Engineering Books

Principles of Structural Analysis: Static and Dynamic Loads

Krishnan Sathia

Preference :

We know that there are various types of forces, moments, pressures, internal strains, and other

stress-inducing agents that act on a structure. In structural engineering parlance, they are called

loads.

Loads can be broadly classified into:

Static loads

Dynamic loads

Content :

Loading
Load Generation
Combining Load Cases
Dynamic Properties of Structures
Dynamic Loads

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Advanced Steel Design of Structures

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Advanced Steel Design of Structures

Srinivasan

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Advanced steel design explores the domain of research and understanding both analysis and design of steel structures in general and offshore compliant structures in particular. The convenience that steel possesses to recycling, repair, and retrofit in comparison to other construction materials, both commercial and eco-friendly points of view is one of the primary advantages. The material strength of steel beyond yield value intuits the plastic design of structures but also warrants about the permanent plastic deformation under excessive loading. A chapter in plastic design deals with a few examples, highlighting the basics.

Content :

1: Introduction. Chapter
2: Plastic Design of Structures.
3: Blast, Fire, and Impact-Resistant Design.
4: Stability of Structural Systems.
5: Mathieu Stability of Compliant Structures.

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Electrical Installation Work

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civil Electric

Electrical Installation Work

Brian Scaddan

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This book is intended for the trainee electrician who is working towards NVQs, gaining competencies in various aspects of installation work. It covers both installation theory and practice in compliance with the 18th edition of the IET Wiring Regulations and also deals with the electrical contracting industry, the environmental effects of electricity, and basic electronics. The material in this book has been arranged to cater to student-centered learning programs. Self-assessment questions and answers are provided at the end of chapters. Since January 1995. As there has been no physical change to the system, it is likely that measurement of voltages will reveal little or no difference to those before, nor will they do so for some considerable time to come. However, I have used only the new values in the examples in this book.

Content :

Basic information and calculations
Electricity
Resistance, current and voltage, power and energy
Electromagnetism
Capacitors and capacitance
Resistance, inductance, and capacitance in installation work
Three-phase circuits
Motors and generators
Cells and batteries
Illumination and ELV lighting
Electricity, the environment, and the community
Health and safety
The electrical contracting industry
Installation materials and tools
Installation circuits and systems
Earthing and bonding
Protection
Circuit and design
Testing
Basic electronics technology
Answers to self-assessment questions
Glossary of Electrical Installation Work

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The Finite Element Method: Its Basis and Fundamentals

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civil Structural Analysis

The Finite Element Method: Its Basis and Fundamentals

O. C. Zienkiewicz,

Preference :

The limitations of the human mind are such that it cannot grasp the behavior of its complex surroundings and creations in one operation. Thus the process of subdividing all systems into their individual components or “elements,” whose behavior is readily understood, and then rebuilding the original system from such components to study its behavior is a natural way in which the engineer, the scientist, or even the economist proceeds. In many situations, an adequate model is obtained using a finite number of well-defined components. We shall term such problems discrete. In others, the subdivision is continued indefinitely and the problem can only be defined using the mathematical fiction of an infinitesimal. This leads to differential equations or equivalent statements which imply an infinite number of elements. We shall term such systems continuous. With the advent of digital computers, discrete problems can generally be solved readily even if the number of elements is very large. As the capacity of all computers is finite, continuous problems can only be solved exactly by mathematical manipulation. The available mathematical techniques for exact solutions usually limit the possibilities of oversimplified situations.

