A Study on the Structural Effects of Bagasse Sugar Cane Stem In Structural Concrete Mixture in Sulfate and Chloride Environments

Document Type : p

Authors

1 Member of the engineering organization

2 Assistant Professor, Faculty of Civil Engineering, Islamic Azad University, Jouibar Branch, Joubiar, Iran

Abstract

Around the world, sugarcane production complexes annually produce about 1.2 million tons of surplus bagasse, which is burned due to the lack of conversion industries. In today's advanced world and due to advances in various scientific fields, the concrete industry has also evolved. Concrete containing pozzolan has different applications due to its special properties, which are differentiated according to its specific weight and compressive strength. Due to the importance of this issue, in this article, the effect of bagasse stem sugar pulp on the mixing of structural concretes in sulfate and chloride environments is investigated. For this purpose, eleven laboratory samples are used with a percentage of pozzolans of 0 to 55% is studied as a variable parameter. Finally, laboratory experiments showed that the addition of bagasse pozzolan in concrete increases the mechanical strength of concrete in chloride and sulfate environments and also the optimal percentage of bagasse pozzolan that causes the highest compressive strength in Concretes containing this pozzolan are 25% by weight of cement

Keywords

References

  1. Naji Givi .A, Abdul Rashid .S, A.Aziz .F.N, Mohd Salleh .M.A."Assessment of the effects of tice husk ash particle size on strength, water permeability and workability of binary blended concrete".constr build mater 2010;24:2145-2150
  2. Nuntachai Chusilp, Chai Jaturapitakkul, Kraiwood Kiattikomol " Effects of LOI of ground bagasse ash on the compressive strength and sulfate resistance of mortars" Construction and Building Materials, Volume 23, Issue 12, December 2009, Pages 3523-3531.
  3. رمضانیانپور، علی اکبر؛ پرهیزکار، طیبه؛ قدوسی، پرویز ؛ پورخورشیدی، علیرضا ؛ توصیه هایی برای پایایی بتن در سواحل جنوبی کشور نشریه شماره 396 (مرکز تحقیقات ساختمان و مسکن، تهران 1393)
  4. Corderio JF, Middendorf B, Gehrke M, Budelmann H. Use of wastes of sugar industry as pozzolana in lime- pozzolana binders: study of the reaction. Cem Concr Res 1998;28: 1525–36.
  5. Noor-ul Amin .­Use of Bagasse Ash in Concrete and Its Impact on the Strength and Chloride Resistivity . JOURNAL OF MATERIALS IN CIVIL ENGINEERING © ASCE / MAY 2011 / 717
  6. e. Chuslip -Jaquez,J.E.Buelna-Rodriguez,C.P.Barrios-Durstewitz,C.Gaona-Tiburcio,and Almeraya- Calderon "Corrosion of Modified Concrete With Sugar Cane Bagasse Ash " Hindawi Publishing CorPoration International Journal of Corrosion Volume 2012, Articale ID451864, 5 pages doi:10.1155/2012/451864
  7. Nasir Shafiq , Muhd Fadhil Nuruddin , Asma Abd Elhameed "Effect of Sugar Cane Bagasse Ash (SCBA) on Sulphate Resistance of Concrete"International Journal of Enhanced Research in Science Technology & Engineering, ISSN: 2319-7463
  8. AASHTO TP 64 Standard Method of Test for Predicting Chloride Penetration of Hydraulic Cement Concrete by the Rapid Migration Procedure
  9. AASHTO T358 Standard Method of Test for Surface Resistivity Indication of Concrete’s Ability to Resist Chloride Ion Penetration(2010)
  10. ASTM C172 / C172M – 17 Standard Practice for Sampling Freshly Mixed Concrete
  11. AASHTO T 358 Standard Method of Test for Surface Resistivity Indication of Concrete’s Ability to Resist Chloride Ion Penetration(2010)
  12. EN 206 Conformity Testing for Concrete Strength in Compression Procedia EngineeringVolume 1712017Pages 227-237
  13. BS EN 12390-8:2019 standard Testing hardened concrete. Depth of penetration of water under pressure
Concrete Research
Volume 13, Issue 3 - Serial Number 31
September 2020
Pages 137-149

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