Open Access

Year : 2023 | Volume :11 | Issue : 01 | Page : 52-64

Peddi Shiva Tejaswi

M. Tech Department of Civil Engineering, CVR College of Engineering Telangana India

Abstract

In Present scenario, Construction has benefited greatly from the characteristics of concrete and the magnetism of water. The procedure of permitting water to pass through the magnetic field is part of creating magnetised water, utilizing those properties of concrete that can affect such as compressive strength, workability, porosity, permeability, durability, water absorption capacity, hydration rate and aqueous ratio. Reduced cement usage and improved mechanical and technical qualities of concrete are the primary goals of switching from conventional water use to magnetic water. The addition of additives to concrete such as super plasticizers (SP), silica fume, natural zeolite steel fibres, Egyptian alumina, steel chips, silica fume, fly ash, pozzolanic materials, and blast furnace slag will increase concrete properties and effective for construction.

Keywords: Magnetizing, concrete, strength, additives, microstructure, effective, construction

[This article belongs to Journal of Polymer and Composites(jopc)]

How to cite this article: Peddi Shiva Tejaswi. A Comprehensive Review of Concrete Containing Magnetically Treated Water. Journal of Polymer and Composites. 2023; 11(01):52-64.

How to cite this URL: Peddi Shiva Tejaswi. A Comprehensive Review of Concrete Containing Magnetically Treated Water. Journal of Polymer and Composites. 2023; 11(01):52-64. Available from: https://journals.stmjournals.com/jopc/article=2023/view=116189

Full Text PDF Download

Browse Figures

References

1. Lim SH, Prusty BG, Pearce G, Kelly D, Thomson RS. Study of magnetorheological fluids towards smart energy absorption of composite structures for crashworthiness. Mechanics of Advanced Materials and Structures. 2016 May 3;23(5):538–44.
2. Xu ZD, Shen YP, Guo YQ. Semi-active control of structures incorporated with magnetorheological dampers using neural networks. Smart materials and structures. 2003 Jan 10;12(1):80.
3. Toledo EJ, Ramalho TC, Magriotis ZM. Influence of magnetic field on physical–chemical properties of the liquid water: Insights from experimental and theoretical models. Journal of molecular structure. 2008 Oct 15;888(1–3):409–15.
4. Ahmed SM, Manar DF. Effect of static magnetic field treatment on fresh concrete and water reduction potential. Case Studies in Construction Materials. 2021 Jun 1;14:e00535.
5. Zollo RF. Fiber-reinforced concrete: an overview after 30 years of development. Cement and concrete composites. 1997 Jan 1;19(2):107–22.
6. Hajforoush M, Kheyroddin A, Rezaifar O. Investigation of engineering properties of steel fiber reinforced concrete exposed to homogeneous magnetic field. Construction and Building Materials. 2020 Aug 20;252:119064.
7. Abavisani I, Rezaifar O, Kheyroddin A. Alternating magnetic field effect on fine-aggregate concrete compressive strength. Construction and Building Materials. 2017 Mar 1;134:83–90.

