1 |
KIM R J, KIM Y J, CHOI N S, et al. Polymerization shrinkage, modulus, and shrinkage stress related to tooth-restoration interfacial debonding in bulk-fill composites[J]. J Dent, 2015, 43(4): 430-439.
|
2 |
FERRACANE J L. Buonocore Lecture. Placing dental composites: a stressful experience[J]. Oper Dent, 2008, 33(3): 247-257.
|
3 |
FERRACANE J L, MITCHEM J C. Relationship between composite contraction stress and leakage in Class V cavities[J].Am J Dent,2003,16(4):239-243.
|
4 |
GONÇALVES F, BOARO L C, FERRACANE J L, et al. A comparative evaluation of polymerization stress data obtained with four different mechanical testing systems[J].Dent Mater, 2012,28(6):680-686.
|
5 |
MEEREIS C T W, MÜNCHOW E A, DE OLIVEIRA DA ROSA W L, et al. Polymerization shrinkage stress of resin-based dental materials: a systematic review and meta-analyses of composition strategies[J]. J Mech Behav Biomed Mater, 2018, 82: 268-281.
|
6 |
WAN T, CHEN D J. Synthesis and properties of self-healing waterborne polyurethanes containing disulfide bonds in the main chain[J]. J Mater Sci, 2017, 52(1): 197-207.
|
7 |
ZHANG Y C, GONG H H, FENG D, et al. New strategy for overcoming microleakage: an elastic layer for dental caries restoration[J]. J Mater Chem B, 2015, 3(21): 4401-4405.
|
8 |
GUO X W, CHENG Q L, WANG H, et al. Synthesis, characterization, and aging resistance of the polyurethane dimethacrylate layer for dental restorations[J].Eur J Oral Sci, 2020,128(1):89-99.
|
9 |
GONG H H, GUO X W, CAO D F, et al. Photopolymerizable and moisture-curable polyurethanes for dental adhesive applications to increase restoration durability[J].J Mater Chem B, 2019,7(5):744-754.
|
10 |
LIU J C, HOWARD G D, LEWIS S H, et al. A study of shrinkage stress reduction and mechanical properties of nanogel-modified resin systems[J].Eur Polym J, 2012,48(11):1819-1828.
|
11 |
MORAES R R, GARCIA J W, BARROS M D, et al. Control of polymerization shrinkage and stress in nanogel-modified monomer and composite materials[J].Dent Mater, 2011,27(6):509-519.
|
12 |
PEREIRA I H, AYRES E, PATRÍCIO P S, et al. Photopolymerizable and injectable polyurethanes for biomedical applications: synthesis and biocompatibility[J].Acta Biomater, 2010,6(8):3056-3066.
|
13 |
CAO D F, ZHANG Y C, LI Y, et al. Fabrication of superhydrophobic coating for preventing microleakage in a dental composite restoration[J].Mater Sci Eng C Mater Biol Appl, 2017,78:333-340.
|
14 |
ROETERS F J, OPDAM N J, LOOMANS B A. The amalgam-free dental school[J].J Dent, 2004,32(5):371-377.
|
15 |
李之轶, 许乾慰. 可见光固化齿科充填复合树脂挠曲强度研究[J]. 上海塑料, 2005(1): 10-13.
|
16 |
MANNERBERG F. Isosit, a new material for restoration of anterior teeth[J].Quintessence Int Dent Dig,1977,8(8):23-32.
|
17 |
MORÃES R R, GARCIA J W, WILSON N D, et al. Improved dental adhesive formulations based on reactive nanogel additives[J].J Dent Res, 2012,91(2):179-184.
|
18 |
FRONZA B M, LEWIS S, SHAH P K, et al. Modification of filler surface treatment of composite resins using alternative silanes and functional nanogels[J]. Dent Mater, 2019, 35(6): 928-936.
|
19 |
菅晓霞, 宋育芳, 梁 益, 等. 聚氨酯型可自修复涂料的制备及性能研究[J]. 表面技术, 2020, 49(10): 247-252, 308.
|
20 |
ELLAKWA A E, SHORTALL A C, SHEHATA M K,et al. The influence of fibre placement and position on the efficiency of reinforcement of fibre reinforced composite bridgework[J].J Oral Rehabil, 2001,28(8):785-791.
|
21 |
INTERNATIONAL ISO STAN . Dentistry-resin based dental fillings[S].GVA:IX-ISO,2000.
|
22 |
BRAGA R R, FERRACANE J L. Alternatives in polymerization contraction stress management[J].Crit Rev Oral Biol Med,2004,15(3):176-184.
|
23 |
DEWAELE M, TRUFFIER-BOUTRY D, DEVAUX J,et al. Volume contraction in photocured dental resins: the shrinkage-conversion relationship revisited[J].Dent Mater, 2006,22(4):359-365.
|
24 |
STANSBURY J W, TRUJILLO-LEMON M, LU H, et al. Conversion-dependent shrinkage stress and strain in dental resins and composites[J].Dent Mater, 2005,21(1):56-67.
|
25 |
陈宏吉.不同修复材料用于前牙美容修复的远期对照研究[J].中国医学物理学杂志, 2018,35(7):865-868.
|