聚酰胺热熔胶水泥砂浆的基本性能研究_《混凝土与水泥制品》杂志社

头部文案

发布时间：2020-01-06 00:00:00

全国建材科技期刊
全国中文核心期刊
中国科技论文统计源期刊
万方数据-数字化期刊群入网期刊
中国学术期刊（光盘版）全文收录期刊

华东地区优秀科技期刊
江苏省期刊方阵“双效期刊”
中国期刊网全文收录期刊
中国科技期刊数据库全文收录期刊



聚酰胺热熔胶水泥砂浆的基本性能研究

Study on Basic Performance of Cement Mortar with Polyamides (PA) Hot-melt Adhesive

２０16年第2期

PA热熔胶；力学性能；耐久性能；热循环；自修复

PA hot-melt adhesive; Mechanical property; Durability; Heat cycle; Self-healing

２０16年第2期

1000-4637（2016）02-06-05

中国博士后基金项目（2013M531875）；国家自然科学基金项目（51308344）。

袁雄洲1,3，孙伟2，邢锋1,3，徐畏婷1

1. 深圳信息职业技术学院，518172；2. 东南大学材料科学与工程学院，南京 211189； 3. 深圳大学土木工程学院，518060

袁雄洲1,3，孙伟2，邢锋1,3，徐畏婷1

浏览量:

1000

摘要：形状记忆合金（SMA）驱动下热熔胶水泥基材料具有优良的自修复能力。本文对聚酰胺热熔胶水泥砂浆（PA砂浆）的工作性能、力学性能和耐久性能以及处于多次热循环条件下PA砂浆的力学性能及耐久性能进行了研究。结果表明，体积掺量1%、3%和5%热熔胶的掺入没有降低砂浆的工作性能，反而有略微的提升；随聚酰胺（PA）掺量的增加，砂浆的抗压强度和抗渗性能略有下降，而抗折强度随掺量的增加先增后减；热循环环境中PA水泥砂浆的力学性能与耐久性能都得到了很大的提升，说明PA水泥砂浆在常温马氏体状态、具有预应变的SMA的驱动下具备反复修复水泥基裂缝的潜力。Abstract:Recentresearchesresultsshowthat,whendrivenbyshapememoryally(SMA),hot-meltadhesivehavegoodself-healingproperties.Inthisarticle,theeffectsofaddingPAhot-meltadhesiveonthepropertiesofcementmortar,suchasworkingperformance,macroscopicmechanicalpropertiesanddurabilitywereinvestigated.Andthermalpropertiesofhot-meltadhesivecontainedcementmortarwerealsostudied.Experimentalresultsshowthathot-meltadhesivecanimprovetheworkabilityofmotar,andthepromotioneffectwillbeenhancedbytheincreaseofhot-meltadhesivedosage.However,theadditionofhot-meltadhesivewillleadtothedegradationofcompressivestrengthanddurability.Moreover,theappropriatecontentofthehot-meltadhesive(Vf<5%)canconsiderablyimprovetheflexuralstrengthofspecimens.Incontrasttoordinarycement-basedmaterials,macroscopicmechanicalproperties,especiallytoughness,anddurabilityofspecimenscontaininghot-meltadhesivearegreatlyenhancedafterbeingexposedtothermalcyclicenvironments.SoaconclusioncanbedrawnthatPAhot-meltadhesivemayrepaircrackincementitiousmaterialsrepeatedlycoupledwithSMA.