8. Rezaifar O, Abavisani I, Kheyroddin A. Magneto-electric active control of scaled-down reinforced concrete columns. ACI Struct J. 2017 Sep 1;114(5):1351–62.
9. Tarbozagh AS, Rezaifar O, Gholhaki M. Electromagnetism in taking concrete behavior on demand. InStructures 2020 Oct 1 (Vol. 27, pp. 1057–1065). Elsevier.
10. Wang Y, Zhang B, Gong Z, Gao K, Ou Y, Zhang J. The effect of a static magnetic field on the hydrogen bonding in water using frictional experiments. Journal of Molecular Structure. 2013 Nov 25;1052:102–4.
11. Javahershenas F, Gilani MS, Hajforoush M. Effect of magnetic field exposure time on mechanical and microstructure properties of steel fiber-reinforced concrete (SFRC). Journal of Building Engineering. 2021 Mar 1;35:101975.
12. Ghorbani S, Ghorbani S, Tao Z, De Brito J, Tavakkolizadeh M. Effect of magnetized water on foam stability and compressive strength of foam concrete. Construction and Building materials. 2019 Feb 10;197:280–90.
13. No A. Specification for aggregates from natural sources for concrete. Bs. 1992;882(1992):1–4.
14. Olubambi PA, Andrews A, Mothle TS. Strength behavior of magnesia‐based refractories after thermal cycling. International Journal of Applied Ceramic Technology. 2014 May;11(3):524–9.
15. Abed JM, Khaleel BA, Aldabagh IS, Sor NH. The effect of recycled plastic waste polyethylene terephthalate (PET) on characteristics of cement mortar. InJournal of Physics: Conference Series 2021 Aug 1 (Vol. 1973, No. 1, p. 012121). IOP Publishing.
16. Ghorbani S, Sharifi S, De Brito J, Ghorbani S, Jalayer MA, Tavakkolizadeh M. Using statistical analysis and laboratory testing to evaluate the effect of magnetized water on the stability of foaming agents and foam concrete. Construction and Building Materials. 2019 May 20;207: 28–40.
17. Puebla K, Arcaute K, Quintana R, Wicker RB. Effects of environmental conditions, aging, and build orientations on the mechanical properties of ASTM type I specimens manufactured via stereolithography. Rapid Prototyping Journal. 2012 Jul 27;18(5):374–88.
18. ASTM C. Standard specification for concrete aggregates. Philadelphia, PA: American Society for Testing and Materials. 2003.
19. Teychenné DC, Franklin RE, Erntroy HC, Marsh BK. Design of normal concrete mixes. London, UK: HM Stationery Office; 1975.
20. Ahmed SM, Manar DF. Effect of static magnetic field treatment on fresh concrete and water reduction potential. Case Studies in Construction Materials. 2021 Jun 1;14:e00535.
21. ASTM International Committee C09 on Concrete and Concrete Aggregates. Standard Test Method for Splitting Tensile Strength of Cylindrical Concrete Specimens1. ASTM international; 2017.
22. Ahmed SM, Manar DF. Effect of static magnetic field treatment on fresh concrete and water reduction potential. Case Studies in Construction Materials. 2021 Jun 1;14:e00535.
23. Ahmed SM, Manar DF. Effect of static magnetic field treatment on fresh concrete and water reduction potential. Case Studies in Construction Materials. 2021 Jun 1;14:e00535.
24. Afshin H, Gholizadeh M, Khorshidi N. Improving mechanical properties of high strength concrete by magnetic water technology. Scientia Iranica. 2010 Feb 1;17(1).
25. Kevern JT, Nowasell QC. Internal curing of pervious concrete using lightweight aggregates. Construction and Building Materials. 2018 Feb 10;161:229–35.
26. American Society for Testing and Materials. Committee C-09 on Concrete and Concrete Aggregates. Standard test method for flexural performance of fiber-reinforced concrete (using beam with third-point loading). ASTM International; 2013.
27. Soto-Bernal JJ, Gonzalez-Mota R, Rosales-Candelas I, Ortiz-Lozano JA. Effects of static magnetic fields on the physical, mechanical, and microstructural properties of cement pastes. Advances in Materials Science and Engineering. 2015 Apr;2015.
28. Yousry OM, Abdallah MA, Ghazy MF, Taman MH, Kaloop MR. A study for improving compressive strength of cementitious mortar utilizing magnetic water. Materials. 2020 Apr 23;13(8):1971.

