Statistical analysis of mechanical properties on the example of aggregates of Carpathian sandstones

[1]Ajalloeian R., Kamani M., An investigation of the relationship between Los Angeles abrasion loss and rock texture for carbonate aggregates. Bulletin of Engineering Geology and the Environment. 2017, 78(3), 1555–1563.AjalloeianR.KamaniM.An investigation of the relationship between Los Angeles abrasion loss and rock texture for carbonate aggregatesBulletin of Engineering Geology and the Environment20177831555156310.1007/s10064-017-1209-ySearch in Google Scholar

[2]Backman C., Hobeda P., The performance of aggregates in a single surface dressing, subjected to wear by studded tyres. Biulletin of the International Association of Engineering Geology. 1984, 30, 11–16.BackmanC.HobedaP.The performance of aggregates in a single surface dressing, subjected to wear by studded tyresBiulletin of the International Association of Engineering Geology198430111610.1007/BF02594270Search in Google Scholar

[3]Bromowicz J., Figarska-Warchoł B., Stones decorative and architectural south-eastern Polish - deposits, resources, prospects of operation, economy Mineral-Mineral Resources Management 2012, 28(3), 5–22.BromowiczJ.Figarska-WarchołB.Stones decorative and architectural south-eastern Polish - deposits, resources, prospects of operationEconomy Mineral-Mineral Resources Management201228352210.2478/v10269-012-0023-1Search in Google Scholar

[4]Capik M., Osman Yilmaz A., Modeling of Micro Deval abrasion loss based on some rock properties. Journal of African Earth Sciences. 2017, 134, 549–556.CapikM.Osman YilmazA.Modeling of Micro Deval abrasion loss based on some rock propertiesJournal of African Earth Sciences201713454955610.1016/j.jafrearsci.2017.04.006Search in Google Scholar

[5]Chowaniec J., Hydrogeology study of the western part of the Polish Carpathians. Biuletyn Państwowego Instytutu Geologicznego. 2009.ChowaniecJ.Hydrogeology study of the western part of the Polish CarpathiansBiuletyn Państwowego Instytutu Geologicznego2009Search in Google Scholar

[6]Cooley L. A., James R. S., Micro-Deval testing of aggregates in the Southeast. Transportation Research Record Journal of the Transportation Research Board. 2003, 1837(1), 2 – 26.CooleyL. A.JamesR. S.Micro-Deval testing of aggregates in the SoutheastTransportation Research Record Journal of the Transportation Research Board20031837122610.3141/1837-08Search in Google Scholar

[7]Cuelho E., Mokwa R., Obert K., Comparative Analysis Of Coarse Surfacing Aggregate Using Microdeval, L.A. Abrasion And Sodium Sulfate Soundness Tests. Final Report Western Transportation Institute College of Engineering Montana State University – Bozeman. 2007.CuelhoE.MokwaR.ObertK.Comparative Analysis Of Coarse Surfacing Aggregate Using Microdeval, L.A. Abrasion And Sodium Sulfate Soundness TestsFinal Report Western Transportation Institute College of Engineering Montana State UniversityBozeman2007Search in Google Scholar

[8]Durmekova T., Grega D., Tornyai R., A high potential of the micro-Deval test in rock quality assessment. Acta Geologica Slovaca. 2019, 11(1), 1–9.DurmekovaT.GregaD.TornyaiR.A high potential of the micro-Deval test in rock quality assessmentActa Geologica Slovaca201911119Search in Google Scholar

[9]Erichsen E., Ulvik A., Sævik K., Mechanical Degradation of Aggregate by the Los Angeles-, the Micro-Deval- and the Nordic Test Methods. Rock Mech Rock Eng. 2011, 44, 333–337.ErichsenE.UlvikA.SævikK.Mechanical Degradation of Aggregate by the Los Angeles-, the Micro-Deval- and the Nordic Test MethodsRock Mech Rock Eng20114433333710.1007/s00603-011-0140-ySearch in Google Scholar

[10]Figarska-Warchoł B., Stańczak G., The effect of petrographic diversity of the Krosno Sandstones on their physico-mechanical properties in the Górka-Mucharz and Skawce deposits (Beskid Mały Mountains). Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk. 2016, 96, 37–56.Figarska-WarchołB.StańczakG.The effect of petrographic diversity of the Krosno Sandstones on their physico-mechanical properties in the Górka-Mucharz and Skawce deposits (Beskid Mały Mountains)Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk2016963756Search in Google Scholar

