聚脲改性环氧树脂砂浆修补力学性能及配比优化方法
Mechanical Properties and Ratio Optimization Method of Repair Specimens of Polyurea Modified Epoxy Resin Mortar
唐凯 1贾超 2魏思琦 3沈才华 4邱志康4
作者信息
- 1. 保利长大海外工程有限公司,广州 510623
- 2. 中交隧桥(南京)技术有限公司,南京 211800
- 3. 中国铁塔股份有限公司,合肥 230000
- 4. 河海大学土木与交通学院,南京 210098
- 折叠
摘要
引入高韧性聚脲改性环氧树脂砂浆,采用正交单因素分析法分析了聚脲掺量和环灰比对改性环氧树脂砂浆抗折强度、抗压强度、粘结强度的影响规律,揭示了聚脲掺量和环灰比对改性环氧树脂砂浆粘结强度的高斯分布型敏感性影响特征.研究表明:少量聚脲的引入延长了环氧砂浆的凝结时间,降低了收缩率,可有效提高修补材料的抗折强度、粘结强度和韧性;聚脲掺量在10%时,相比于普通环氧树脂砂浆其韧性和粘结强度最高增加了 40%和39.3%.基于环灰比和聚脲掺量对砂浆粘结强度影响规律的拟合函数,提出了以粘结强度为约束条件,以经济性为优化目标的聚脲改性环氧树脂砂浆配比优化方法,研究成果为新型少量聚脲改性环氧树脂砂浆的推广使用提供了理论依据.
Abstract
The high toughness polyurea modified epoxy resin mortar was introduced,and orthogonal one-way analysis was used to analyse the effects of polyurea dosing and cyclic ash ratio on the flexural strength,compressive strength and bond strength of modified epoxy resin mortar,revealing the characteristics of Gaussian distribution type sensitivity of the effect of polyurea dosing and cyclic ash ratio on the bond strength of modified epoxy mortar.The results show that,the introduction of a small amount of polyurea prolongs the setting time of epoxy mortar and reduces its shrinkage,which can effectively improve the flexural strength,bond strength and toughness of the repair material.Compared with ordinary ep-oxy mortar,when the polyurea doping reaches 10%,its toughness and bond strength increases by up to 40%and 39.3%,respectively.Based on the fitting function of the ring-ash ratio and polyurea dosage on the mortar bond strength influence law,an optimisation method of polyurea modified epoxy resin mortar proportioning with bond strength as the constraint and economy as the optimisation target is proposed,and the research results provide a theoretical basis for the popularisation of the use of a new type of small amount of polyurea modified epoxy resin mortar.
关键词
隧道衬砌/聚脲/环氧树脂/修补砂浆/增韧Key words
tunnel lining/polyurea/epoxy resin/repair mortar/toughening引用本文复制引用
基金项目
国家自然科学基金(52278400)
国家自然科学基金(41830110)
中交养护集团重大科技研发项目(2020)(27100020Y251)
中交养护集团重大科技研发项目(2020)(27100020Y248)
江苏省交通厅科技项目(2022Y04)
出版年
2024
NETL
NSTL
万方数据