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THE EEFECT OF CHANGE IN MOLARITY OF SODIUM HYDROXIDE ON GEOPOLYMER CONCRETE Essay
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Nov 26th, 2019

THE EEFECT OF CHANGE IN MOLARITY OF SODIUM HYDROXIDE ON GEOPOLYMER CONCRETE Essay

THE EEFECT OF CHANGE IN MOLARITY OF SODIUM HYDROXIDE ON GEOPOLYMER CONCRETE V. S. Chavan *, U. B. Deshmukh*, J. Y. Shaikh * , S. V. Shinde *,I. I. Shaikh *, Y. C. Madake *, V. S. Sherekar** *U.G. Student, Department of civil Engineering , S.K.N. Sinhgad College Of Engineering Korti , Pandharpur.(India) **Assistant Professor, Department of civil Engineering , S.K.N. Sinhgad College of Engineering Korti, Pandharpur. (India) *[email protected] **vishal.sherekar @sknscoe.ac.in Abstract ” The objectives of the present research is to appreciate the effect of Fly ash based Geopolymer concrete.

Collecting the low calcium fly ash from a thermal power plant and this Fly ash used are lignite coal based and falls under class F category. This fly ash reacts with alkaline solution Sodium hydroxide (e.g., NaOH) and Sodium Silicate (Na2SiO3) to form a gel which binds the fine and coarse aggregates. An attempt has been made to find out strength of the Geopolymer concrete at different molarity and temp erature at 100 “.

