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Erschienen in:
Bearing Capacity Mechanism of Geocell Reinforced Soil Foundations Kapitel lesen Erstes Kapitel lesen

2020 | OriginalPaper | Buchkapitel

Conservation of Mineral Resources in Transport and Civil Construction

verfasst von : Marina Baydarashvili, Antonina Sakharova, Natalia Shrednik

Erschienen in: Transportation Soil Engineering in Cold Regions, Volume 2

Verlag: Springer Singapore

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Abstract

Mineral resources conservation has been gaining importance in transport and civil construction, including in cold climates. Numerous experiments have established that conservation of mineral resources is possible when using silicic acid nano-solution at the stage of production of cement-base building systems. Some resource-saving technological decisions are present. The article presents the calculated data on the economy of natural resources using these decisions. Resource consumption coefficient is offered. This coefficient determines natural raw materials efficiency. There is another way to preserve natural resources—geoecoprotective decoration of white cement construction products. This decision involves the use of colored solutions of metals instead of the natural mineral pigment. The calculation of the mineral coloring component consumption per 1 m3 of the concrete product was carried out. The valuation showed that the use of colored solutions when painting the surface of the product significantly reduces the cost of natural mineral raw materials.

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Vorheriges Kapitel The Method of Producing Non-autoclaved Foam Concrete Based on Polymers for the Construction of Various Road Structures in Cold Regions
Nächstes Kapitel The Acceleration of Hardening of Non-autoclaved Foam Concrete with the Mechano-Activated Binder When Constructing in the Arctic and Cold Regions
Literatur
1.
Svatovskaya L, Sychova A, Sychov M, Okrepilov V (2016) New parameter of geoecological protective ability of construction articles. MATEC Web Conf 53:01024CrossRef
2.
Svatovskaya L, Sychov A, Sychov M, Okrep V (2016) Quality improvement of concrete articles. MATEC Web Conf 53:01023CrossRef
3.
Sakharova A, Svatovskaya L, Baidarashvili M, Petriaev A (2016) Sustainable development in transport construction through the use of the geoecoprotective technologies. Procedia Eng 143:1401–1408CrossRef
4.
Svatovskaya LB, Kabanov AA, Sychov MM (2017) The improvement of foam concrete geoecoprotective properties in transport construction. In: IOP conference series: earth and environmental science, p 90
5.
Sychova A, Sychov M, Rusanova EA (2017) Method of obtaining geonoiseprotective foam concrete for use on railway transport. Procedia Eng 189:681–687CrossRef
6.
Sychova A, Solomahin A, Hitrov A (2017) The increase of the durability and geoprotective properties of the railway subgrade. Procedia Eng 189:688–694CrossRef
7.
Svatovskaya LB, Shershneva MV, Baidarashvili MM, Yakimova NI, Khitrov AV (2004) Foam concrete construction demolished waste. In: Proceedings of the international conference on sustainable waste management and recycling: construction demolition waste London, pp 199–203
8.
Svatovskaya LB, Sakharova AS, Baidarashvili MM, Petriaev AV (2015) Building wastes and cement clinker using in the geoecoprotective technologies in transport construction. In: Proceedings of the 14th international conference, computer methods and recent advances in geomechanics, pp 619–622. Taylor and Francis—Balkema, Netherlands
9.
Maisuradze N (2006) Use of burnt earth in asphalt mixtures. Izvestiya KGASU 5:39–41
10.
Hossain MU, Xuan D, Poon CS (2017) Sustainable management and utilization of concrete slurry waste: a case study in Hong Kong. Waste Manag 61:397–404CrossRef
11.
Gajendran KA, Anuradha R, Venkatasubramanf GS (2016) Strength study on eco friendly high performance concrete by replacing the cement by flyash, silica fume and metakaolin. Asian J Microbiol Biotechnol Environ Exp Sci 18(2):495–497
12.
Radonjanin V, Malešev M, Marinković S (2013) Green recycled aggregate concrete. Constr Build Mater 47:1503–1511CrossRef
13.
Lin K-L, Chen B-Y, Chiou C-S (2010) An Cheng waste brick’s potential for use as a pozzolan in blended Portland cement. Waste Manag Res 28(7):647–652
14.
De’Gennaro R, Graziano SF, Cappelletti P, Langella A, De’Gennaro M (2009) Structural concretes with waste-based lightweight aggregates: from landfill to engineered materials. Environ Sci Technol 43(18):7123–7129CrossRef
15.
16.
Baldwin DA, Gericke WA, Potgieter N, Van Niekerk WC (2007) A criteria for utilization of by-products from the ferro-alloy industry innovations in the Ferro alloy industry. In: Proceedings of the XI international conference on innovations in the Ferro alloy industry, Infacon XI, pp 489–498
17.
Emery JJ (1978) Utilization of wastes and by products as construction materials in Canada. Conserv Recycl 2(1):31–41CrossRef
18.
Zhu JQ, Wu SP, Zhong JJ, Wang DM (2011) A review of the recycling of construction and demolition wastes in asphalt pavement. Adv Mater Res 211–212
19.
Marinković S, Radonjanin V, Malešev M, Ignjatović I (2010) Comparative environmental assessment of natural and recycled aggregate concrete. Waste Manag 30(11):2255–2264CrossRef
20.
Svatovskaya LB, Urov OV, Kabanov AA (2017) Geoecoprotective technology of transport construction using silica sol absorption method. Procedia Eng 189:454–458CrossRef
21.
Svatovskaya L, Shershneva M, Baydarashvily M, Sychova A, Sychov M, Gravit M (2015) Geoecoprotective properties of cement and concrete against heavy metal ions. Procedia Eng 117:350–354CrossRef
22.
Svatovskaya L, Sychova A, Sychov M, Gravit M (2016) New geoecoprotective properties of the construction materials for underground infrastructure development. Procedia Eng 165:1771–1775CrossRef
23.
Svatovskaya LB et al (2016) Improvement of the level of the concrete properties by means of surface modification. Transp Constr 7:30–32
24.
Svatovskaya LB, Baidarashvili MM, Shershneva MV (2014) New methods of geoecodefense of natural and technogenic systems of structural activity for the benefit of sustainable development. Monogragh, PGUPS
25.
Sychova AM, Svatovskaya LB, Mjakin SV, Vasiljeva IV (2009) Modification of fillers for cements. In: Electron beam modification of solids: mechanisms, common features and promising applications, pp 35–37
26.
Sychova AM, Svatovskaya LB, Mjakin SV, Vasiljeva IV (2009) Activation of aqueous phase at cement and concrete solidification. In: Electron beam modification of solids: mechanisms, common features and promising applications, pp 39–47
27.
Svatovskaya L, Sychova A, Soloviova V, Maslennikiva L, Sychov M (2016) Obtaining foam concrete applying stabilized foam. Indian J Sci Technol 9(42):104304
28.
Sakharova A, Svatovskaya L, Baidarashvili M, Malchevskaya K, Petriaev A (2018) Buildings and construction infrastructure with geoecoprotective properties. Way Track Facil 9:28–31
29.
Metadaten
Titel
Conservation of Mineral Resources in Transport and Civil Construction
verfasst von
Marina Baydarashvili
Antonina Sakharova
Natalia Shrednik
Copyright-Jahr
2020
Verlag
Springer Singapore
Buch
Transportation Soil Engineering in Cold Regions, Volume 2

Print ISBN: 978-981-15-0453-2

Electronic ISBN: 978-981-15-0454-9

Copyright-Jahr: 2020

DOI
https://doi.org/10.1007/978-981-15-0454-9_50