Content :

1. The Standard Discrete System and Origins of the Finite Element Method
2. Problems in Linear Elasticity and Fields
3. Weak Forms and Finite Element Approximation
4. Variational Forms and Finite Element Approximation
5. Field Problems: A Multidimensional Finite Element Method
6. Shape Functions, Derivatives, and Integration
7. Elasticity: Two- and Three-Dimensional Finite Elements
8. The Patch Test, Reduced Integration, and Nonconforming Elements
9. Mixed Formulation and Constraints: Complete Field Methods
10. Incompressible Problems, Mixed Methods, and Other Procedures of Solution
11. Multidomain Mixed Approximations
12. The Time Dimension: Semi-Discretization of Field and Dynamic Problems
13. Plate Bending Approximation: Thin and Thick Plates
14. Shells as a Special Case of Three-Dimensional Analysis
15. Errors, Recovery Processes, and Error Estimates
16. Adaptive Finite Element Refinement
17. Automatic Mesh Generation
8. Computer Procedures for Finite Element Analysis

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Rock Slope Engineering: Civil and Mining

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civil

Rock Slope Engineering: Civil and Mining

Duncan C. Wyllie

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A variety of engineering activities require the excavation of rock cuts. In civil engineering, projects include transportation systems such as highways and railways, dams for power production and water supply, and industrial and urban development. In mining, open pits account for the major portion of the world’s mineral production. The dimensions of open pits range from areas of a few hectares and depths of less than 100 m, for some high-grade mineral deposits and quarries in urban areas, to areas of hundreds of hectares and depths as great as 800 m, for low-grade ore deposits. The overall slope angles for these pits range from near vertical for shallow pits in the good quality rock to flatter than 30◦ for those in very poor quality rock.

Content :

Principles of Rock Slope Design.
Structural Geology and Data Interpretation.
Weathered Rock and Slope Stability.
Site Investigation and Geological Data Collection.
Rock Strength Properties and Their Measurement.
Groundwater. Plane Failure. Wedge Failure.
Circular Failure. Toppling Failure.
Seismic Analysis of Rock Slopes.
Numerical Analysis.
Blasting.
Stabilization of Rock Slopes.
Movement Monitoring.
Civil Engineering Applications.
Appendices: Stereonets For Hand Plotting of Structural Geology Data
Quantitative Description of Discontinuities in Rock Masses
Comprehensive Solution Wedge Stability
Conversion Factors.

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Rotating Machinery Vibration From Analysis to Troubleshooting

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Mechanical

Rotating Machinery Vibration From Analysis to Troubleshooting

Maurice L. Adams

Preference :

Every spinning rotor has some vibration, at least a once-per-revolution frequency component because it is of course impossible to make any rotor perfectly mass balanced. Experience has provided guidelines for quantifying approximate comfortable safe upper limits for allowable vibration levels on virtually all types of rotating machinery. It is rarely disputed that such limits are crucial to machine durability, reliability, and life. However, the appropriate magnitude of such vibration limits for specific machinery is often disputed, with the vendor’s limit usually being higher than a prudent equipment purchaser’s wishes. Final payment for a new machine is occasionally put on hold, pending resolution of the machine’s failure to operate below the vibration upper limits prescribed in the purchase specifications.

Content :

Primer on Rotor Vibration
Rotor Dynamic Analyses
Trouble-Shooting Case Studies
Monitoring and Diagnostics

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Smart Buildings Systems for Architects, Owners and Builders

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civil

Smart Buildings Systems for Architects, Owners and Builders

James M Sinopoli

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Technology has always influenced the buildings we build, and always will. Twenty-five to 30 years ago, however, the amount of technology in a building was minimal. It consisted of the public telecommunications utility installing its services in a building; a mechanical contractor installing a pneumatic control system for the heating, cooling, and ventilation system; and maybe a word-processing system. Although we have come a long way since those days, we are still in a very early stage of fully deploying and integrating technology systems into buildings. In due course, buildings will become full of technology. Walls and ceilings will be embedded with sensors, and every aspect of a building’s performance and use will be metered and measured. Software tools will be used to automatically optimize building systems without human intervention; real-time information about the building that is relevant to their particular needs will be provided to occupants and building management. Buildings will be fully interactive with the power grid, and geospatial location systems will be deployed for every building asset.