The book is primarily aimed at undergraduate civil engineering students, but it is also an invaluable tool for:
Analysis of pile caps and load distribution. E. Seismic Design Principles
Applying IS 3370 guidelines to ensure concrete remains uncracked under tensile stress.
This book is widely used by undergraduate civil engineering students in India, particularly those following the code.
For industrial storage, the book discusses for calculating lateral pressure on the walls of bunkers and silos, which differ significantly from standard hydrostatic pressure. 6. Yield Line Theory for Slabs
: Features updated durability criteria and two specific chapters on RCC Slab Culverts and an introduction to Pre-stressed Concrete Instructional Style
One of the more challenging topics for students is the yield line analysis of slabs. Bhavikatti provides a simplified yet rigorous treatment of this subject, making it accessible for those designing slabs with irregular shapes or unconventional loading. Core Topics Covered in the PDF
The book's authority stems largely from the expertise of its author, . An Emeritus Fellow (AICTE) , his career includes roles as Principal at RYMEC, Bellary, Professor and Dean at SDMCET, Dharwad, and Professor at NITK, Surathkal.
To help tailor further structural engineering insights, let me know if you are looking to understand a from the textbook, need a breakdown of a particular IS code clause , or want to discuss a specific design methodology like Yield Line Theory. Share public link
Curved beams, circular slabs, and non-rectangular footings.
: Often lists the R.C.C. Vol-II Paperback for purchase.
The book is primarily aimed at undergraduate civil engineering students, but it is also an invaluable tool for:
Analysis of pile caps and load distribution. E. Seismic Design Principles
Applying IS 3370 guidelines to ensure concrete remains uncracked under tensile stress.
This book is widely used by undergraduate civil engineering students in India, particularly those following the code.
For industrial storage, the book discusses for calculating lateral pressure on the walls of bunkers and silos, which differ significantly from standard hydrostatic pressure. 6. Yield Line Theory for Slabs
: Features updated durability criteria and two specific chapters on RCC Slab Culverts and an introduction to Pre-stressed Concrete Instructional Style
One of the more challenging topics for students is the yield line analysis of slabs. Bhavikatti provides a simplified yet rigorous treatment of this subject, making it accessible for those designing slabs with irregular shapes or unconventional loading. Core Topics Covered in the PDF
The book's authority stems largely from the expertise of its author, . An Emeritus Fellow (AICTE) , his career includes roles as Principal at RYMEC, Bellary, Professor and Dean at SDMCET, Dharwad, and Professor at NITK, Surathkal.
To help tailor further structural engineering insights, let me know if you are looking to understand a from the textbook, need a breakdown of a particular IS code clause , or want to discuss a specific design methodology like Yield Line Theory. Share public link
Curved beams, circular slabs, and non-rectangular footings.
: Often lists the R.C.C. Vol-II Paperback for purchase.
| Property | MGO | LNG | LPG | Methanol | L_NH3 | L_H2 |
|---|---|---|---|---|---|---|
| Flash point [℃] | 52 | -188 | -105 | 11 | 132 | -150 |
| Auto ignition temperature [℃] | 250 | 595 | 459 | 464 | 651 | 535 |
| Boiling point at 1 bar [℃] | 20 | -162 | -42 | 20 | -34 | -253 |
| Low Heating Value [MJ/kg] | 42.7 | 50.0 | 46.0 | 19.9 | 18.6 | 120 |
| Density at 1 bar [kg/m3] | 870 | 470 | 580 | 792 | 682 | 71 |
| Energy density [MJ/L] | 36.6 | 21.2 | 26.7 | 14.9 | 12.7 | 8.5 |
| Fuel tank size | 1.0 | 1.7 | 1.4 | 2.5 | 2.9 | 4.3 |
| Ignition energy [MJ] | 0.23 | 0.28 | 0.25 | 0.14 | 8 | 0.011 |
| Flammable concentration range in the air [%] | 0.6 - 7.5 | 5 - 15 | 2.2 - 9.5 | 5.5 - 44 | 15 - 28 | 4 -75 |
| Property | MGO | LNG | LPG | Methanol | L_NH3 | L_H2 |
|---|---|---|---|---|---|---|
| Flash point [℃] | 52 | -188 | -105 | 11 | 132 | -150 |
| Auto ignition temperature [℃] | 250 | 595 | 459 | 464 | 651 | 535 |
| Boiling point at 1 bar [℃] | 20 | -162 | -42 | 20 | -34 | -253 |
| Low Heating Value [MJ/kg] | 42.7 | 50.0 | 46.0 | 19.9 | 18.6 | 120 |
| Density at 1 bar [kg/m3] | 870 | 470 | 580 | 792 | 682 | 71 |
| Energy density [MJ/L] | 36.6 | 21.2 | 26.7 | 14.9 | 12.7 | 8.5 |
| Fuel tank size | 1.0 | 1.7 | 1.4 | 2.5 | 2.9 | 4.3 |
| Ignition energy [MJ] | 0.23 | 0.28 | 0.25 | 0.14 | 8 | 0.011 |
| Flammable concentration range in the air [%] | 0.6 - 7.5 | 5 - 15 | 2.2 - 9.5 | 5.5 - 44 | 15 - 28 | 4 -75 |