糯米浆温度对糯米灰浆加固遗址土的影响

doi:10.13722/j.cnki.jrme.2017.0437

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摘要

糯米灰浆在我国土遗址修复中有着巨大的应用前景。糯米浆的温度对糯米灰浆加固遗址土的效果有一定影响。试验从温度的角度出发来寻找煮糯米浆的控制指标，目的在于节约时间同时获得具有显著加固效果的糯米浆。试验从硬度、纵波波速、无侧限抗压强度三方面说明糯米浆温度在75 ℃～80 ℃范围时糯米灰浆加固遗址土的效果相对较好；当糯米浆浓度为6%时，改良遗址土样的硬度、纵波波速、无侧限抗压强度的值均相对较大；在自然条件下养护5 d时，土样表面硬度值基本趋于稳定。最后结合糯米浆的黏度、化学物理作用等方面对试验现象进行了合理解释。

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	谌文武1
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关键词 ：土力学, 糯米灰浆, 遗址土, 硬度, 纵波波速, 无侧限抗压强度

Abstract：

Sticky rice-lime mortar has great application potential in repairation of Chinese heritage sites. The reinforcement of site soil has been certain influenced by the temperature of glutinous rice slurry. Therefore from the temperature point，the control index of making glutinous rice slurry is investigated. The aim is to save time and gain the desired glutinous rice slurry with obvious reinforcement effect. From the aspects of hardness，longitudinal wave velocity and unconfined compressive strength，the performance of site soil reinforced by glutinous rice slurry can be superior between 75 ℃ and 80 ℃. When the concentration of glutinous rice slurry equals to 6%，the reinforced site soil has larger hardness，longitudinal wave velocity and unconfined compressive strength. Cured five days under natural environment，the hardness of sample surface basically tends to be stable. Finally，based on the viscosity，physical and chemical property of glutinous rice slurry，the test results has been explained reasonably.

Key words： soil mechanics sticky rice-lime mortar site soil hardness longitudinal wave velocity unconfined compressive strength

引用本文:

谌文武1，2，张起勇1，2，刘宏伟1，2，杨朋朋1，2. 糯米浆温度对糯米灰浆加固遗址土的影响[J]. 岩石力学与工程学报, 2017, 36(S2): 4244-4250.
CHEN Wenwu1，2，ZHANG Qiyong1，2，LIU Hongwei1，2，YANG Pengpeng1，2. Influence of temperature on glutinous rice slurry strengthening site soil by sticky rice-lime mortar. , 2017, 36(S2): 4244-4250.

链接本文:

https://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2017.0437 或 https://rockmech.whrsm.ac.cn/CN/Y2017/V36/IS2/4244