[11]Góralczyk S., Kukielska D., Jakość kruszyw krajowych. Górnictwo i Geoinżynieria. 2010, 34(4), 211–224.GóralczykS.KukielskaD.Jakość kruszyw krajowychGórnictwo i Geoinżynieria2010344211224Search in Google Scholar

[12]Hydzik-Wiśniewska J., Pękala A., The Evaluation Of The Physico-Mechanical Properties of Selected Carpathian Sandstones in Terms of Their Use as a Armourstone. Arch. Min. Sci. 2019, 64(1), 65–77.Hydzik-WiśniewskaJ.PękalaA.The Evaluation Of The Physico-Mechanical Properties of Selected Carpathian Sandstones in Terms of Their Use as a ArmourstoneArch. Min. Sci20196416577Search in Google Scholar

[13]Hydzik-Wiśniewska J., Wilk A., Bednarek Ł., Olesiak S., Mixture of crushed-stone aggregate as material for substructure layers. Studia Geotechnica et Mechanica. 2018, vol. 40(2), 154–162.Hydzik-WiśniewskaJ.WilkA.BednarekŁ.OlesiakS.Mixture of crushed-stone aggregate as material for substructure layersStudia Geotechnica et Mechanica201840215416210.2478/sgem-2018-0014Search in Google Scholar

[14]Kahraman S., Gunaydin O., Empirical methods to predict the abrasion resistance of rock aggregates, Bull Eng Geol Environ. 2007, 66, 449–455.KahramanS.GunaydinO.Empirical methods to predict the abrasion resistance of rock aggregatesBull Eng Geol Environ20076644945510.1007/s10064-007-0093-2Search in Google Scholar

[15]Liu J., Zhao S., Mullin A., Laboratory assessment of Alaska aggregates using Micro-Deval test Front. Struct. Civ. Eng. 2017, 11(1), 27–34.LiuJ.ZhaoS.MullinA.Laboratory assessment of Alaska aggregates using Micro-Deval test FrontStruct. Civ. Eng2017111273410.1007/s11709-016-0359-5Search in Google Scholar

[16]Oszczypko N., Ślączka A. & Żytko K., Regionalizacja tektoniczna Polski – Karpaty zewnętrzne i zapadlisko przedkarpackie. Przegląd Geologiczny. 2008, 56(10). 927–935.OszczypkoN.ŚlączkaA.ŻytkoK.Regionalizacja tektoniczna Polski – Karpaty zewnętrzne i zapadlisko przedkarpackiePrzegląd Geologiczny20085610927935Search in Google Scholar

[17]PN-EN 1097-1 Badania mechanicznych i fizycznych właściwości kruszyw - Część 1: Oznaczanie odporności na ścieranie (mikro-Deval).PN-EN 1097-1 Badania mechanicznych i fizycznych właściwości kruszyw - Część 1: Oznaczanie odporności na ścieranie (mikro-Deval)Search in Google Scholar

[18]PN-EN 1097-2 Badania mechanicznych i fizycznych właściwości kruszyw - Część 2: Metody oznaczania odporności na rozdrabnianie.PN-EN 1097-2 Badania mechanicznych i fizycznych właściwości kruszyw - Część 2: Metody oznaczania odporności na rozdrabnianieSearch in Google Scholar

[19]Pszonka J., Petrographic analysis of mineral resources using cathodoluminescence with regard to the Cergowa sandstones (Outer Carpathians). Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk, 2015, 89, 5–18.PszonkaJ.Petrographic analysis of mineral resources using cathodoluminescence with regard to the Cergowa sandstones (Outer Carpathians)Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk201589518Search in Google Scholar

[20]Radwanek – Bąk B., Management of rock raw material resources in the polish Carpathians on sustainable development conditioning. Works of the Polish Geological Institute CLXXXII. 2005RadwanekBąkB.Management of rock raw material resources in the polish Carpathians on sustainable development conditioningWorks of the Polish Geological Institute CLXXXII2005Search in Google Scholar

[21]Rangaraju P. R., Edlinski J., Comparative Evaluation of Micro-Deval Abrasion Test with Other Toughness/Abrasion Resistance and Soundness Tests. Journal Of Materials In Civil Engineering. 2008, 20(5), 343–351.RangarajuP. R.EdlinskiJ.Comparative Evaluation of Micro-Deval Abrasion Test with Other Toughness/Abrasion Resistance and Soundness TestsJournal Of Materials In Civil Engineering200820534335110.1061/(ASCE)0899-1561(2008)20:5(343)Search in Google Scholar

