电邮这篇文章 Assessing interaction between the components in the soil–cement composite model
- 作者: Kutergin V.N.1, Karpenko F.S.1, Frolov S.I.1
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隶属关系:
- Sergeev Institute of Environmental Geoscience of the Russian Academy of Sciences
- 期: 编号 6 (2024)
- 页面: 58-66
- 栏目: SOIL AND ROCK ENGINEERING AND MECHANICS
- URL: https://journal-vniispk.ru/0869-7809/article/view/288823
- DOI: https://doi.org/10.31857/S0869780924060063
- EDN: https://elibrary.ru/ALUETY
- ID: 288823
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详细
Soil massifs have close contact with foundations, piles, enclosing and fixing structures (anchors, dowels, retaining walls), as well as reinforcing soil during grouting with injection veins. Many bodies are composed of hardening cement that has an interfacial boundary with the soil. The soil–material system can be considered as a composite, in which the components exhibit new qualities when interacting. Experimental studies of cement interaction with enclosing fine soil and hard rock have been performed. The interaction specifics controlled by the material, the concentration of the binder, the surface type, watering, as well as mutual penetration of cement and enclosing rocks are studied. Special methods of shear testing based on soil samples of pile models made of cement material have been developed. The results of studying the effect of smooth and rough surfaces upon waterlogging are presented; the values of friction coefficients, contact cohesion, and stickiness are given. A dependence is proposed for determining the limit shear stresses of composite models upon the contact between sands and hard rocks with the material of dies. For rocks in which the hardening of the pile material was modeled, the values of the limit stresses and shear strain modulus were obtained depending on the binder concentration in the cement mortar.
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作者简介
V. Kutergin
Sergeev Institute of Environmental Geoscience of the Russian Academy of Sciences
编辑信件的主要联系方式.
Email: kvan20@bk.ru
俄罗斯联邦, Bldg. 2, 13, Ulansky Lane, Moscow, 101000
F. Karpenko
Sergeev Institute of Environmental Geoscience of the Russian Academy of Sciences
Email: kvan20@bk.ru
俄罗斯联邦, Уланский пер. 13, стр. 2, Москва, 101000
S. Frolov
Sergeev Institute of Environmental Geoscience of the Russian Academy of Sciences
Email: kvan20@bk.ru
俄罗斯联邦, 3, Ulansky Lane, Moscow, 101000
参考
- Derkach, V.N. [Tangential cohesion strength of cement mortars in masonry]. Inzhenerno-stroitel’nyi zhurnal, 2012, no. 3, pp. 19–28. (in Russian)
- Kutergin, V.N., Afonin, A.P., Kal’bergenov, R.G. [Comprehensive studies of ground properties in the foundations of high-rise structures]. Unikal’nye i spetsial’nye tekhnologii v stroitel’stve. Moscow, IEG RAS, 2006, no. 1(4), pp. 78–83. (in Russian)
- Kutergin, V.N., Frolov, S.I. [Special laboratory studies of soil properties]. Promyshlennoe i grazhdanskoe stroitel’stvo, 2003, no. 10, pp. 19–21. (in Russian)
- Petrukhin, V.P., Shulyat’ev, O.A. [Geotechnical features of the design and construction of high-rise buildings in Moscow]. In: [Russian architectural and building encyclopedia, vol. XIII. Construction of high-rise buildings]. Moscow, VNIINTPI Publ., 2010, pp. 360–378. (in Russian)
- Petrukhin, V.P., Shulyat’ev, O.A., Mozgacheva, O.A. [Scientific and technical support for geotechnical design and construction of high-rise buildings. Monitoring]. In: [Russian architectural and building encyclopedia, vol. XIII. Construction of high-rise buildings]. Moscow, VNIINTPI Publ., 2010, pp. 336–360. (in Russian)
- [Recommendations for determining the stickiness of soils in stationary laboratories and field conditions]. PNIIIS Gosstroy USSR. Moscow, Stroyizdat Publ., 1983, 32 p. (in Russian)
- Shulyat’ev, O.A. [Foundations of high-rise buildings]. Vestnik PNIPU Stroitel’stvo i arkhitectura, 2014, no. 4, pp. 202–244. (in Russian)
- Kutergin, V.N., Kal’bergenov, R.G., Karpenko, F.S., Merzlyakov, V.P. Deformation properties of the “voskresensky shale” composite series. Soil Mechanics and Foundation Engineering, 2016, vol. 52, no.6, pp. 335–342. (in Russian)
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