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Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi

Year 2018, Volume: 24 Issue: 3, 561 - 565, 29.06.2018

Abstract

İklimsel
farklılıkların sıkça yaşandığı bölgelerde mühendislik yapıları farklı yükler
altında olumsuz etkilemektedir. Bu etkinin iri taneli zeminlerde çeşitli atık
malzemeler katılımıyla azaltılması yönünde çalışmalar yapılmaktadır. Bu çalışma
da atık lastik parçalarıyla (AL) güçlendirilmiş iri taneli zeminin (TZ)
donma-çözülme sonucu mukavemetlerindeki değişim incelenmiştir. Deneyler
standart proktor enerjisi altında sıkıştırılması ile hazırlanan iri taneli
zemin numuneleri üzerinde yürütülmüştür. Bu iri taneli zemin örneğine




















 ve

 atık lastik ilavesi yapılarak 1,  7 ve

8
günlük çalışma odası sıcaklığındaki


) kür
sonucu, serbest basınç mukavemetleri belirlenmiştir. En yüksek mukavemet
artışı; TZ


AL (

)
karışımda


, TZ+

 AL (

)
karışımda


 ve TZ+

AL (

)
karışımda ise


oranında
olmuştur. Bu karışımlar, donma-çözülme deneyine tabii tutulmuştur. Deney
sonucunda, TZ+%0.5AL (1.18 mm) karışımın mukavemeti


 ve TZ+

 AL (

)
karışımının mukavemeti


 oranında düşerken, TZ+

 AL (

)
karışımın mukavemeti ise


 oranında artmıştır.

References

  • Akbulut S, Arasan S, Kalkan E. “Modification of clayey soils using scrap tire rubber and synthetic fibers”. Applied Clay Science 38, 23-32, 2007.
  • Andersland OB, Ladanyi B. Frozen Ground Engineering. 2nd ed. USA, John Wiley & Sons, 2004.
  • ASTM D. 698-78. “Fundamental Principles of Soil Compaction”. American Society for Testing And Materials. West Conshohocken, Pennsylvania, USA, 2012.
  • ASTM D. 2166. “Standard Test Method for Unconfined Compressive Strength of Cohesive Soil”. American Society for Testing and Materials. West Conshohocken, Pennsylvania, USA, 2006.
  • ASTM D. 3080/D3080M-11. “Standard Test Method for Direct Shear Test of Soils Under Consolidated Drained Conditions”. ASTM International, West Conshohocken, PA, 2011.
  • BS. 1377, Part 2. Methods of test for soils for civil engineering purposes, Classification tests. British Standards Institution, 1990.
  • Chauhan MS, Mittal S, Mohanty B. “Performance evaluation of silty sand subgrade reinforced with fly ash and fibre”. Geotextiles and Geomembranes, 26(5), 429-435, 2008.
  • Ghazavi M, Roustaie M. “The influence of freeze-thaw cycles on the unconfined compressive strength of fiber-reinforced clay”. Cold regions science and technology, 61, 125-131, 2010.
  • Gray DH, Ohashi H. “Mechanics of fiber reinforcement in sand”. Journal of Geotechnical Engineering ASCE, 109(3), 335-353. 1983.
  • Hejazi SM, Sheikhzadeh M, Abtahi SM, Zadhoush A. “A simple review of soil reinforcment by using natural and synthetic fibers”. Construction and Building Materials, 30, 100-116, 2012.
  • Jafari M, Esna-Ashari M. “Effect of waste tire cord reinforcement on unconfined compressive strength of lime stabilized clayey soil under freze-thaw condition”. Cold Regions Science and Technology, 82, 21-29. 2012.
  • Kalkan E. “Prepartion of scrap tires ruber fiber-silica fume mixtures for modification of clayey soils”. Applied Clay Science, 80-81, 117-125, 2013.
  • Michalowski RL, Zhao A. “Failure of fiber-reinforced granular soils”. Journal of Geotechnical Engineering ASCE, 122(3), 226-234. 1996.
  • Michalowski RL, Cerma KJ. “Triaxial compression of sand reinforced with fibers”. Journal of Geotechnical and Geoenvironmental Engineering, 129(2), 125-136, 2003.
  • Ranjan G, Vasan RM, Charan HD. “Probabilistic analysis of randomly distributed fiber-reinforced soil”. Geotechnical Engineering ASCE, 419-426, 1996.
  • Singh P, Bawa S, Priyadarshee A, Kumar G. “Influence of tire chips on the behaviour of soil”. Journal of Civil Engineering and Environmental Technolgy, 3(1), 23-27, 2016.
  • Zaimoğlu AŞ, Hattatoğlu F, Akbulut RK. “Yüke maruz ince taneli zeminlerin donma-çözülme davranışı” Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 19(3), 117-121, 2013.
  • Zaimoğlu AŞ, Akbulut RK, Arasan S. “Effect of freze- thaw cycles on strength behavior of compacted chicken quill clay composite in undrained loading”. Jornal of Natural Fibers, 13(3), 299-308, 2015.
  • Zaimoglu AS, Calik Y, Akbulut RK, Yetimoglu T. “A study on freeze-thaw behavior of randomly distributed fiber-reinforced soil”. Periodica Polytechnica: Civil Engineering, 60(1), 3-9, 2016.
  • Yarbaşı N, Kalkan E, Akbulut S. “Modification of the geotechnical properties, as influenced by freze-thaw, of granular soils with waste additives”. Cold Regions Science and Technology, 48, 44-54, 2007.
  • Yarbaşı N. “Atık lastik parçaları ile güçlendirilmiş killi zeminlerin donma-çözülme davranışı”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 22(6), 559-562, 2016.
  • Yetimoglu T, Salbas O. “A study on shear strength of sands reireinforced with randomly distributed discrete fibers”. Geotextiles and Geomembranes 21, 103-110, 2003.

