MODELING OF STRESS-STRAIN STATE OF HIGH-RISE BUILDING PILE RAFT FOUNDATION WITH INCOMPLETE PILE INSTALLATION

The object of the study is a pile-raft foundation or mat foundation 180 cm thick of a 25-storey building made of a reinforced concrete frame. When constructing a pile foundation, some of piles are not completely sank down to the reference points. In this connection, it is necessary to identify the reasons and load-bearing capacity of piles, given the soil compaction between piles and under their tips and the possibility of using such piles for further building construction.

After studying the materials of soil investigation, the analysis of occurrence, composition, physical-mechanical properties of soils, and the pile field, the stress-strain state model is developed for the pile-raft foundation using the MicroFe software application with the development of design model for the foundation-base-building system.

In the compacted soil state between the piles and under the pile tips, the conditions of the ultimate and service limit states are met at the actual depth of pile sinking for the raft foundation. 

1. Shcherbak G.G. Teoreticheskie osnovy gravitatsionnogo uplotneniya i formirovaniya fizikomekhanicheskikh svoistv gornykh porod [Theory of gravitational compaction and formation of physical and mechanical properties of rocks]. In: RAN. Sergievskie chteniya (Proc. Annu. Sci. Conf.), Moscow. 2002. No. 4. Pp. 83−88. (rus)

2. Shashkin V.A. Effekty vzaimodeistviya osnovanii i sooruzhenii [Interaction between foundations and structures]. Razvitie gorodov i geotekhnicheskoe stroitel'stvo. 2012. No. 14. Pp. 141−167. (rus)

3. Shashkin A.G., Shashkin K.G. Vzaimodeistvie zdaniya i osnovaniya: metodika rascheta i prakticheskoe primenenie pri proektirovanii [Building and foundation interaction: calculation methodology and practical application in design]. V.M. Ulitskii, ed., St.-Petersburg: Stroiizdat, 2002. 48 p. (rus)

4. Shulyat'ev O.A. Osnovaniya i fundamenty vysotnykh zdanii [Bases and foundations of high-rise buildings]. Moscow, 2016. 392 p. (rus)

5. Shulyat'ev O.A. Fundamenty vysotnykh zdanii [Foundations of high-rise buildings]. Vestnik PNIPU. Stroitel'stvo i arkhitektura. 2014. No. 4. Pp. 202−244. (rus)

6. Karpenko N.I., Karpenko S.N., Kuznetsov E.N. O sovremennykh problemakh rascheta vysotnykh zdanii iz monolitnogo zhelezobetona [Modern problems of structural analysis of high-rise building of insitu reinforced concrete]. In: II Vseros. (Mezhdunar.) konf. “Beton i zhelezobeton – puti razvitiya”, v pyati knigakh. (Proc. 2nd Int. Sci. Conf. ‘Concrete and Reinforced Concrete - Glance at Future’), in 5 vol., Moscow, 2005. V. 1. Pp. 149−166. (rus)

7. Kabantsev O.V., Tamrazyan A.G. Uchet izmenenii raschetnoi skhemy pri analize raboty konstruktsii [Consideration of changes in design diagram in structural analysis]. Inzhenernostroitel'nyi zhurnal. 2014. No. 5. Pp. 15−26. (rus)

8. Almazov V.O., Klimov A.N. Eksperimental'noe issledovanie napryazhenno-deformirovannogo sostoyaniya konstruktsii vysotnogo zdaniya [Experimental investigation of stress-strain state of high-rise buildings]. Vestnik MGSU. 2013. No. 10. Pp. 102−109. (rus)

9. Nuzhdin L.V., Mikhailov V.S. Chislennoe modelirovanie svainykh fundamentov v raschetnoanaliticheskom komplekse SCAD Office [Creation of solid 3D CAD pile foundations in SCAD software]. Vestnik PNIPU. Stroitel'stvo i arkhitektura. 2018. No. 1. Pp. 5−18. (rus)

10. Mikhailov V.S., Teplykh A.V. Uchet kharakternykh osobennostei razlichnykh modelei osnovaniya pri raschete vzaimnogo vliyaniya zdanii na bol'shikh fundamentnykh plitakh s ispol'zovaniem raschetno-analiticheskoi sistemy SCAD Office [Allowing for characteristics of various design models in calculating mutual influence of buildings on pile-raft foundation in SCAD software]. In: VI Mezhdunarodnyi simpozium. Aktual'nye problemy komp'yuternogo modelirovaniya konstruktsii i sooruzhenii (Proc. 6th Int. Sci. Symp. ‘Relevant Computer Modeling Problems of Structures’).Vladivostok, 2016. Pp. 133−134. (rus)

11. MicroFe-SDK. Programmnyi kompleks konechno-elementnykh raschetov prostranstvennykh konstruktsii na prochnost', ustoichivost' i kolebaniya [MicroFe-SDC software application for finiteelement strength, stability and vabration analyses]. 2015. Available: www.tech-soft.ru (rus)

12. Yushchube S.V., Podshivalov I.I., Filippovich A.A., Tryapitsin A.E. Modelirovanie napryazhenno-deformirovannogo sostoyaniya kirpichnogo zdaniya povyshennoi etazhnosti na svainom fundamente [Stress-strain state modeling of high-rise brick building on pile foundation]. Vestnik grazhdanskikh inzhenerov. 2018. No. 4 (69). Pp. 72−77. (rus)