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Application of Nonwoven Geosynthetic Materials in Construction in Wetlands
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Arctic Building Material Reinforced by Composite Lattice Structure
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Arctic Building Material Reinforced by Composite Lattice Structure

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Abstract:

The issue of ice reinforcing by lattice anisogrid composite structures is considered in order to obtain new materials for Arctic use. The results of laboratory tests of breadboard models are obtained, the possibility of using an ice-composite construction material in conditions of the Far North is shown in principle. The questions of applicability of a new type of structures and possible directions of further research are touched upon.

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Periodical:

Materials Science Forum (Volume 945)

Pages:

15-19

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.945.15

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Online since:

February 2019

Authors:

A.F. Razin, A.A. Babichev, A.A. Skleznev

Keywords:

Anisogrid Lattice Structures, Ice, Polymer Composite, Pykrete

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© 2019 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] Vasiliev V.V., Barynin V.A., Razin A.F., Anisogrid composite lattice structures, Development and aerospace applications. Composite Structures. 94 (2012) 1117-1127.

DOI: 10.1016/j.compstruct.2011.10.023

Google Scholar

[2] Goncharova G.Yu., Nikiforova IG, Ustyugova TG, Razomasov N.D., Ice as a material for the Arctic. Conference Materials for technical devices and structures used in the Arctic,. Conference proceedings. Moscow, FSUE VIAM, 11/26/(2015).

Google Scholar

[3] Jia Hui Li, Zhen Wei, Chao Wu, Preparations and properties of novel building materials at low temperature. Materials and Design. 67 (2015) 464-468.

DOI: 10.1016/j.matdes.2014.10.040

Google Scholar

[4] Vasiliev N. K., Pronk A. D. C., Ice composites as construction materials in projects of ice structures. Paper presented at 23rd International Conference on Port and Ocean Engineering under Arctic Conditions (POAC '15), Trondheim, Norway. (2015).

Google Scholar

[5] Razin A.F., Skleznev A.A., Influence of the shape of the rib on the carrying capacity of anisogrid lattice structures. Collection of Proceedings of the 6th All-Russian Scientific Conference with International Participation. I.F. Obraztsova and Yu.G. Yanovsky Mechanics of composite materials and structures, complex and heterogeneous media,, Moscow. 1 (2016) 184-189.

Google Scholar

[6] Li Liang, Shkhinek K.N., The impact of ice on sloping structures, Engineering and Construction Journal. 1 (2014) 71-79.

Google Scholar

[7] Vasiliev V.V., Razin A.F., Skleznev A.A., Application of Lattice Composite Structures as Reinforcing Elements of Concrete Columns,17th European conference on composite materials ECCM17, At Munich, Deutschland, (2016).

Google Scholar

[8] Vasiliev V.V., Razin A.F., Skleznev A.A., Application on the Arctic shelf of composite concrete elements reinforced by lattice anisogrid structures. Conference Materials for technical devices and structures used in the Arctic,. Conference reports. Moscow. (2015).

Google Scholar