Open AccessStresses in Wall of Ferrocement Silo using Finite Element Model
Author(s) -
C. P. Patel,
Sunil Kute,
P. D. Patil,
Renuka Jain
Publication year - 2020
Publication title -
international journal of engineering and advanced technology
Language(s) - English
Resource type - Journals
ISSN - 2249-8958
DOI - 10.35940/ijeat.d7859.049420
Subject(s) - silo , ferrocement , information silo , structural engineering , finite element method , compression (physics) , parametric statistics , engineering , reinforced concrete , materials science , composite material , mechanical engineering , mathematics , statistics
Ferrocement is one of the most inexpensive and alternative construction techniques. The beauty of this materials attracts in analyzing and designing the ferrocement (F.C.) silo. This has encouraged the search for new materials like F.C. to provide an alternative to reinforced concrete. During last two decades, many attempts have been made to develop computational models for analysis of silos particularly in steel and reinforced cement concrete. However, very less work is reported on scientific development of analysis of F.C. silo. This indicates that there is a need to continue with more focus and detailed research on F.C. silo. There is a need to analyze F.C. silo for various parametric findings related to pressure and behavior of silo in tension, compression and flexure. Present paper reports new aspects of analysis of silo. The parametric study of stresses developed in wall of F.C. silo for different H/D ratio, thickness and storage capacity is done with help of commercial ANSYS version R14.5.