| 658 | 4 | 2 |
| 下载次数 | 被引频次 | 阅读次数 |
合成了超支化水性聚氨酯丙烯酸酯,通过傅里叶变换红外光谱仪、核磁共振氢谱仪表征了树脂结构。再以其为基体树脂,通过与丙烯酰吗啉、聚乙二醇二丙烯酸酯(PEGDA400)进行复配,制备了3D打印树脂。通过旋转黏度计、拉力试验机、动态热机械分析仪和接触角测试仪进行了测试。研究结果表明:随着PEGDA400的含量增加,所制备的3D打印器件柔韧性增加且具有较好的拉伸强度,同时所制备的3D打印器件具有较好的打印精度。
Abstract:Hyperbranched waterborne polyurethane acrylate was synthesized. The resin structure was characterized by Fourier transform infrared spectroscopy and nuclear magnetic resonance hydrogen spectrum. Then using it as the matrix resin,3D printing resin was prepared by compounding it with acryloyl morpholine and polyethylene glycol diacrylate(PEGDA400). It was tested by rotational viscometer,tensile testing machine,dynamic thermomechanical analyzer and contact angle tester. The research results showed that with the increase of PEGDA400 content,the flexibility of the prepared 3D printing device increased and the tensile strength was relatively good,at the same time,the prepared 3D printing device had good printing accuracy.
[1] LAYANI M,WANG X,MAGDASSI S.Novel materials for3D printing by photopolymerization[J].Advanced Materials,2018,30(41):1706344.
[2]何岷洪,宋坤,莫宏斌,等.3D打印光敏树脂的研究进展[J].功能高分子学报,2015,28(1):102-108.
[3]李乔磊,李金国,梁静静,等.光固化3D打印制备空心叶片陶瓷型芯研究进展[J].特种铸造及有色合金,2021,41(11):1339-1344.
[4]罗燊,徐航,章婷,等.光固化3D打印及其在齿科行业中的应用[J].影像科学与光化学,2019,37(5):473-484.
[5] LI W L,MILLE L S,ROBLEDO J A,et al.Recent advances in formulating and processing biomaterial inks for vat polymerization-based 3D printing[J].Advanced Healthcare Materials,2020,9(15):2000156.
[6] LU Y,MAPILI G,SUHALI G,et al.A digital micro-mirror device-based system for the microfabrication of complex,spatially patterned tissue engineering scaffolds[J]. Journal of Biomedical Materials Research Part A,2006,77A(2):396-405.
[7]向科炜,林金斌.水性光固化树脂研究进展[J].材料导报,2019,33(Z2):577-579;589.
[8]岳梦恩,谭晓欣,韦星船,等.水性紫外光固化涂料的研究进展[J].电镀与涂饰,2018,37(18):847-855.
[9]曾国屏,王刚,张军,等.UV LED固化水性UV涂料的研究进展[J].涂层与防护,2019,40(3):24-30.
[10] DECKER C,MASSON F,SCHWALM R.How to speed up the UV curing of water-based acrylic coatings[J].Journal of Coatings Technology and Research,2004,1(2):127-136.
[11]孟令巧,史星照,周志平,等.环保型水性涂料研究进展及发展趋势[J].中国胶粘剂,2019,28(1):55-60.
[12] BAE J H,WON J C,LIM W B,et al. Synthesis and characteristics of eco-friendly 3D printing material based on waterborne polyurethane[J].Polymers,2020,13(1):44.
[13] CHEN Y W,SHIE M Y,CHANG W C,et al.Approximate optimization study of light curing waterborne polyurethane materials for the construction of 3D printed cytocompatible cartilage scaffolds[J].Materials,2021,14(22):6804.
[14] CHEN Y Y,WANG N,TONG G S,et al. Synthesis of multiarm star polymer based on hyperbranched polyester core and poly(ε-caprolactone)arms and its application in UV-curable coating[J].ACS Omega,2018,3(10):13928-13934.
[15] ASIF A,SHI W F,SHEN X F,et al.Physical and thermal properties of UV curable waterborne polyurethane dispersions incorporating hyperbranched aliphatic polyester of varying generation number[J]. Polymer,2005,46(24):11066-11078.
[16] XIANG H P,WANG X W,XI L,et al.Effect of soft chain length and generation number on properties of flexible hyperbranched polyurethane acrylate and its UV-cured film[J].Progress in Organic Coatings,2018,114:216-222.
[17] SINGH A P,SURYANARAYANA C,NAIK R B,et al.Development of hyperbranched polyester polyol-based waterborne anticorrosive coating[J]. Journal of Coatings Technology and Research,2016,13(1):41-51.
[18] SONG Y,YANG F,ZHENG Z,et al. Synthesis of hyperbranched polymer for 3D printing[J].Chinese Journal of Chemistry,2021,39(11):3064-3070.
[19] NING L,CHEN J,SUN J,et al.Preparation and properties of3D printing light-curable resin modified with hyperbranched polysiloxane[J].ACS Omega,2021,6(37):23683-23690.
[20]高洪坤,杨恒,张恒.超支化水性聚氨酯丙烯酸酯在3D打印中的应用[J].首都师范大学学报(自然科学版),2018,39(2):43-48.
基本信息:
DOI:10.13416/j.ca.2022.05.008
中图分类号:TP391.73;TQ317
引用信息:
[1]张栋祺,向红,李治全等.超支化水性聚氨酯丙烯酸酯的制备及其3D打印应用研究[J].中国胶粘剂,2022,31(05):1-6+12.DOI:10.13416/j.ca.2022.05.008.
基金信息:
国家自然科学基金面上项目,3D打印用光固化笼状硅树脂的分子设计、制备(500180109)