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Concrete cubes of size 150 x 150 x 150 mm were prepared and cured under oven dry curing for 24 hours. The compressive strength was originate out at 7 days . The results are compared. The optimal mix is Fly ash: Fine aggregate: Coarse aggre gate (1:1.5:3.3) with a solution ( NaOH & Na2SiO3 combined toge ther) to fly ash. High and Premature strength was obtained in the Geopolymer concrete mix. Strength of Geopolymer concrete which will be useful to the researchers and manufacturers. Keywords ” Geopolymer, Alkaline Solutions, Ambient curing , Molarity. I. INTRODUCTION The Geopolymer concrete invented by French Professor Davidovits in 1978 . The Geopolymer depend on thermally activated by -products like fly ash or slag to provide a source of silicon (Si) and aluminium (Al). These Silicon and Aluminium is dissolved in an alkaline activating solution and subsequently polymerizes into molecular chains and becom e the binder. Professor B. Vijaya Rangan (2008), Curtin Unive rsity, Australia, stated that, the polymerization process involves a substantially fast chemical reaction under alkaline conditions on silicon -aluminium minerals that results in a three -dimensio nal poly meric chain and ring structure. The type of alkaline liquid used plays an important role in the polymerisation process. Sodium hydroxide (NaOH) and sodium silicate (Na2SiO3) this alkaline liquids and water used in geopolymerisation. In 2005, Ferna ndez – Jim©nez and Palomo studied the effect of an alkaline liquid on the mechanical strength of fly ash -based mortar. They stated that the mechanical strength of mortar increases when water glass (Na2SiO3) is added to NaOH, compared with using only NaOH. Th e addition of water glass increases the Si/Al and Na/Al ratios, resulting in increased formation of N-A-S-H (sodium aluminosilicate gel) which indicates greater strength. Showed that the compressive strength of fly ash – based Geopolymer concrete can be imp roved by either increasing the concentration (in molar terms) of the sodium hydroxide solution. The temperature at curing is very imperative , and depending upon the source materials and triggering solution, heat often must be applied to facilitate polymeri zation, although some systems have been developed that are designed to be cured at 1 00° C temperature. The main fact is that production of cement add to the pollution of environment is a well -known fact to civil engineers and environmentalists. The large -scale production of cement is affectation environmental problems on one hand and unobstructed depletion of natural resources on the other hand. Each tone of Portland cement production results in loading about one tone of CO2 into the environment. If the mix design process for Geopolymer concrete can become accepted and viewed as practically useful as that of ordinary Portland cement concrete, then it has the potential to become used on a more widespread basis. Thus Geopolymer is an innovative technique and e co-friendly to environment. II. EXPERIMENTAL WORK MATERIALS In the planned mix proportioning method, low calcium processed ‚y ash of thermal power plant was used as source material. The laboratory grade sodium hydroxide in ‚ake form and sodium silicate in gel form solutions are used as alkaline activators. Locally offered river sand is us ed as ne aggregate and available 20 mm and 12.5 mm sizes coarse aggregates. A. Fly Ash Quantity and neness of ‚y ash plays a vital role in the activation process of Geopolymer . It was previously find out that the strength of Geopolymer concrete increases with increase in qua ntity and neness of ‚y ash . Similarly, higher neness sh ows higher workability and strength with early duration of heating. So, the mainimportance is given on quantity and neness of ‚y ash in the development of mix proportioning procedure of Geopolymer concrete. The different parameters in fly ash in Table no. 1 Table No. 1: – Different parameters of fly ash Sr.No. Parameters Value in % 1. Alumina(Al2O3) 22.86 2. Silica(SiO2) 77.15 3. Iron(Fe2O3) 0.65 4. Calcium(CaO) 1.60 5. Magnesium(MgO) 0.16 6. Potassium(K2O) 0.031 7. Sodium(Na2O) 0.027 8. Sulphur(SO3) 0.72 B. Alkaline Solutions In the present investigation, sodium based alkaline solutions are used. The both sodium hydroxide (NaOH) and sodium silicate solutions are used for the activation of ‚y ash based Geopolymer concrete. It is observed that the compressive strength of Geopolymer concrete increases with increase in concentrat ion of sodium hydroxide (NaOH) and and sodium silicate (Na 2Sio 3) solution with increased viscosity of fresh mix. Due to increase in concentra tion of sodium hydroxide with sodium silicate solution in terms of molarity (M) makes the concrete more brittle with increased compressive strength. T he cost of sodium hydroxide solid is high and preparation is very scathing . Therefore , to achieve desired degree of workability, extra water is required which ultimately reduce the concentration of sodium hydroxide solution. This solution is mixed and used after 24 hrs of mixing. C. Water From the chemical reaction, it was observing that the water comes out from the mix during the polymerization process. The main purpose of water in the Geopolymer mix is to make workable in plastic state and do not contribute towards the strength in hardened