Investigation on the variation of strength of coarse grained soils reinforced with waste tires pieces as a result of freezing and thawing cycles

Year 2018, Volume: 24 Issue: 3, 561 - 565, 29.06.2018

Abstract

In
regions where climatic differences frequently are affects especially engineering
structures under different loads. This effect is being studied to reduce the
participation of various waste materials in coarse grained soil. In this study,
the changes in strength of coarse grained soil (CG) reinforced with scrap tire
pieces (ST) was investigated under freezing- thawing conditions. Experiments
were conducted on coarse grained samples prepared by compression under standard
proctor energy. Unconfined compressive strength values of coarse grained soil
sample with




















 and

 addition of scrap tires were determined at
studied temperature (


 oC) on days 1, 7 and 28. The highest increase rate
of strength was


 in CG+

 ST (

)
mixture,


 in CG+

 ST (

)
mixture and


 in CG+

 ST (

)
mixture. The freeze-thaw test was applied on this mixture. The results showed
that while the strength rate of CG+


 ST (

)
and CG+


 ST (

)
mixtures decreased to


 and

 respectively; the strength of CG+

 ST (

)
mixture increased to



References

  • Akbulut S, Arasan S, Kalkan E. “Modification of clayey soils using scrap tire rubber and synthetic fibers”. Applied Clay Science 38, 23-32, 2007.
  • Andersland OB, Ladanyi B. Frozen Ground Engineering. 2nd ed. USA, John Wiley & Sons, 2004.
  • ASTM D. 698-78. “Fundamental Principles of Soil Compaction”. American Society for Testing And Materials. West Conshohocken, Pennsylvania, USA, 2012.
  • ASTM D. 2166. “Standard Test Method for Unconfined Compressive Strength of Cohesive Soil”. American Society for Testing and Materials. West Conshohocken, Pennsylvania, USA, 2006.
  • ASTM D. 3080/D3080M-11. “Standard Test Method for Direct Shear Test of Soils Under Consolidated Drained Conditions”. ASTM International, West Conshohocken, PA, 2011.
  • BS. 1377, Part 2. Methods of test for soils for civil engineering purposes, Classification tests. British Standards Institution, 1990.
  • Chauhan MS, Mittal S, Mohanty B. “Performance evaluation of silty sand subgrade reinforced with fly ash and fibre”. Geotextiles and Geomembranes, 26(5), 429-435, 2008.
  • Ghazavi M, Roustaie M. “The influence of freeze-thaw cycles on the unconfined compressive strength of fiber-reinforced clay”. Cold regions science and technology, 61, 125-131, 2010.
  • Gray DH, Ohashi H. “Mechanics of fiber reinforcement in sand”. Journal of Geotechnical Engineering ASCE, 109(3), 335-353. 1983.
  • Hejazi SM, Sheikhzadeh M, Abtahi SM, Zadhoush A. “A simple review of soil reinforcment by using natural and synthetic fibers”. Construction and Building Materials, 30, 100-116, 2012.
  • Jafari M, Esna-Ashari M. “Effect of waste tire cord reinforcement on unconfined compressive strength of lime stabilized clayey soil under freze-thaw condition”. Cold Regions Science and Technology, 82, 21-29. 2012.
  • Kalkan E. “Prepartion of scrap tires ruber fiber-silica fume mixtures for modification of clayey soils”. Applied Clay Science, 80-81, 117-125, 2013.
  • Michalowski RL, Zhao A. “Failure of fiber-reinforced granular soils”. Journal of Geotechnical Engineering ASCE, 122(3), 226-234. 1996.
