Araştırma Makalesi
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Yıl 2019, Cilt: 3 Sayı: 2, 9 - 22, 01.12.2019

Öz

Kaynakça

  • REFERENCES
  • Adams, M.T. and Collin, J.G. (1997). “Large model spread footing load tests on geosynthetic reinforced soil foundations.” Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 123, No. 1, pp. 66-72.
  • Alamshahi, S. and Hataf, N. (2009). “Bearing capacity of strip footings on sand slopes reinforced with geogrid and grid-anchor.” Geotextiles and Geomembranes, Vol. 27, pp. 217-226.
  • Demiröz, A. and Tan, Ö. (2010). “An Experimental study for settlement of strip foundation on Geogrid-Reinforced Sand.” Scientific Research and Essays, Vol. 5, No. 21, pp. 3306-3312.
  • Kavazanjian, E., Hushmand, B., and Martin, G. (1991). “Frictional base isolation using layered soil-geosynthetic liner system.” Proceedings of the Third U.S. Conf. on Lifeline Earthquake Engineering, Los Angeles, CA, pp. 1140-1151.
  • Edincliler, A. and Yildiz, O. (2016). “Seismic performance of mid-rise buildings on geogrid reinforced sand.” 6th European Geosynthetics Conference, Ljubljana-Slovenia, pp. 1346-1355.
  • Edinçliler, A. and Toksoy, Y. S. (2017a). “Geogrid Donatılı Zemin Üzerine İnşaa Edilen Orta Katlı Binaların Sismik Performansına Deprem Karakteristiklerinin Etkisi.” 4. Uluslararası Deprem Mühendisliği ve Sismoloji Konferansı, 11-13 Oct 2017, Eskişehir, Turkey (in Turkish).Edinçliler, A. and Toksoy, Y. S. (2017b). “Geogrid-Donatılı Kum Üzerine İnşa Edilen Orta Katlı Binaların Sismik Performansının Değerlendirilmesi.” 3. Zemin-Yapı Etkileşimi Konferansı, İzmir, Turkey (in Turkish).
  • Edinçliler, A. and Toksoy, Y. S. (2017c). “Parametric Study on Seismic Performance of Low and Mid-Rise Buildings on Geogrid Reinforced Sand.” GeoAfrica 2017 Conference, Marrakech, Morocco.
  • Mahboubi A.R. and Keyghobadi M.H. (2012). “Numerical modeling of bearing capacity of a strip foundation on geogrid reinforced sand.” EUROGEO 5, Vol. 5, pp. 395-402.
  • Marto, A., Oghabi, M. and Eisazadeh, A. (2013). “The Effect of Geogrid Reinforcement on Bearing Capacity Properties of Soil under Static Load; A Review.” Electronic Journal of Geotechnical Engineering, Vol. 18, pp. 1881-1898.
  • Patra, C.R., Das, B.M. and Atalar, C. (2005). “Bearing capacity of a strip foundation on geogrid-reinforced sand.” Geotextiles and Geomembranes, Vol. 23, pp. 454-462.
  • Yegian, M.K. and Lahlaf, A.M. (1992). “Dynamic interface shear properties of geomembranes and geotextiles.” Journal of the Geotechnical Engineering, ASCE, Vol. 118, No. 5, pp. 760-779.
  • Yegian, M.K., Yee, Z.Y. and Harb, J.N. (1995). “Seismic Response of Geosynthetic/Soil systems.” Geotechnical Special Publication, ASCE, Vol. 46, No. 2, pp. 1113-1125.
  • Yetimoglu, T., Wu, J.T.H. and Saglamer, A. (1994). “Bearing Capacity of Rectangular Footings on Geogrid- Reinforced Sand.” Journal of Geotechnical Engineering, Vol. 120, No. 12, pp. 2083-2099.
  • Yıldız, A.A., Laman, M., Örnek, M. and Demir, A. (2006). “Numerical an Analysis Circular Foundations Supported by Sand Reinforced with Geogrid.” Second National Conference on Geosynthetics, University of Bogazici, Istanbul, pp. 75-84. (in Turkish).

EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS

Yıl 2019, Cilt: 3 Sayı: 2, 9 - 22, 01.12.2019

Öz


Shallow
foundations on the weak soils result in low bearing capacity and/or excessive
settlement problems. This can cause structural damage, reduction in the
durability, and/or deterioration in the performance level. Some of the soil
improvement methods are to replace the weak cohesive soil by a stronger
granular fill or to increase the dimensions of the footing, or a combination of
two. Recently, the use of reinforced soils under the shallow foundations has
received considerable attention. The beneficial effects of reinforcements in
foundation applications have been studied by several investigators. In
addition, the use of geosynthetics under foundations is an innovative and
alternative way of absorbing the seismic energy and mitigate excitations
transmitting to upper layers of soils and foundation of overlying structures.
This comparative study presents the results of numerical simulations of medium
rise buildings on unreinforced and reinforced sand foundation to investigate
the effects of earthquake characteristics and reinforcement length to mitigate
the earthquake hazards of medium-rise buildings. Various reinforcement lengths
in terms of foundation length “B” have been decided. The study has been carried
out by using a finite element code, PLAXIS 2D. Numerical results revealed that
the geosynthetic-reinforced sand is quite an effective method to mitigate the
seismic performance of the mid-rise buildings and earthquake characteristics in
addition to the reinforcement zone play a very important role by means of
seismic performance.




