Analysis of Damage of Rubber Concrete in Freezing-thawing Circumstance

doi:10.3969/j.issn.1674-0696.2018.07.07

Abstract

Abstract: In order to reveal the damage law of rubber concrete under the effect of the freeze-thaw cycle, three volumes (10%, 20%, 30%) of rubber powder with particle size (20,40,80 mesh) were made of concrete for a rapid freezing and thawing test with ordinary concrete. The mass loss rate and the amount of freezing and thawing injury were selected for analysis. The results show that the particle size of the rubber powder has little effect on the mass loss rate at low dosage (10%) and is inversely proportional to the mass loss rate at higher content (20%, 30%).It also shows that the amount of freezing and thawing injury is inversely proportional to the volume of rubber powder under the same particle size, but the (30%-80 mesh) rubber powder is repelled by this method. The comprehensive analysis shows that the best content and the best particle size of the rubber power for rubber concrete based on frost resistance is 30%-20 mesh when the content is 10%~30% and the particle size is 80~20 mesh.The relationship between the mass of rubber concrete and the number of freeze-thaw cycles was obtained by regression analysis. Based on the verification of the model of concrete freeze-thaw damage, a quadratic equation model was given,which laid the foundation for quantitative analysis of the freeze-thaw damage of rubber concrete.

Key words: highway engineering, rubber concrete, freezing-thawing cycle;mass loss rate, damage of freezing-thawing cycle

摘要： 为揭示橡胶混凝土在冻融循环作用下的损伤规律，将3种粒径(20、40、80目)的橡胶粉等体积(10%、20%、30%)取代混凝土细骨料制成的橡胶混凝土同普通混凝土进行快速冻融试验。选取质量损失率和冻融损伤量两个指标进行分析。结果表明：橡胶粉的粒径在低掺量(10%)时对质量损失率的影响较小，在较高掺量(20%、30%)时与质量损失率成反比；同橡胶粉粒径下的冻融损伤量与橡胶粉掺量成反比，而高掺量、小粒径(30%-80目)的橡胶粉排斥此规律。综合分析可得：在掺量为10%~30%、粒径为80~20目范围内，橡胶粉掺量和粒径为30%-20目的橡胶混凝土抗冻性最佳。由回归分析得到拟合度较高的橡胶混凝土质量与冻融循环次数的函数关系；通过对混凝土冻融损伤量模型的验证，给出了一元二次方程模型，为橡胶混凝土冻融损伤定量化分析奠定基础。

关键词: 道路工程, 橡胶混凝土, 冻融循环, 质量损失率, 冻融损伤量

CLC Number:

GUO Qi,CUI Shengchao,WU Han. Analysis of Damage of Rubber Concrete in Freezing-thawing Circumstance[J]. Journal of Chongqing Jiaotong University(Natural Science), 2018, 37(07): 40-45.

郭琦，崔胜超，仵晗. 橡胶混凝土冻融损伤分析[J]. 重庆交通大学学报（自然科学版）, 2018, 37(07): 40-45.

References

［1］杨春峰，叶文超，杨敏.废旧橡胶混凝土的耐久性研究进展［J］.混凝土，2012(4)：61-63.
YANG Chunfeng,YE Wenchao, YANG Min, et al. Research progress on durability of waste rubber concrete［J］.Concrete,
2012(4):61-63.
［2］牛荻涛.混凝土结构耐久性与寿命预测［M］.北京：科学出版社，2003.
NIU Ditao.Durability and Life Forecast of Reinforced Concrete Structure［M］. Beijing: Science Press,2003.
［3］张艳聪，韩丽君，高玲玲.高频振动对引气混凝土引气参数和抗冻能力的影响［J］.重庆交通大学学报(自然科学版)，2013，32(3)：
410-414.
ZHANG Yancong, HAN Lijun, GAO Lingling.Effect of high frequency vibration on air-entraining parameters and freezing
resistance of the air entrained concrete［J］.Journal of Chongqing Jiaotong University(Natural Science),2013,32
(3):410-414.
［4］张辉，潘友强，张健，等.水泥混凝土抗盐冻性能影响因素研究［J］.重庆交通大学学报(自然科学版)，2013，32(4)：597-600.
ZHANG Hui, PAN Youqiang, ZHANG Jian,et al.Influence factors of frost-salt resistance of cement concrete［J］.Journal
of Chongqing Jiaotong University(Natural Science),2013,32(4):597-600.
［5］ PAINE K A,DHIR R K,MORONEY R, et al. Use of crumb rubber to achieve freeze/thaw resisting concrete［J］.
Research in Immunology,2002, 143(1): 107-115.
［6］李光宇.橡胶粉混凝土抗冻性能试验研究［J］.混凝土，2008(4)：60-62.
LI Guangyu. Experimental study on frost-resistance properties of powered rubber concrete［J］.Concrete, 2008(4):60-62.
［7］徐金花，冯夏庭，陈四利.橡胶集料对混凝土抗冻性的影响［J］.东北大学学报(自然科学版)，2012，33(6)：895-898.
XU Jinhua,FENG Xiating, CHEN Sili, et al. Effect of rubber aggregate on frost resistance of concrete［J］. Journal of
Northeastern University(Natural Science),2012, 33(6):895-898.
［8］季卫娟.改性橡胶混凝土的抗冻性能研究［D］.郑州：郑州大学，2015：33-38.
JI Weijuan. Study on Frost Resistance of Modified Rubber Concrete［D］.Zhengzhou:Zhenzhou University, 2015:33-38.
［9］汪振双，苏昊林.冻融条件下再生橡胶混凝土损伤演变与强度相关性研究［J］.硅酸盐通报，2016，35(12)：4286-4291.
WANG Zhenshuang, SU Haolin. Correlation between recycled rubber concrete strength and damage evolution in freeze thaw
cycles［J］. Bulletin of The Chinese Ceramic Society,2016,35(12):4286-4291.
［10］中国建筑科学研究院.普通混凝土长期性能和耐久性能试验方法标准：GB/T 50082—2009［S］.北京：中国建筑工业出版社，2009.
China Academy of Building Research.Standard for Test Methods of Long-term Performance and Durability of Ordinary
Concrete: GB/T 50082—2009［S］.Beijing: China Building Industry Press,2009.
［11］余寿文，冯西桥.损伤力学［M］.北京：清华大学出版社，1997.
YU Shouwen,FENG Xiqiao.Damage Mechanics［M］. Beijing:Tsinghua University Press,1997.
［12］刘崇熙，汪在芹.坝工混凝土耐久寿命的衰变规律［J］.长江科学院院报，2000，17(2)：18-22.
LIU Congxi,WANG Zaiqin. On decay rules of durable life of dam concrete［J］. Journal of Yangtze River Scientific
Research Institute, 2000,17(2):18-22.
［13］余红发，孙伟，金祖权，等.土木工程结构混凝土寿命预测的损伤演化方程［J］.东南大学学报(自然科学版)，2006，36(增刊2)：
216-220.
YU Hongfa,SUN Wei, JIN Zuquan, et al. Damage evolution equation for service life prediction of concrete structures in
key civil engineering［J］. Journal of Southeast University(Natural Science Edition),2006,36(Sup2):216-220.

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