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1

A preliminary comparative study of seepage behaviour behind retaining walls with crumb rubber and geocomposite

Sivapriya Vijayasimhan, Sudharasan Chinnusamy, Suraj Ravikumar, Abinaya Kalyansundaram

Civil and Environmental Engineering Reports

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2020

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Vol. 30, no. 1

171--184

EN

A retaining wall is built to provide support to the soil when there is a change in elevation of the ground. Weep holes present in the retaining wall help water to seep through it. Filter protection should be made behind the weep holes to prevent soil erosion around the weep holes. The classic filter material that is widely used is gravel, which is packed according to Hudson’s law. Laboratory experiments were conducted to understand the seepage function of alternative material such as crumb rubber and geocomposite (fabricated) in a homogenous sand layer and in-situ soil. The time taken by the water to reach the weep holes was calculated and compared. From the results, it is suggested to use crumb rubber as an alternative packing material behind the weep hole.

2

Możliwości stosowania geokompozytów sorbujących wodę w budownictwie i inżynierii środowiska

Misiewicz J.

Przegląd Budowlany

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2018

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R. 89, nr 12

47--49

PL

W artykule przedstawiono przykłady praktycznego użycia geokompozytów sorbujących wodę w zastosowaniach inżynieryjnych jako elementu wspomagającego rozwój biotechnicznych pokryć budowli. Omówiono ich budowę oraz zasadę działania, miejsca instalacji, a także współpracę z innymi geosyntetykami.

EN

The paper presents examples of practical use of water absorbing geocomposites in engineering applications as a supporting element of vegetative slope covers on earth structures. The author discuss their structure and operating principles, the places for implementation as well as their combination with other geosynthetic products.

3

Zastosowanie kompozytów Tensar do zbrojenia warstw asfaltowych w celu zwiększenia trwałości zmęczeniowej nawierzchni

Gołos M.

Materiały Budowlane

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2018

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nr 7

49--50

4

Influence of geocomposite application on selected biometric features of Rosa ‚White Meidiland’ and Berberis thunbergii ‚Green Carpet’ in the container nursery production

Bąbelewski P., Pancerz M.

Infrastruktura i Ekologia Terenów Wiejskich

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2017

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nr II/1

577--585

EN

An innovative technology of superabsorbent application in a form of agrotextile filled with polymer, called geocomposite, is a solution that allows preserving the beneficial effect of using superabsorbents with simultaneous reduction of their negative influence on soil environment. Research was carried out in 2012-2014 on one year old cuttings of Rosa‚ White Meidiland’ and Berberis thunbergii ‚Green Carpet’ in unheated foil tunnel at the Research Station belonging to the Department of Horticulture at Wrocław University of Environmental and Life Sciences. First factor was the use of geocomposite, while the second was fertilization with full (3 g) and half (1.5 g) dose of Osmocote Plus 3-4M and 3 g of YaraMila Complex fertilizer. The aim of this study was to assess the influence of geocomposite application with the use of fertilizers on selected biometric features and fresh weight of plants. Geocomposite had the positive influence on tested shoots and roots biometric features of Rosa ‘White Meidiland’ and Berberis thunbergii ‚Green Carpet’, on the fresh weight of roots and total of both species, as well as on their root:shoot ratio. In both species there was a tendency to obtain the highest values with 1.5 g Osmocote fertilization.

5

Georury w konstrukcji wałów przeciwpowodziowych

Ajdukiewicz J., Pilch M.

Materiały Budowlane

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2013

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nr 12

31--32

6

Estimate of the Properties of Underlay Geocomposites Cooperating with other Geosynthetics in Geotechnical Buildings

Malkiewicz J., Drobina R.

Fibres & Textiles in Eastern Europe

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2013

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Vol. 21, no. 2 (98)

111--116

EN

In the following article the authors present production technology for modern geocomposites obtained by mechanical needle-punching technology and spun-lace technology. The influence of the mass per unit area on mechanical parameters as well as that of the mass per unit area and load on hydraulic parameters were analysed. It enabled the authors to find out what mass per unit area is the most advantageous for geocomposites as underlays in hydrotechnical buildings.

PL

W artykule autorzy zaprezentowali technologię produkcji geokompozytów otrzymanych techniką igłowania mechanicznego i techniką igłowania wodnego. Przeanalizowano wpływ masy powierzchniowej na parametry mechaniczne, jak również wpływ masy powierzchniowej i obciążenia na parametry hydrauliczne. Pozwoliło to autorom rozstrzygnąć, jaka masa powierzchniowa jest najkorzystniejsza dla tych kompozytów jako podściółka w budowlach hydrotechnicznych.

7

Selected properties of the halloysite as a component of Geosynthetic Clay Liners (GCL)

Sakiewicz P., Nowosielski R., Pilarczyk W., Gołombek K., Lutyński M.