Kaynakça

  • REFERENCES
  • Adams, M.T. and Collin, J.G. (1997). “Large model spread footing load tests on geosynthetic reinforced soil foundations.” Journal of Geotechnical and Geoenvironmental Engineering, ASCE, Vol. 123, No. 1, pp. 66-72.
  • Alamshahi, S. and Hataf, N. (2009). “Bearing capacity of strip footings on sand slopes reinforced with geogrid and grid-anchor.” Geotextiles and Geomembranes, Vol. 27, pp. 217-226.
  • Demiröz, A. and Tan, Ö. (2010). “An Experimental study for settlement of strip foundation on Geogrid-Reinforced Sand.” Scientific Research and Essays, Vol. 5, No. 21, pp. 3306-3312.
  • Kavazanjian, E., Hushmand, B., and Martin, G. (1991). “Frictional base isolation using layered soil-geosynthetic liner system.” Proceedings of the Third U.S. Conf. on Lifeline Earthquake Engineering, Los Angeles, CA, pp. 1140-1151.
  • Edincliler, A. and Yildiz, O. (2016). “Seismic performance of mid-rise buildings on geogrid reinforced sand.” 6th European Geosynthetics Conference, Ljubljana-Slovenia, pp. 1346-1355.
  • Edinçliler, A. and Toksoy, Y. S. (2017a). “Geogrid Donatılı Zemin Üzerine İnşaa Edilen Orta Katlı Binaların Sismik Performansına Deprem Karakteristiklerinin Etkisi.” 4. Uluslararası Deprem Mühendisliği ve Sismoloji Konferansı, 11-13 Oct 2017, Eskişehir, Turkey (in Turkish).Edinçliler, A. and Toksoy, Y. S. (2017b). “Geogrid-Donatılı Kum Üzerine İnşa Edilen Orta Katlı Binaların Sismik Performansının Değerlendirilmesi.” 3. Zemin-Yapı Etkileşimi Konferansı, İzmir, Turkey (in Turkish).
  • Edinçliler, A. and Toksoy, Y. S. (2017c). “Parametric Study on Seismic Performance of Low and Mid-Rise Buildings on Geogrid Reinforced Sand.” GeoAfrica 2017 Conference, Marrakech, Morocco.
  • Mahboubi A.R. and Keyghobadi M.H. (2012). “Numerical modeling of bearing capacity of a strip foundation on geogrid reinforced sand.” EUROGEO 5, Vol. 5, pp. 395-402.
  • Marto, A., Oghabi, M. and Eisazadeh, A. (2013). “The Effect of Geogrid Reinforcement on Bearing Capacity Properties of Soil under Static Load; A Review.” Electronic Journal of Geotechnical Engineering, Vol. 18, pp. 1881-1898.
  • Patra, C.R., Das, B.M. and Atalar, C. (2005). “Bearing capacity of a strip foundation on geogrid-reinforced sand.” Geotextiles and Geomembranes, Vol. 23, pp. 454-462.
  • Yegian, M.K. and Lahlaf, A.M. (1992). “Dynamic interface shear properties of geomembranes and geotextiles.” Journal of the Geotechnical Engineering, ASCE, Vol. 118, No. 5, pp. 760-779.
  • Yegian, M.K., Yee, Z.Y. and Harb, J.N. (1995). “Seismic Response of Geosynthetic/Soil systems.” Geotechnical Special Publication, ASCE, Vol. 46, No. 2, pp. 1113-1125.
  • Yetimoglu, T., Wu, J.T.H. and Saglamer, A. (1994). “Bearing Capacity of Rectangular Footings on Geogrid- Reinforced Sand.” Journal of Geotechnical Engineering, Vol. 120, No. 12, pp. 2083-2099.
  • Yıldız, A.A., Laman, M., Örnek, M. and Demir, A. (2006). “Numerical an Analysis Circular Foundations Supported by Sand Reinforced with Geogrid.” Second National Conference on Geosynthetics, University of Bogazici, Istanbul, pp. 75-84. (in Turkish).
Toplam 15 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular İnşaat Mühendisliği
Bölüm Makaleler
Yazarlar

Ayşe Edinçliler

Yasin Sait Toksoy Bu kişi benim

Yayımlanma Tarihi 1 Aralık 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 3 Sayı: 2

Kaynak Göster

APA Edinçliler, A., & Toksoy, Y. S. (2019). EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS. Eurasian Journal of Civil Engineering and Architecture, 3(2), 9-22.
AMA Edinçliler A, Toksoy YS. EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS. EJCAR. Aralık 2019;3(2):9-22.
Chicago Edinçliler, Ayşe, ve Yasin Sait Toksoy. “EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS”. Eurasian Journal of Civil Engineering and Architecture 3, sy. 2 (Aralık 2019): 9-22.
EndNote Edinçliler A, Toksoy YS (01 Aralık 2019) EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS. Eurasian Journal of Civil Engineering and Architecture 3 2 9–22.
IEEE A. Edinçliler ve Y. S. Toksoy, “EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS”, EJCAR, c. 3, sy. 2, ss. 9–22, 2019.
ISNAD Edinçliler, Ayşe - Toksoy, Yasin Sait. “EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS”. Eurasian Journal of Civil Engineering and Architecture 3/2 (Aralık 2019), 9-22.
JAMA Edinçliler A, Toksoy YS. EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS. EJCAR. 2019;3:9–22.
MLA Edinçliler, Ayşe ve Yasin Sait Toksoy. “EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS”. Eurasian Journal of Civil Engineering and Architecture, c. 3, sy. 2, 2019, ss. 9-22.
Vancouver Edinçliler A, Toksoy YS. EFFECTS OF GEOGRID REINFORCEMENT TO MITIGATE EARTHQUAKE HAZARDS OF MEDIUM-RISE BUILDINGS UNDER DIFFERENT EARTHQUAKE MOTIONS. EJCAR. 2019;3(2):9-22.

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