Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, Cilt: 16 Sayı: 3, 263 - 268, 29.09.2020
https://doi.org/10.18466/cbayarfbe.706537

Öz

Proje Numarası

2019.KB.FEN.021

Kaynakça

  • 1. Hunter, R. N., Self, A., & Read, J. The shell bitumen handbook. 6th edn, ICE Publishing, 2015.
  • 2. Sengoz, B., & Isikyakar, G. 2008. Evaluation of the properties and microstructure of SBS and EVA polymer modified bitumen. Construction and Building Materials; 22(9): 1897-1905.
  • 3. Şirin Micaelo, R., A. Santos, and C. Duarte.: Mixing and compaction temperatures of asphalt mixtures with modified bitumen, 5th Eurasphalt & Eurobitume Congress, Istanbul, Turkey, 2012, pp. 7.
  • 4. West, R. C., Watson, D. E., Turner, P. A., & Casola, J. R. 2010. Mixing and compaction temperatures of asphalt binders in hot-mix asphalt (No. Project 9-39).
  • 5. Terrel, R.L., and J.A. Epps. 1989.Using Additives and Modifiers in Hot Mix Asphalt,” Quality Improvement Series 114, National Asphalt Pavement Association,
  • 6. Shenoy, A. 2001. Determination of the temperature for mixing aggregates with polymer-modified asphalts. International Journal of Pavement Engineering; 2(1): 33-47.
  • 7. Shuler, T., D. Hanson, and R. McKeen. 1992. Design and Construction of Asphalt Concrete Using Polymer Modified Asphalt Binders, ASTM STP 1108.
  • 8. Clark, R. C. 1958. Practical results of asphalt hardening on pavement life. Journal of the Association of Asphalt Paving Technologists; 27: 196-208.
  • 9. Bahia, H.U., D.I. Hanson, M. Zeng, H. Zhai, M.A. Khatri, and R.M Anderson. 2001. NCHRP Report 459: Characterization of Modified Asphalt Binders in Superpave Mix Design, Transportation Research Board, National Research Council, Washington, D.C.
  • 10. Stroup-Gardiner, M., Lange, C. R., & Carter, A. 2005. Quantification of emission potential from asphalt binders using mass loss and opacity measurements. International Journal of Pavement Engineering; 6(3): 191-200.
  • 11. Khatri, A., H.U. Bahia, and D. Hanson. 2001. Mixing and Compaction Temperatures for Modified Binders using the Superpave Gyratory Compactor, Journal of the Association of Asphalt Paving Technologists, Vol. 70.
  • 12. Stuart, K.D. 2002. Methodology for Determining Compaction Temperatures for Modified Asphalt Binders, FHWA-RD-02-016, Federal Highway Administration.
  • 13. Anjan Kumar, S., Sarvanan, U., Murali Krishnan, J., & Veeraragavan, A. 2014. Rheological characterisation of modified binders at mixing and compaction temperature. International Journal of Pavement Engineering; 15(9): 767-785.
  • 14. Grover, R. 2002. “Determining Mixing and Compaction Temperatures of Asphalt Binders Using Zero Shear Viscosity,” RMAUPG Binder Subcommittee Meeting.
  • 15. Lange, C. R., & Stroup-Gardiner, M. 2005. Quantification of potentially odorous volatile organic compounds from asphalt binders using head-space gas chromatography. Journal of Testing and Evaluation; 33(2): 101-109.
  • 16. Sengoz, B., & Isikyakar, G. 2008. Analysis of styrene-butadiene-styrene polymer modified bitumen using fluorescent microscopy and conventional test methods. Journal of Hazardous Materials; 150(2): 424-432.
  • 17. Kaya, D., Topal, A., & McNally, T. 2019. Relationship between processing parameters and aging with the rheological behaviour of SBS modified bitumen. Construction and Building Materials; 221, 345-350.
  • 18. Uncu, D, Topal, A, Seydibeyoglu, M O, & Sengoz, B. Investigation of Phase Separation and Storage Stability Behaviour of SBS Polymer Modified Bitumens Containing Sepiolite Nanoclay, 13th International Congress on Advances in Civil Engineering, Izmir, TURKEY, 2018, pp 1-8.
  • 19. Munera, J. C., & Ossa, E. A. 2014. Polymer modified bitumen: Optimization and selection. Materials & Design (1980-2015), 62, 91-97.
  • 20. ASTM D2493 "Standard Viscosity-Temperature Chart for Asphalts." American Society for Testing and Materials; West Conshohocken, PA, 2010.
  • 21. Yildirim, Y., Solaimanian, M. and Kennedy. 2000. Mixing and compaction temperatures for hot mix asphalt concrete", Center for Transportation Research, Austin, USA, Rep. 1250-5.
  • 22. Yildirim, Y., Ideker, J., & Hazlett, D. 2006. Evaluation of viscosity values for mixing and compaction temperatures. Journal of materials in civil engineering; 18(4): 545-553.
  • 23. Reinke, G. “Determination of Mixing and Compaction Temperature of PG Binders Using a Steady Shear Flow Test,” presentation made to the Superpave Binder Expert Task Group,https://engineering.purdue.edu/~spave/old/Technical%20Info/Meetings/Binder%20ETG%20Sept%2003%20Las%20Vegas,%20NV/Reinke_MIX%20AND%20COMPACTINO%20INFO%20FOR%20ETG%209-15-03.pdf.September 2003

Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen

Yıl 2020, Cilt: 16 Sayı: 3, 263 - 268, 29.09.2020
https://doi.org/10.18466/cbayarfbe.706537

Öz

Despite many advantages of using polymer additives in bitumen, there are several challenges bordering on standards and specifications with regards to their utilization. One of these challenges is related with specifying the required heating or mixing and compaction temperatures of the polymer modified bitumen. The standard method (ASTM D 2493) aims to determine mixing and compaction temperatures of the base or unmodified bitumen. Nevertheless, the application of this method in the case of polymer modified bitumen led to very high temperatures which may not be appropriate for PMB. In this paper, some alternative methods named as the high shear rate and steady shear flow method suggested in the literature have been examined and tested for 50/70 and 160/220 penetration grade bitumen samples involving an elastomeric type of additive. A suggested method has also been proposed to overcome the complexities in the implementation of the alternative methods.

Destekleyen Kurum

Department of Scientific Research projects, Dokuz Eylul University

Proje Numarası

2019.KB.FEN.021

Teşekkür

This research was sponsored by the Department of Scientific Research projects, Dokuz Eylul University under the project number 2019.KB.FEN.021 for which the authors are greatly indebted. The authors are also thankful to the Graduate School of Natural and Applied Sciences of Dokuz Eylul University for its support.

Kaynakça

  • 1. Hunter, R. N., Self, A., & Read, J. The shell bitumen handbook. 6th edn, ICE Publishing, 2015.
  • 2. Sengoz, B., & Isikyakar, G. 2008. Evaluation of the properties and microstructure of SBS and EVA polymer modified bitumen. Construction and Building Materials; 22(9): 1897-1905.
  • 3. Şirin Micaelo, R., A. Santos, and C. Duarte.: Mixing and compaction temperatures of asphalt mixtures with modified bitumen, 5th Eurasphalt & Eurobitume Congress, Istanbul, Turkey, 2012, pp. 7.
  • 4. West, R. C., Watson, D. E., Turner, P. A., & Casola, J. R. 2010. Mixing and compaction temperatures of asphalt binders in hot-mix asphalt (No. Project 9-39).
  • 5. Terrel, R.L., and J.A. Epps. 1989.Using Additives and Modifiers in Hot Mix Asphalt,” Quality Improvement Series 114, National Asphalt Pavement Association,
  • 6. Shenoy, A. 2001. Determination of the temperature for mixing aggregates with polymer-modified asphalts. International Journal of Pavement Engineering; 2(1): 33-47.
  • 7. Shuler, T., D. Hanson, and R. McKeen. 1992. Design and Construction of Asphalt Concrete Using Polymer Modified Asphalt Binders, ASTM STP 1108.
  • 8. Clark, R. C. 1958. Practical results of asphalt hardening on pavement life. Journal of the Association of Asphalt Paving Technologists; 27: 196-208.
  • 9. Bahia, H.U., D.I. Hanson, M. Zeng, H. Zhai, M.A. Khatri, and R.M Anderson. 2001. NCHRP Report 459: Characterization of Modified Asphalt Binders in Superpave Mix Design, Transportation Research Board, National Research Council, Washington, D.C.
  • 10. Stroup-Gardiner, M., Lange, C. R., & Carter, A. 2005. Quantification of emission potential from asphalt binders using mass loss and opacity measurements. International Journal of Pavement Engineering; 6(3): 191-200.
  • 11. Khatri, A., H.U. Bahia, and D. Hanson. 2001. Mixing and Compaction Temperatures for Modified Binders using the Superpave Gyratory Compactor, Journal of the Association of Asphalt Paving Technologists, Vol. 70.
  • 12. Stuart, K.D. 2002. Methodology for Determining Compaction Temperatures for Modified Asphalt Binders, FHWA-RD-02-016, Federal Highway Administration.
  • 13. Anjan Kumar, S., Sarvanan, U., Murali Krishnan, J., & Veeraragavan, A. 2014. Rheological characterisation of modified binders at mixing and compaction temperature. International Journal of Pavement Engineering; 15(9): 767-785.
  • 14. Grover, R. 2002. “Determining Mixing and Compaction Temperatures of Asphalt Binders Using Zero Shear Viscosity,” RMAUPG Binder Subcommittee Meeting.
  • 15. Lange, C. R., & Stroup-Gardiner, M. 2005. Quantification of potentially odorous volatile organic compounds from asphalt binders using head-space gas chromatography. Journal of Testing and Evaluation; 33(2): 101-109.
  • 16. Sengoz, B., & Isikyakar, G. 2008. Analysis of styrene-butadiene-styrene polymer modified bitumen using fluorescent microscopy and conventional test methods. Journal of Hazardous Materials; 150(2): 424-432.
  • 17. Kaya, D., Topal, A., & McNally, T. 2019. Relationship between processing parameters and aging with the rheological behaviour of SBS modified bitumen. Construction and Building Materials; 221, 345-350.
  • 18. Uncu, D, Topal, A, Seydibeyoglu, M O, & Sengoz, B. Investigation of Phase Separation and Storage Stability Behaviour of SBS Polymer Modified Bitumens Containing Sepiolite Nanoclay, 13th International Congress on Advances in Civil Engineering, Izmir, TURKEY, 2018, pp 1-8.
  • 19. Munera, J. C., & Ossa, E. A. 2014. Polymer modified bitumen: Optimization and selection. Materials & Design (1980-2015), 62, 91-97.
  • 20. ASTM D2493 "Standard Viscosity-Temperature Chart for Asphalts." American Society for Testing and Materials; West Conshohocken, PA, 2010.
  • 21. Yildirim, Y., Solaimanian, M. and Kennedy. 2000. Mixing and compaction temperatures for hot mix asphalt concrete", Center for Transportation Research, Austin, USA, Rep. 1250-5.
  • 22. Yildirim, Y., Ideker, J., & Hazlett, D. 2006. Evaluation of viscosity values for mixing and compaction temperatures. Journal of materials in civil engineering; 18(4): 545-553.
  • 23. Reinke, G. “Determination of Mixing and Compaction Temperature of PG Binders Using a Steady Shear Flow Test,” presentation made to the Superpave Binder Expert Task Group,https://engineering.purdue.edu/~spave/old/Technical%20Info/Meetings/Binder%20ETG%20Sept%2003%20Las%20Vegas,%20NV/Reinke_MIX%20AND%20COMPACTINO%20INFO%20FOR%20ETG%209-15-03.pdf.September 2003
Toplam 23 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Ali Almusawı