state. Similarly, the demand of water incr eases with increase in neness of material for same degree of workability. So, the minimum quantity of water required to achieve preferred workability is selected on the basis of degree of workability, nen ess of ‚y ash and grading of aggregate. C. Aggregates Aggregates are inactive mineral material used as ller in concrete which occupies 70 “85 % volume. So, in the preparation of Geopolymer concrete, ne aggregates and coarse aggregates are mixed in such a way that it gives least voids in the concrete . This was d one by grading of ne aggregate to total aggregate ratio. It is observed thet Workability of Geopolymer concrete is also affec ted by grading of aggregate s. D. Curing For the improvement of Geopolymer concrete, tempera ture and duration of heating plays an important role in the activation process. In the present investigation, cubes were demoulded after 24 hr of casting and then place in an oven for heating at 100 °C for a period of 24 hr. After 24 hrs of oven curing , oven is switched off and cubes are allowed to cool down to room temperature. Then compression test is carried out on Geopolymer concrete cubes after a test period of 7 days and 28 days. The period of testing is considered in between testing cubes for c ompressive strength and placing it in normal room temperature after heating. MIX DESIGN The previous studies of Geopolymer concrete ( M.I.Abdul and P.D.Arumairaj Geopolymer Concrete A Review ) for different mix design we observed that the mix proportion (1: 1.5: 3.3) is most suitable mix proportion. Materials Kg/m3 Fly ash (Class F) 408.00 Fine sand 612.00 Coarse aggregate (20 mm in size) 1346.00 Sodium silicate solution 103.00 Sodium hydroxide solution (10 M) 41.00 Table No. 2 Mix Design [6] For different molarity i.e. 10M , 12M, 14M the quantity of sodium hydroxide (NaOH) changes only . CONCLUSION Based on this experimental work we are conclude that when the molarity of concrete increases at temperature 100 0 C the compressive strength of Geopolymer concrete (M20) is increases at optimum doses of molarity. After that the strength get decreases.REFERENCES 1. Frantisek Skvara , Josef Dolezal, Pavel Svoboda, Lubom­r Kopecky,Simona Pawlasova, Martin Lucuk, Kamil Dvoracek, Martin Beksa,Lenka Myskova, Rostislav Sulc, Concrete based on fly ash geopolymers. 2. Jarvis R Black, Mix Design Process for Alkaline – Activated Class F Fly A sh Geopolymer Concrete , (University of New South Wales at the Australian Defence Force Academy). 3. James Aldred and John Day, Geopolymer Concrete A Sustainable alterna tive to Traditional Concrete ( 37th Conference on Our World in Concrete & Structures 29 -31 August 2012, Singapore) 4. Kushal Ghosh and Dr. Partha Ghosh , Effect Of Na2o/Al2o3, Sio2/Al2o3 And W/B Ratio On Setting Time And Workability Of Fly ash Based Geopolymer” (International Journal of Engineering Research and Applications (IJERA) ISSN: 2 248 -9622 Vol. 2, Issue4, July – August 2012, pp.2142 -2147) 5. L.Krishnan, S.Karthikeyan, S.Nathiya, K. Suganya, Geopolymer Concrete An Eco -Friendly Construction Material , (IJRET: International Journal of Research in Engineering and Technology eISSN: 2319 -1163,pISSN: 2321 -7308). 6. M.I.Abdul and P.D.Arumairaj , Geopolymer Concrete A Review (International Journal of Engineering Sciences and Emerging Technologies, Feb 2012.ISSN: – 2231 -6604 doi: – 10.7323/ijeset/v1 i2 14 volume 1,issue 2,pp: – 118 -122) 7. M.I.Abdul Aleem and P.D.Arumairaj, Optimum Mix for Geopolymer Concrete (Indian Journal of Science and Technology, vol -05, No -03,March 2012 ISSS – 0974 -6846). 8. Mohammed Rabbani Nagral1, Tejas Ostwal, Manojkumar V Chitawadagi, Effect Of Curing Temperature And Curing Hours On The Properties Of Geo -Polymer Concrete ( ISSN (e): 2250 ” 3005 Vol, 04,Issue, 9,September 2014.,International Jour nal of Computation al Engineering Research (IJCER) 9. M.W. Ferdous, O. Kayali and A. Khennane , A Detailed procedure of mix design for fl y ash based geopolymer concrete . 10. Pattanapong Topark Nigarm, Prinyachindaprasirt and vanchai sata Setting Time, str ength and Bond of High Calcium Fly Ash geopolymer Concrete. 11. Suresh.G.Patil, Manojkumar Factors influencing compressive strength of geopolymer concrete (IJRET: International Journal of Research in Engineering and Technology eISSN: 2319 -1163 pISSN: 2 321 -7308). 12. S. Jaydeep, B.J. Chakravarthy, Study On Fly Ash Based GeoPolymer Concrete Using Admixtures (International Journal of Engineering Trends and Technology (IJETT) ” Volume 4 Issue 10 – Oct 2013). 13. Shankar H. Sanni, Khadiranaikar, R. B, P erformance of geopolymer concrete under severe environmental conditions, (International Journal of Civil and Structural Engineering Volume 3, No 2, 2012, ISSN 0976 ” 4399) . 14. R. Anuradha, V. Sreevidyaa, R. Ven katasubramania and B.V. Rangan”, Modified guidelines for Geopolymer Concrete Mix Design Using Indian Standard. 15. Raijiwala D.B. and Patil H. S,Geopolymer Concrete: A Concrete Of Next Decade (Journal of Engineering Research and Studies E -ISSN 0976 -7916). 16. V. Bhikshma, M. Koti Reddyb and T. Srinivas Raoa, An Experimental Investigation On Properties Of Geopolymer Concrete (No Cement Concrete) (Asian Journal of Civil Engineering (Building And housing) Vol. 13, No. 6 (2012) Pages 841 -853) .

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