英文名 : Study on Basic Performance of Cement Mortar with Polyamides (PA) Hot-melt Adhesive

刊期 : ２０16年第2期

关键词 : PA热熔胶；力学性能；耐久性能；热循环；自修复

Key words : PA hot-melt adhesive; Mechanical property; Durability; Heat cycle; Self-healing

刊期 : ２０16年第2期

DOI :

文章编号 : 1000-4637（2016）02-06-05

基金项目 : 中国博士后基金项目（2013M531875）；国家自然科学基金项目（51308344）。

作者 : 袁雄洲1,3，孙伟2，邢锋1,3，徐畏婷1

单位 : 1. 深圳信息职业技术学院，518172；2. 东南大学材料科学与工程学院，南京 211189； 3. 深圳大学土木工程学院，518060

袁雄洲1,3，孙伟2，邢锋1,3，徐畏婷1





摘要

参数

结论

参考文献

引用本文

Abstract: Recent researches results show that, when driven by shape memory ally (SMA), hot-melt adhesive have good self-healing properties. In this article, the effects of adding PA hot-melt adhesive on the properties of cement mortar, such as working performance, macroscopic mechanical properties and durability were investigated. And thermal properties of hot-melt adhesive contained cement mortar were also studied. Experimental results show that hot-melt adhesive can improve the workability of motar, and the promotion effect will be enhanced by the increase of hot-melt adhesive dosage. However, the addition of hot-melt adhesive will lead to the degradation of compressive strength and durability. Moreover, the appropriate content of the hot-melt adhesive (Vf<5%) can considerably improve the flexural strength of specimens. In contrast to ordinary cement-based materials, macroscopic mechanical properties, especially toughness, and durability of specimens containing hot-melt adhesive are greatly enhanced after being exposed to thermal cyclic environments. So a conclusion can be drawn that PA hot-melt adhesive may repair crack in cementitious materials repeatedly coupled with SMA.

关键词:

PA热熔胶；力学性能；耐久性能；热循环；自修复

扫二维码用手机看

[1] X. F. Wang, F. Xing, M. Zhang, et al. Experimental Study on Cementitious Composites Embedded with Organic Microcapsules[J]. Materials, 2013(6): 4064-4081.

[2] Y. C. Kuang, J. P. Ou. Self-repairing performance of concrete beams strengthened using superelastic SMA wires in combination with adhesives released from hollow fibers. Smart Materials and Structures [J]. Cement and Concrete Research, 2008(17):1-7.

[3] R. X. Wang, C. X. Qian. In situ Restoration of the Surface Defects on Cement-based Materials by Bacteria Mineralization with Spraying Method [J]. Journal of Wuhan University of Technology, 2014, 29(3): 518-526.

[4] 袁雄洲. 热熔胶水泥基材料裂缝自修复性能、机理与耐久性寿命预测[D]. 南京: 东南大学, 2012.

[5] D. P. Bentz, J. R. Clifton, C. F. Ferraris and E. J. Garbaczi. Transport properties and durability of concrete: literature review and research plan[R]. NISTIR6395. Building and Fire Research Laboratory, National Institute of Standard and Technology, September 1999.

[6] Z. K. Khatib, F. M. Bayomy. Rubberized portland cement concrete [J]. Journal of Materials in Civil Engineering, 1999, 11(3): 206-213.

[7] E. Guneyisi, M. Gesolu, T. Ozturan. Properties of rubberized concretes containing silica fume [J]. Cement and Concrete Research, 2004 (34): 2309-2317.

[8] 黄士元. 近代混凝土技术[M]. 西安: 陕西科学技术出版社, 2002.

[9] K. R. Wu, J. H. Zhou. The influence of the matrix-aggregate bond on the strength and brittleness of concrete [A]. Bonding in Cementitious Composites (MRS Vol 114) [C]. Pittsburgh: Materials Research Society, 1988: 29-34.

[10] Z. Y. Chen, J. G. Wang. Effect of bond strength between aggregate and cement paste on the mechanical behavior of concrete [A]. Bonding in Cementitious Composites (MRS Vol 114) [C]. Pittsburgh: Materials Research Society, 1988: 41-48.

[11] E. A. Bentur, M. G. Alexander. A review of the work of the RILEM TC 159 - ETC: engineering of the interfacial transition zone in cementitious composites [J]. Material Structure, 2000, 33(226): 82-87.

上一个

机制砂混凝土可泵性影响因素研究

下一个

基于压电智能骨料的混凝土强度监测方法研究

头部文案

聚酰胺热熔胶水泥砂浆的基本性能研究

相关文件