1 |
Marx P, Wiesbrock F. Expanding monomers as anti-sh-rinkage additives[J]. Polymers (Basel), 2021, 13(5): 806.
|
2 |
Song L, Ye Q, Ge X, et al. Development of methacrylate/silorane hybrid monomer system: relationship between photopolymerization behavior and dynamic mechanical properties[J]. J Biomed Mater Res B Appl Biomater, 2016, 104(5): 841-852.
|
3 |
Wang Z, Zhang X, Yao S, et al. Development of low-shrinkage dental adhesives via blending with spiroorthocarbonate expanding monomer and unsaturated epoxy resin monomer[J]. J Mech Behav Biomed Mater, 2022, 133: 105308.
|
4 |
孙源, 刘鹤, 孙志辉. 处理时间对成熟恒牙和年轻恒牙应用通用型粘接剂时牙本质粘接效果的影响[J]. 华西口腔医学杂志, 2018, 36(5): 482-487.
|
|
Sun Y, Liu H, Sun ZH. Effects of bond strength evaluation on different durations of adult permanent teeth and youth permanent teeth by using universal adhesives to dentin[J]. West China J Stomatol, 2018, 36(5): 482-487.
|
5 |
胡格, 张新艳, 赵家鑫, 等. 新型抗菌自修复自粘接树脂水门汀的制备及性能研究[J].华西口腔医学杂志, 2020, 38(3): 256-262.
|
|
Hu G, Zhang XY, Zhao JX, et al. Development of novel self-adhesive resin cement with antibacterial and self-healing properties[J]. West China J Stomatol, 2020, 38(3): 256-262.
|
6 |
Ganesh AS. Comparative evaluation of shear bond streng-th between fifth, sixth, seventh, and eighth generation bonding agents: an in vitro study[J]. Indian J Dent Res, 2020, 31(5): 752-757.
|
7 |
Li K, Yao C, Sun Y, et al. Enhancing resin-dentin bond durability using a novel mussel-inspired monomer[J]. Mater Today Bio, 2021, 12: 100174.
|
8 |
Kumari A, Singh N. A comparative evaluation of microleakage and dentin shear bond strength of three restora-tive materials[J]. Biomater Investig Dent, 2022, 9(1): 1-9.
|
9 |
Fu J, Liu W, Hao Z, et al. Characterization of a low shrinkage dental composite containing bismethylene spiroorthocarbonate expanding monomer[J]. Int J Mol Sci, 2014, 15(2): 2400-2412.
|
10 |
Duarte MLB, Medina LAR, Reyes PT, et al. Dental restorative composites containing methacrylic spiroorthocarbonate monomers as antishrinking matrixes[J]. J Appl Polym Sci, 2019, 136(9): 47114.
|
11 |
Augusto CR, Leitune VCB, Ogliari FA, et al. Influence of an iodonium salt on the properties of dual-polymeri-zing self-adhesive resin cements[J]. J Prosthet Dent, 2017, 118(2): 228-234.
|
12 |
Maciel DDSA, Caires-Filho AB, Fernandez-Garcia M, et al. Effect of camphorquinone concentration in physical-mechanical properties of experimental flowable resin composites[J]. Biomed Res Int, 2018, 2018: 7921247.
|
13 |
Iglesias A, Flores T, Moyano J, et al. In vitro study of shear bond strength in direct and indirect bonding with three types of adhesive systems[J]. Materials (Basel), 2020, 13(11): 2644.
|
14 |
Cadenaro M, Breschi L, Rueggeberg FA, et al. Effect of adhesive hydrophilicity and curing time on the permeability of resins bonded to water vs. ethanol-saturated acid-etched dentin[J]. Dent Mater, 2009, 25(1): 39-47.
|
15 |
Stape THS, Tjäderhane L, Abuna G, et al. Optimization of the etch-and-rinse technique: new perspectives to improve resin-dentin bonding and hybrid layer integrity by reducing residual water using dimethyl sulfoxide pretreatments[J]. Dent Mater, 2018, 34(7): 967-977.
|
16 |
Daneshkazemi A, Davari A, Akbari MJ, et al. Effects of thermal and mechanical load cycling on the dentin microtensile bond strength of single bond-2[J]. J Int Oral Health, 2015, 7(8): 9-13.
|