  • Michalowski RL, Cerma KJ. “Triaxial compression of sand reinforced with fibers”. Journal of Geotechnical and Geoenvironmental Engineering, 129(2), 125-136, 2003.
  • Ranjan G, Vasan RM, Charan HD. “Probabilistic analysis of randomly distributed fiber-reinforced soil”. Geotechnical Engineering ASCE, 419-426, 1996.
  • Singh P, Bawa S, Priyadarshee A, Kumar G. “Influence of tire chips on the behaviour of soil”. Journal of Civil Engineering and Environmental Technolgy, 3(1), 23-27, 2016.
  • Zaimoğlu AŞ, Hattatoğlu F, Akbulut RK. “Yüke maruz ince taneli zeminlerin donma-çözülme davranışı” Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 19(3), 117-121, 2013.
  • Zaimoğlu AŞ, Akbulut RK, Arasan S. “Effect of freze- thaw cycles on strength behavior of compacted chicken quill clay composite in undrained loading”. Jornal of Natural Fibers, 13(3), 299-308, 2015.
  • Zaimoglu AS, Calik Y, Akbulut RK, Yetimoglu T. “A study on freeze-thaw behavior of randomly distributed fiber-reinforced soil”. Periodica Polytechnica: Civil Engineering, 60(1), 3-9, 2016.
  • Yarbaşı N, Kalkan E, Akbulut S. “Modification of the geotechnical properties, as influenced by freze-thaw, of granular soils with waste additives”. Cold Regions Science and Technology, 48, 44-54, 2007.
  • Yarbaşı N. “Atık lastik parçaları ile güçlendirilmiş killi zeminlerin donma-çözülme davranışı”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 22(6), 559-562, 2016.
  • Yetimoglu T, Salbas O. “A study on shear strength of sands reireinforced with randomly distributed discrete fibers”. Geotextiles and Geomembranes 21, 103-110, 2003.
There are 22 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Research Article
Authors

Necmi Yarbaşı 0000-0003-4259-1278

Mine Alacalı 0000-0003-2925-8737

Publication Date June 29, 2018
Published in Issue Year 2018 Volume: 24 Issue: 3

Cite

APA Yarbaşı, N., & Alacalı, M. (2018). Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 24(3), 561-565.
AMA Yarbaşı N, Alacalı M. Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. June 2018;24(3):561-565.
Chicago Yarbaşı, Necmi, and Mine Alacalı. “Atık Lastik parçalarıyla güçlendirilmiş Iri Taneli Zeminlerin Donma-çözülme Sonucu Mukavemetlerindeki değişimin Incelenmesi”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24, no. 3 (June 2018): 561-65.
EndNote Yarbaşı N, Alacalı M (June 1, 2018) Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24 3 561–565.
IEEE N. Yarbaşı and M. Alacalı, “Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 24, no. 3, pp. 561–565, 2018.
ISNAD Yarbaşı, Necmi - Alacalı, Mine. “Atık Lastik parçalarıyla güçlendirilmiş Iri Taneli Zeminlerin Donma-çözülme Sonucu Mukavemetlerindeki değişimin Incelenmesi”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 24/3 (June 2018), 561-565.
JAMA Yarbaşı N, Alacalı M. Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2018;24:561–565.
MLA Yarbaşı, Necmi and Mine Alacalı. “Atık Lastik parçalarıyla güçlendirilmiş Iri Taneli Zeminlerin Donma-çözülme Sonucu Mukavemetlerindeki değişimin Incelenmesi”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 24, no. 3, 2018, pp. 561-5.
Vancouver Yarbaşı N, Alacalı M. Atık lastik parçalarıyla güçlendirilmiş iri taneli zeminlerin donma-çözülme sonucu mukavemetlerindeki değişimin incelenmesi. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2018;24(3):561-5.

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