Recent Trends in Civil Engineering & Technology

Geo polymer concrete is one of the emerging construction material as a substitute for conventional cement concrete as it eliminate the usage of OPC. It is said that production of 1 tonne of cement emits approximately 1 tonne of carbon dioxide into atmosphere. In order to minimize the liberation of carbon dioxide to air, alternative materials have to be used to replace the cement. Geopolymer concrete in one such material which replaces cement completely by waste materials such as ggbs, flyash etc which is also harmful to atmosphere.

The size of slab panel is 1000mm x 1000m x 650mm. By using yield line theory, the moment of resistance and maximum deflection under flexural loading are calculated for the GPC slabs

Davidovits, J. (1999). Chemistry of Geopolymeric Systems, Terminology. Geopolymer '99 International Conference, France: 9-40.

Timoshenko,S. and Woinowsky – Krieger,S. Theory of plates and shells, second edition,McGraw-Hill Inc., New York,N.Y.,1959.

Ingerslev,A. Om en elementaer berengningmetode af krydsarmerede plader,Ingeneioren,1921,30,507-515.

Johansen,K.W.Beregning af krydsarmerede jernbetonpladers brudmoment, Bygingstatiske meddr,1931,3,1-18.

Desayi P and Muthu K.U. A brief review on strength , deflection and cracking of rectangular,skew and circular reinforced concrete slabs. Journal of institute of science,Mar-Apr,1988,68,91-108.

Wood, R.H. and Armer, G.S.T. the theory of the strip method for design of slabs, proceedings of institution civil engineers(London), 1968,41,285-307

HillerBorg,A. The advanced strip method – a simple design tool, Magazine of concrete research, 1982,34,175-181.

Gurley,R.C. Biomoment equilibrium of finite segments of Hillerborg plate, Magazine of concrete research ,1979,31,142-150.

Gurley,R.C. Biomoment design of some rectangular slabs, Magazine of concrete research, ,1983,35,3-18.

Gvozdev,A.A.Obosnovanie norm proektirovaniya,zhetobetennykh konstrukstsii, storitelnayor promyshlenmost,1939,17.

Ockleston, A.J. load tests on three floor reinforced concrete building in Johannesberg, Structural engineer,1955,33,304-322.

Desayi P and Kulkarni, A.B., load deflection behavior of restrained reinforced concrete slabs, Journal of structural division,ASCE,1977,103,ST2,405-419.(Discussion 104,ST1,231).

Braestrup, M.W. Dome effect in RC slabs : rigid – plastic analysis, Journal of structural division,ASCE,1980,106,ST6,1237-1253. (Discussion 107,ST4,714-716,ST5,1017-1019,ST7,1380-1384,108,479-480).

Muthu K.U,Amarnath,Azmi Ibrahim and Hasheem Mattarneh, “load deflection behavior of restrained reinforced concrete slabs strips”, Journal of structural concrete ,Thomas Telford,United Kingdom,March 2006, pp 17-26.

Muthu K.U,Amarnath,Azmi Ibrahim and Hasheem Mattarneh, “load deflection behavior of restrained reinforced concrete slabs strips” Engineering structures, Elseviers,United Kingdom, vol 29,May 2007,pp663-674.

ACI 318-02,ACI 318R-02,”Building code requirements for structural concrete (ACI 318-02)and commentry (ACI 318R-02)”,ACI standard 2002.

Code of practice for structural use of concrete ,part 1,Design ,materials and workmanship, British standards Institution,BS8110 1997.