29. Astm C. 597, Standard test method for pulse velocity through concrete. ASTM International, West Conshohocken, PA. 2009.
30. Bungey JH, Grantham MG. Testing of concrete in structures. Crc Press; 2006 Jan 12.
31. Wei H, Wang Y, Luo J. Influence of magnetic water on early-age shrinkage cracking of concrete. Construction and Building Materials. 2017 Aug 30;147:91–100.
32. ASTM A. 500/A500M-13: Standard Specification for Cold-Formed Welded and Seamless Carbon Steel Structural Tubing in Rounds and Shapes. ASTM: West Conshohocken, PA, USA. 2013.
33. Olhoeft GR, Smith III SS. Automatic processing and modeling of GPR data for pavement thickness and properties. InEighth International Conference on Ground Penetrating Radar 2000 Apr 27 (Vol. 4084, pp. 188–193). SPIE.
34. Brandt AM. Cement-based composites: materials, mechanical properties and performance. CRC Press; 2005 Jun 30.
35. Reddy BS, Ghorpade VG, Rao HS. Influence of magnetic water on strength properties of concrete. Indian journal of science and technology. 2014 Jan 18;7(1):14–8.
36. MAHABOOB S, Afreen MU, Dola Sanjay S, Deshpande AA, Sucharitha D, Fasiuddin M. ISSN-2455–6300 OCTOBER 2018, SPL ISSUE 10.1.
37. Venkatesh C, Sri Rama Chand M, Ruben N, Sonali Sri Durga C. Strength Characteristics of Red Mud and Silica Fume Based Concrete. InSmart Technologies for Sustainable Development 2021 (pp. 387–393). Springer, Singapore.
38. Ruben N, Venkatesh C, Durga CS, Chand MS. Comprehensive study on performance of glass fibers-based concrete. Innovative Infrastructure Solutions. 2021 Jun;6(2):1–1.
39. Durga CS, Ruben N, Chand MS, Indira M, Venkatesh C. Comprehensive microbiological studies on screening bacteria for self-healing concrete. Materialia. 2021 Mar 1;15:101051.
40. Venkatesh C, Sonali Sri Durga C, Durga S, Muralidhararao T. Evaluation of fire impact on structural elements using ANSYS. Journal of Building Pathology and Rehabilitation. 2021 Dec;6(1):1–5.
41. Bellum RR, Venkatesh C, Madduru SR. Influence of red mud on performance enhancement of fly ash-based geopolymer concrete. Innovative Infrastructure Solutions. 2021 Dec;6(4):1–9. 42. Durga, C. S. S., Ruben, N., Chand, M. S. R., & Venkatesh, C. Evaluation of mechanical parameters of bacterial concrete. In Annales de Chimie-Science des: Matériaux. 2019 Dec;43(6):395–399.
43. Anirudh M, Rekha KS, Venkatesh C, Nerella R. Characterization of red mud based cement mortar; mechanical and microstructure studies. Materials Today: Proceedings. 2021 Jan 1;43:1587–91.
44. Venkatesh C, Nerella R, Chand MS. Role of red mud as a cementing material in concrete: A comprehensive study on durability behavior. Innovative Infrastructure Solutions. 2021 Mar;6(1):1–4.
45. Durga CS, Ruben N, Chand MS, Venkatesh C. Performance studies on rate of self healing in bio concrete. Materials Today: Proceedings. 2020 Jan 1;27:158–62.
46. Venkatesh C, Ruben N, Chand MS. Red mud as an additive in concrete: comprehensive characterization. Journal of the Korean Ceramic Society. 2020 May;57(3):281–9.
47. Venkatesh C, Chand MS, Nerella R. A state of the art on red mud as a substitutional cementitious material. InAnnales de Chimie: Science des Materiaux 2019 Apr (Vol. 43, No. 2, pp. 99–106).
48. Venkatesh C, Nerella R, Chand MS. Comparison of mechanical and durability properties of treated and untreated red mud concrete. Materials Today: Proceedings. 2020 Jan 1;27:284–7.
49. Venkatesh C, Mohiddin SK, Ruben N. Corrosion inhibitors behaviour on reinforced concrete—a review. Sustainable Construction and Building Materials. 2019:127–34.
50. Venkatesh C, Nerella R, Chand MS. Experimental investigation of strength, durability, and microstructure of red-mud concrete. Journal of the Korean Ceramic Society. 2020 Mar;57(2): 167–74.

Regular Issue Open Access Review Article

Journal of Polymer and Composites

ISSN: 2321–2810

Volume	11
Issue	01
Received	December 21, 2022
Accepted	May 10, 2023
Published	August 21, 2023

Not A Member?

Join Us

Submit Manuscript

Submit Topics

Initiatives

Guidelines For

Further Information

Corporate Office

STM Journals,
An imprint of Consortium E-learning network Pvt. Ltd.
A-118, 1st Floor, Sector-63, Noida, U.P. India,
Pin-201301
(Tel) (+91) 0120- 4781 200
(Mob) (+91) 9810078958, +919667725932
E-mail: [email protected]

WEBSITE DISCLAIMER

Last updated: 2022-06-15

The information provided by STM Journals (“Company”, “we”, “our”, “us”) on https://journals.stmjournals.com/ (the “Site”) is for general informational purposes only. All information on the Site is provided in good faith, however, we make no representation or warranty of any kind, express or implied, regarding the accuracy, adequacy, validity, reliability, availability, or completeness of any information on the Site.