[22]Shakoor A., Brown C. L., Development of a quantitative relationship between unconfined compressive strength and los angeles abrasion loss for carbonate rocks. Bulletin of the International Association of Engineering Geology. 1996, 53, 97–103.ShakoorA.BrownC. L.Development of a quantitative relationship between unconfined compressive strength and los angeles abrasion loss for carbonate rocksBulletin of the International Association of Engineering Geology1996539710310.1007/BF02594945Search in Google Scholar

[23]Sikora R., Structural control on the initiation and development of the Biała Wisełka Landslide Complex (Silesian Beskid, Outer Carpathians, Southern Poland). Geology, Geophysics & Environment. 2018, 44(1), 31 – 48.SikoraR.Structural control on the initiation and development of the Biała Wisełka Landslide Complex (Silesian Beskid, Outer Carpathians, Southern Poland)Geology, Geophysics & Environment2018441314810.7494/geol.2018.44.1.31Search in Google Scholar

[24]Skrzyński E., Nowe wymagania dla podsypki kolejowej. Problemy Kolejnictwa. 2007, 145, 43–62.SkrzyńskiE.Nowe wymagania dla podsypki kolejowejProblemy Kolejnictwa20071454362Search in Google Scholar

[25]Teymen A., Estimation of Los Angeles abrasion resistance of igneous rocks from mechanical aggregate properties. Bulletin of Engineering Geology and the Environment. 2019, 78(2), 837–846.TeymenA.Estimation of Los Angeles abrasion resistance of igneous rocks from mechanical aggregate propertiesBulletin of Engineering Geology and the Environment201978283784610.1007/s10064-017-1134-0Search in Google Scholar

[26]Török A., Czinder B., Relationship between density, compressive strength, tensile strength and aggregate properties of andesites from Hungary. Environ Earth Sci. 2017, 76(18), 639–653.TörökA.CzinderB.Relationship between density, compressive strength, tensile strength and aggregate properties of andesites from HungaryEnviron Earth Sci2017761863965310.1007/s12665-017-6977-ySearch in Google Scholar

[27]Török A., Los Angeles and Micro-Deval Values of Volcanic Rocks and Their Use as Aggregates, Examples from Hungary. Chapter 23 in Engineering Geology for Society and Territory - Volume 5. Publisher: Springer International Publishing. 2015, 115–118.TörökA.Los Angeles and Micro-Deval Values of Volcanic Rocks and Their Use as Aggregates, Examples from HungaryChapter 23 in Engineering Geology for Society and Territory - Volume 5. Publisher:Springer International Publishing201511511810.1007/978-3-319-09048-1_23Search in Google Scholar

[28]Ugur I., Demirdag S., Yavuz H., Effect of rock properties on the Los Angeles abrasion and impact test characteristics of the aggregates. Materials Characterization. 2010, 61, 90 – 96.UgurI.DemirdagS.YavuzH.Effect of rock properties on the Los Angeles abrasion and impact test characteristics of the aggregatesMaterials Characterization201061909610.1016/j.matchar.2009.10.014Search in Google Scholar

[29]Wang D., Wang H., Bu Y., Schulze C., Oeser M., Evaluation of aggregate resistance to wear with Micro-Deval test in combination with aggregate imaging techniques, Wear. 2015, 338–339, 288–296.WangD.WangH.BuY.SchulzeC.OeserM.Evaluation of aggregate resistance to wear with Micro-Deval test in combination with aggregate imaging techniquesWear201533833928829610.1016/j.wear.2015.07.002Search in Google Scholar

[30]Żytko K., Zając R., Gucik S., Ryłko W., Oszczypko N., Garlicka I., Nemčok J., Elias M., Mencik E. & Stranik Z., Map of tectonic elements of the Western Outer Carpathians and their Foreland. [in:] Poprawa D. & Nemčok J. (eds.), Geological Atlas of the Western Carpathians and their Foreland, Państwowy Instytut Geologiczny. 1988.ŻytkoK.ZającR.GucikS.RyłkoW.OszczypkoN.GarlickaI.NemčokJ.EliasM.MencikE.StranikZ.Map of tectonic elements of the Western Outer Carpathians and their Foreland[in:]PoprawaD.NemčokJ.(eds.),Geological Atlas of the Western Carpathians and their ForelandPaństwowy Instytut Geologiczny1988Search in Google Scholar