[1]	李祖光，方世强，魏国锋，等. 无机添加剂对糯米灰浆性能影响及机制研究[J]. 建筑材料学报，2013，16(3)：462-468.(LI Zuguang，FANG Shiqiang，WEI Guofeng，et al. Influence of inorganic admixture on performance of sticky rice-lime mortar and its mechanism[J]. Journal of Building Materials，2013，16(3)：462-468.(in Chinese))
[2]	吴庆洲. 射洪县太和镇古城[J]. 四川文物，1988，(1)：26-30.(WU Qingzhou. The old city of Taihe town in Hongshe Country[J]. Sichuan Cultural Relics，1988，(1)：26-30.(in Chinese))
[3]	申秀英，刘沛林，LIUAbby. 开平碉楼景观的类型、价值及其遗产管理模式[J]. 湖南文理学院学报：社会科学版，2006，31(4)：95-99.(SHEN Xiuying，LIU Peilin，LIU Abby. Type，value and heritage management model of Diao Tower in Kaiping[J].Journal of Hunan University of Arts and Science：Social Science，2006，31(4)：95-99.(in Chinese))
[4]	蔡济世. 资源型生态圆土楼[J]. 建筑学报，1995，(5)：42-44.(CAI Jishi. The resources typical and ecological round the earth building[J].Architectural Journal，1995，(5)：42-44.(in Chinese))
[5]	杨富巍，张秉坚，曾余瑶，等. 传统糯米灰浆科学原理及其现代应用的探索性研究[J]. 故宫博物院院刊，2008，(5)：105-114.(YANG Fuwei，ZHANG Bingjian，ZENG Yuyao，et al. A exploratory study of traditional rice-lime mortar on its scientific principle and modern applications[J].Palace Museum Journal，2008，(5)：105-114.(in Chinese))
[6]	ZENG YY. A case study and mechanism investigation of typical mortars used on ancient architecture in China[J]. Thermochimica Acta 2008，473(1/2)：1-6.
[7]	YANG FW，ZHANG BJ，MA QL.Study of sticky rice-lime mortar technology for the restoration of historical masonry construction[J]. Accounts of Chemical Research，2010，43(6)：936-944.
[8]	彭红涛，张琪，李乃胜，等. 糯米浆对土遗址修复用三合土性能的影响[J]. 建筑材料学报，2011，14(5)：718-722.(PENG Hongtao，ZHANG Qi，LI Naisheng，et al. Effect of sticky rice paste on properties of tabia used to repair ancient earthen ruins[J].Journal of Building Materials，2011，14(5)：718-722.(in Chinese))
[9]	纪晓佳，宋茂强，庞苗. 糯米浆三合土的物理力学性能试验研究[J]. 建筑技术，2013，44(6)：540-543.(JI Xiaojia，SONG Maoqiang，PANG Miao. Experimental study on physical and mechanical properties of sticky rice-lime mortar[J]. Architecture Technology，2013，44(6)：540-543.(in Chinese))
[10]	魏国锋，周虎，方世强，等.石灰种类对传统糯米灰浆性能的影响[J]. 建筑材料学报，2015，18(5)：873-878.(WEI Guofeng，ZHOU Hu，FANG Shiqiang，et al. Effect of lime type on properties of traditional sticky rice-lime mortar[J]. Journal of Building Materials，2015，18(5)：873-878.(in Chinese))
[11]	胡再强，于淼，李宏儒，等. 人工制备遗址土力学特性试验研究[J]. 岩石力学与工程学报，2016，35(9)：1 914-1 923.(HU Zaiqiang，YU Miao，LI Hongru，et al. Experimental study on characteristics of artificial soil ruins[J]. Chinese Journal of Rock Mechanics and Engineering，2016，35(9)：1 914-1 923.(in Chinese))
[12]	杨富巍，张秉坚，潘昌初，等. 以糯米灰浆为代表的传统灰浆——中国古代的重大发明之一[J]. 中国科学(E辑：技术科学)，2009，39(1)：1-7.(YANG Fuwei，ZHANG Bingjian，PAN Changchu，et al. Traditional mortar represented by sticky rice lime mortar-one of the great inventions in ancient China[J]. Science in China Series E：Technological Sciences，2009，39(1)：1-7.(in Chinese))
[13]	周建基，梁收运，张帆宇，等. 石灰改良黄土的工程特性试验研究[J]. 铁道建筑，2014，(9)：105-108.(ZHOU Jianji，LIANG Shouyun，ZHANG Fanyu，et al. Experimental study on engineering performances of lime-stabilized loess[J]. Railway Engineering，2014，(9)：105-108.(in Chinese))
[14]	荣瑞萍，叶英旭. 淀粉类浆料的黏度测定[J]. 棉纺织技术，1999，27(9)：9-12.(RONG Ruiping，YE Yingxu. Test of viscosity on starch size[J]. Cotton Textile Technology，1999，27(9)：9-12.(in Chinese))
[15]	武望婷，何海平. 古城墙黏合剂之一糯米粉糊化及剥离强度研究[J]. 中国文物科学研究，2014，(4)：57-60.(WU Wangping，HE Haiping. A study of the gelatinization of glutinous rice as adhesive and its degree of peeling off[J]. China CulturalHeritageScientificResearch，2014，(4)：57-60.(in Chinese))
[16]	张金风. 硬度测量在土遗址保护中的应用问题[J]. 中国文物科学研究，2013，(4)：66-70.(ZHANG Jinfeng. The application of hardness test on consolidation of earthen sites[J].China Cultural Heritage Scientific Research，2013，(4)：66-70.(in Chinese))
[17]	黄岩. 糯米粉特性与汤圆品质的相关性研究[硕士学位论文][D].无锡：江南大学，2014.(HANG Yan. Study on the correlation of characteristic of waxy rice flour and rice dough[M. S. Thesis][D].Wuxi：Jiangnan University，2014.(in Chinese))
[18]	沈明荣. 岩体力学[M]. 上海：同济大学出版社，1999：14-16.(SHEN Mingrong. Rockmassmechanics[M]. Shanghai：Tongji University Press，1999：14-16.(in Chinese))
[19]	YU L，CHARISTIE G. Microstructure and mechanical properties of orientated thermoplastic starches[J]. Journal of Materials Science，2005，40(1)：111-116.