UNDER NO CIRCUMSTANCE SHALL WE HAVE ANY LIABILITY TO YOU FOR ANY LOSS OR DAMAGE OF ANY KIND INCURRED AS A RESULT OF THE USE OF THE SITE OR RELIANCE ON ANY INFORMATION PROVIDED ON THE SITE. YOUR USE OF THE SITE AND YOUR RELIANCE ON ANY INFORMATION ON THE SITE IS SOLELY AT YOUR OWN RISK.

EXTERNAL LINKS DISCLAIMER

The Site may contain (or you may be sent through the Site) links to other websites or content belonging to or originating from third parties or links to websites and features. Such external links are not investigated, monitored, or checked for accuracy, adequacy, validity, reliability, availability, or completeness by us.

WE DO NOT WARRANT, ENDORSE, GUARANTEE, OR ASSUME RESPONSIBILITY FOR THE ACCURACY OR RELIABILITY OF ANY INFORMATION OFFERED BY THIRD-PARTY WEBSITES LINKED THROUGH THE SITE OR ANY WEBSITE OR FEATURE LINKED IN ANY BANNER OR OTHER ADVERTISING. WE WILL NOT BE A PARTY TO OR IN ANY WAY BE RESPONSIBLE FOR MONITORING ANY TRANSACTION BETWEEN YOU AND THIRD-PARTY PROVIDERS OF PRODUCTS OR SERVICES.

PROFESSIONAL DISCLAIMER

The Site can not and does not contain medical advice. The information is provided for general informational and educational purposes only and is not a substitute for professional medical advice. Accordingly, before taking any actions based on such information, we encourage you to consult with the appropriate professionals. We do not provide any kind of medical advice.

Content published on https://journals.stmjournals.com/ is intended to be used and must be used for informational purposes only. It is very important to do your analysis before making any decision based on your circumstances. You should take independent medical advice from a professional or independently research and verify any information that you find on our Website and wish to rely upon.

THE USE OR RELIANCE OF ANY INFORMATION CONTAINED ON THIS SITE IS SOLELY AT YOUR OWN RISK.

AFFILIATES DISCLAIMER

The Site may contain links to affiliate websites, and we may receive an affiliate commission for any purchases or actions made by you on the affiliate websites using such links.

TESTIMONIALS DISCLAIMER

The Site may contain testimonials by users of our products and/or services. These testimonials reflect the real-life experiences and opinions of such users. However, the experiences are personal to those particular users, and may not necessarily be representative of all users of our products and/or services. We do not claim, and you should not assume that all users will have the same experiences.

YOUR RESULTS MAY VARY.

The testimonials on the Site are submitted in various forms such as text, audio, and/or video, and are reviewed by us before being posted. They appear on the Site verbatim as given by the users, except for the correction of grammar or typing errors. Some testimonials may have been shortened for the sake of brevity, where the full testimonial contained extraneous information not relevant to the general public.

The views and opinions contained in the testimonials belong solely to the individual user and do not reflect our views and opinions.

ERRORS AND OMISSIONS DISCLAIMER

While we have made every attempt to ensure that the information contained in this site has been obtained from reliable sources, STM Journals is not responsible for any errors or omissions or the results obtained from the use of this information. All information on this site is provided “as is”, with no guarantee of completeness, accuracy, timeliness, or of the results obtained from the use of this information, and without warranty of any kind, express or implied, including, but not limited to warranties of performance, merchantability, and fitness for a particular purpose.

In no event will STM Journals, its related partnerships or corporations, or the partners, agents, or employees thereof be liable to you or anyone else for any decision made or action taken in reliance on the information in this Site or for any consequential, special or similar damages, even if advised of the possibility of such damages.

GUEST CONTRIBUTORS DISCLAIMER

This Site may include content from guest contributors and any views or opinions expressed in such posts are personal and do not represent those of STM Journals or any of its staff or affiliates unless explicitly stated.

LOGOS AND TRADEMARKS DISCLAIMER

All logos and trademarks of third parties referenced on https://journals.stmjournals.com/ are the trademarks and logos of their respective owners. Any inclusion of such trademarks or logos does not imply or constitute any approval, endorsement, or sponsorship of STM Journals by such owners.

CONTACT US

Should you have any feedback, comments, requests for technical support, or other inquiries, please contact us by email: [email protected].