掺杂氧化锆的处理
6. Optimized Zirconia 3D Printing Using Digital Light Processing with Continuous Film Supply and Recyclable Slurry System [O] . Waqas Ahmed Sarwar, Jin-Ho Kang, Hyung-In Yoon 2021

机译：优化Zirconia 3D打印使用连续薄膜供应和可回收浆料系统使用数字光处理
7. A Comparative Evaluation of Curing Depth and Compressive Strength of Dental Composite Cured with Halogen Light Curing Unit and Blue Light Emitting Diode: An in vitro Study [O] . R Divyashree, M Gururaj, CN Vijaya Kumar, 2012

机译：卤素光固化单元固化深度和抗压强度对卤素光固化单元和蓝光二极管的比较评价：体外研究
8. Guidance, Navigation and Control Digital Emulation Technology Laboratory. Volume6. Task 6: GNC Processor Test and Evaluation [R] . Alford, C. O., Tan, S. S. 1991

机译：指导，导航和控制数字仿真技术实验室。 Volume6。任务6：GNC处理器测试和评估

Evaluation of Cure Depth and Geometrical Overgrowth Depending on Zirconia Volume Fraction Using Digital Light Processing

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