Burak Şengöz 0000-0003-0684-4880

Derya Kaya Özdemir

Ali Topal

Proje Numarası 2019.KB.FEN.021
Yayımlanma Tarihi 29 Eylül 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 16 Sayı: 3

Kaynak Göster

APA Almusawı, A., Şengöz, B., Kaya Özdemir, D., Topal, A. (2020). Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen. Celal Bayar University Journal of Science, 16(3), 263-268. https://doi.org/10.18466/cbayarfbe.706537
AMA Almusawı A, Şengöz B, Kaya Özdemir D, Topal A. Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen. CBUJOS. Eylül 2020;16(3):263-268. doi:10.18466/cbayarfbe.706537
Chicago Almusawı, Ali, Burak Şengöz, Derya Kaya Özdemir, ve Ali Topal. “Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen”. Celal Bayar University Journal of Science 16, sy. 3 (Eylül 2020): 263-68. https://doi.org/10.18466/cbayarfbe.706537.
EndNote Almusawı A, Şengöz B, Kaya Özdemir D, Topal A (01 Eylül 2020) Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen. Celal Bayar University Journal of Science 16 3 263–268.
IEEE A. Almusawı, B. Şengöz, D. Kaya Özdemir, ve A. Topal, “Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen”, CBUJOS, c. 16, sy. 3, ss. 263–268, 2020, doi: 10.18466/cbayarfbe.706537.
ISNAD Almusawı, Ali vd. “Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen”. Celal Bayar University Journal of Science 16/3 (Eylül 2020), 263-268. https://doi.org/10.18466/cbayarfbe.706537.
JAMA Almusawı A, Şengöz B, Kaya Özdemir D, Topal A. Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen. CBUJOS. 2020;16:263–268.
MLA Almusawı, Ali vd. “Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen”. Celal Bayar University Journal of Science, c. 16, sy. 3, 2020, ss. 263-8, doi:10.18466/cbayarfbe.706537.
Vancouver Almusawı A, Şengöz B, Kaya Özdemir D, Topal A. Predicting Mixing and Compaction Temperatures of Polymer Modified Bitumen. CBUJOS. 2020;16(3):263-8.