Journal of Achievements in Materials and Manufacturing Engineering

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2011

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Vol. 48, nr 2

177--191

EN

Purpose: The aim of this paper was to present some properties of halloysite and its applications as a component of Geosynthetic Clay Liners (GCL). The following article presents results of comparative tests of the influence of different factors on the halloysite and halloysite - bentonite mixture properties. Design/methodology/approach: Many studies including SEM, XRD, FTIR, EDS, ICP and XRF have been made to examine the halloysite and halloysite - bentonite mixture properties. Findings: Influence of the halloysite additive on characteristics of sealing GCL properties. Research limitations/implications: Studies described in this work should help to improve composition and optimize parameters of sealing clay mixtures improving activities and functioning of GCL during a long period of time. Comparison of the effects of the halloysite additive on characteristics of sealing clay layers properties and the possibility of its application in this area. Practical implications: Knowledge about changing of GCL properties during long time exploitation in landfills allows for selection of theirs main sealing parameters. The wrong choice of GCL parameters leads to multiplication of environmental costs and pollution of the area around storage place. Originality/value: Halloysite shows high sorption properties in relation to toxic heavy metals (eg cadmium, lead) and solutions containing harmful hydrocarbons, eg benzene, as well as toxic gases (ammonia, hydrogen sulfide). They are in aqueous solutions, therefore, their capacity for migration through protective barriers sometimes pose a growing threat to the environment. Using halloysite as a component of GCL significantly reduced this problem. The halloysite additive to GCL reduces the vulnerability of the sealing barrier towards the influence of calcium ions improving quality and durability of mineral insulation.

8

Ocena właściwości makroskopowych geokompozytów na podstawie obrazu ich mikrostruktury

Łydżba D., Różański A.

Górnictwo i Geoinżynieria

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2011

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R. 35, z. 2

403-413

PL

W pracy sformułowano i omówiono procedurę oceny właściwości makroskopowych geokompozytów na podstawie obrazu ich mikrostruktury. Wielkość makroskopowa kompozytu to wartość oczekiwana z odpowiadającej jej wielkości mikroskopowej będącej tzw. funkcją struktury. Matematycznie, wartość oczekiwana to średnia ze wszystkich możliwych realizacji ośrodka losowego których, w ogólności, jest nieskończenie wiele. Wykorzystując miarę mikrostruktury w postaci prawdopodobieństwa 2-punktowego sformułowano oryginalną metodę oceny właściwości makroskopowych jako wartość z próby którą tworzy skończona liczba, określonego i tego samego rozmiaru, tzw. Reprezentatywnych Elementarnych Objętości (REO). Odpowiednio dobrana próba, tj. jej wielkość będąca liczbą REO oraz rozmiar REO, zapewnia poprawną ocenę właściwości makroskopowej kompozytu, z założonym błędem estymacji. W pracy przedstawiono warunki i procedury numerycznej identyfikacji rozmiaru REO oraz wielkości próby. Do określenia rozmiaru REO wykorzystano prawdopodobieństwo 2-punktowe oraz metodę symulacji Monte Carlo natomiast do określenia wielkości próby - Centralne Twierdzenie Graniczne.

EN

The paper proposes and discusses the procedure of evaluation of overall properties of geocomposites based on a digital image of their microstructure. The overall property of composite is defined as an expectation of an associated microscopic variable called as a structural function. Mathematically, expectation is an average over all the possible realization of random medium, i.e. the infinite number of realizations. The paper formulates an original method of overall properties evaluation using the so-called 2-point probability function. The procedure proposed involves the notion of a sample and that of Representative Volume Element (RVE). The expectation is evaluated as an average over the sample. The sample is defined to be a set of a finite number of RVE elements, each of them of the same size. Proper evaluation of the expectation requires, within this method, an estimation of the appropriate size of the sample and the RVE element. The size of RVE element is proposed to be determined based on the 2-point probability function and the Monte Carlo simulation whereas the sample size is estimated based on the Central Limit Theorem.

9

Energy absorption in large dimension asphalt pavement samples reinforced with geosynthetics

Grabowski W., Pożarycki A.

Foundations of Civil and Environmental Engineering

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2008

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No. 11

17-28

EN

This paper investigates the test results of fatigue crack propagation of large dimension asphalt pavement samples reinforced with geocomposite and geogrid. The large dimension samples were cut from the test section of the asphalt pavement structure. Laboratory scale testing has been carried out in terms of multiple repeated loading and constant temperature. An original method of making large dimension asphalt pavement samples has been described. Crack propagation tests have been carried out on a special unit for fatigue testing. The evaluation of fatigue crack propagation was based on the analysis of the reinforcement efficiency index expressed by a function of the load cycles number and energy absorbed in the volume of the tested samples. Considering that the higher reinforcement efficiency index is desirable for better resistance to fatigue crack propagation, the test results give some indications on better fatigue crack resistance behavior for a sample reinforced with geocomposite in relation to a sample reinforced with geogrid.

10

Geokompozyt z superabsorbentem w ubezpieczeniach biotechnicznych

Orzeszyna H., Garlikowski D., Pawłowski A.

Materiały Budowlane

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2004

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nr 8

40-42

PL

Powszechnie stosowanym ekologicznym i krajobrazowo akceptowanym rodzajem zabezpieceń skarp budownli ziemnych przed skutkami erozji są konstrukcje biotechniczne w postaci zwartej darni trawiastej lub obsadzenia roślinnością krzewiastą i drzewiastą. W latach osiemdziesiątych XX w. opracowano syntetyczne, superabsorbujące wodę polimery zwane SAP-ami. W artykule omówiono stosowanie tych polimerów.