STRUCTURAL CONCRETE THEORY AND DESIGN BY M. NADEIM HASSOUN & AKTHEM AL-MANASEER

The design of different structures is achieved by performing, in general, two main steps:

(1) Determining the different forces acting on the structure using proper methods of structural analysis. 

(2) proportioning all structural members economically, considering the safety, stability, serviceability, and functionality of the structure. 

Structural concrete is one of the materials commonly used to design all types of buildings. Its two component materials, concrete and steel, work together to form structural members that can resist many types of loadings. The key to its performance lies in strengths that are complementary; Concrete resists compression and steel reinforcement resists tension forces. 

The term structural concrete indicates all types of concrete and in structural applications. Structural concrete may be plain, prestressed, or partially prestressed concrete; in addition, concrete is used in composite design. Composite design is used for any structural member, such as beams or columns, when the member contains a combination of concrete and steel shapes. 

In this post I am going to share with you a very useful book for design engineers it will act like a handbook for structural engineers to design any structure including beams, one-way and two-way slabs, columns, stair cases etc. 

Contents of the Book

1 Introduction

2 Properties of Reinforced Concrete

3 Flexural Analysis of Reinforced Concrete Beams

4 Flexural Design of Reinforced Concrete Beams

5 Alternative Design Methods

6 Deflection and Control of Cracking

7 Development Length of Reinforcing Bars

8 Shear and Diagonal Tension

9 One-Way Slabs

10 Axially Loaded Columns

11 Members in Compression and Bending

12 Slender Columns

13 Footings

14 Retaining Walls

15 Design for Torsion

16 Continuous Beams and Frames

17 Design of Two-way Slabs

18 Stairs

19 Introduction to Prestressed Concrete

20 Seismic Design of Reinforced Concrete Structures

21 Beams Curved in Plan

Appendix A

Appendix B

Appendix C

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HYDRAULICS OF SPILLWAYS AND ENERGY DISSIPATORS BY R. M. KHATSURIA

“He who Creates a potential danger is responsible for doing everything within human power to control it”

The function of a spillway can be best illustrated as emanating from above well-known legal argument. Impounding large quantity of water behind a dam creates the danger of a dam-break flood wave, which could have catastrophic consequences. The safe design of a dam to avoid such a danger includes a spillway, aptly described as the safety valve of the dam-reservoir system.

In this post I am going to share with you a very effective and useful post related to hydraulics and hydraulic engineering. yeah "Hydraulics of spillways and energy Dissipators" a very well renowned book by "R. M. Khatsuria."

Contents

1.  Spillways: Functions and Classification

2. Spillway Design: An overview

3. Spillway Design floor: Estimation and Selection

4. Ogee or Overflow Spillways

5. Chute and Side Channel Spillways

6. Stepped Spillways

7. Siphon Spillways

8. Shaft Spillways

9. Labyrinth and Duckbill spillways

10. Tunnel and Culvert Spillways

11. Free Jet and Straight Drop Spillways

12. Fuse Plugs and Fuse Gate Spillways

13. Spillways for Flood and Sediment Disposal

14. Unlined Spillways

15. Inflatable Rubber Weirs

16. Overtopping, Protection of Dams used as Spillways

17. Spillway Crest Gates

18. Spillway Construction Stages

19. Energy Dissipators for Spillways

20. Hydraulic Jump Stilliing Basins

21. Trajectory Buckets

22. Solid and Slotted Roller Buckets

23. Energy Dissipators for Shaft and Tunnel Spillways

24. Impact – type energy Dissipators

25. Unconventional Designs

26. Cavitation in Spillways and Energy Dissipators

27. Air Entertainment and Forced Aeration

28. Hydraulic Modeling of Spillways and Energy Dissipators

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THE WILEY DICTIONARY OF CIVIL ENGINEERING AND CONSTRUCTION BY L.F. WEBSTER

The definitions in the book have been compiled to be of use to those working in a wide range of professions related to civil engineering and trades involving architecture, engineering, surveying building, heavy construction, forestry, surface and open-pit mining, and public works. 

About the book

Also included are many terms applicable to the tools and equipment employed in those specialties.

The Civil Engineering definitions and descriptions have been kept purposely brief in the expectation that this book will be used as a source of first reference, rather than as a definitive text.

Dictionary in any field of engineering is an essential book to have with oneself. This book of 600+ Pages is a well known book from mid 90s that serves the purpose and is regarded as reference for any term. 

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BASIC CIVIL AND ENVIRONMENTAL ENGINEERING BOOK BY C.P. KAUSHIK, S.S. BHAVIKATTI, ANUBHA KAUSHIK

Civil Engineering is the oldest branch of engineering which is growing right from the stone-age civilization.  American Society of Civil Engineering defines civil engineering as;

"the profession in which knowledge of the mathematical and physical sciences gained by study, experience and practice is applied with judgement to develop ways to utilize economically the materials and forces of the nature for the progressive well-being of man."

Environment’ is derived from the French word Environner, which means to encircle or surround. All the biological and non-biological entities surrounding us are included in environment. As per Environment (Protection) Act, 1986, environment includes all the physical and biological surroundings of an organism along with their interactions. 

Environment is thus defined as;

“the sum total of water, air and land and the inter-relationships that exist among them and with the human beings, other living organisms and materials.”

About the Book

 In this book various civil engineering infrastructure projects for 21st century are listed and the role of civil engineer is presented. Apart from civil engineering there are other infrastructural facilities required by the public which need coordination with other engineers. Importance of this interdisciplinary approach in engineering is also presented in this chapter.  

"This Book is a very useful book for beginners in civil and environmental engineering, 12 chapters of complete Knowledge"

Content of the Book

Chapter 1: Introduction to Civil engineering

Chapter 2: Basic Areas in Civil Engineering

Chapter 3: Materials of Construction

Chapter 4: Construction of Substructures

Chapter 5: Superstructures

Chapter 6: Introduction to automation in construction

Chapter 7: Introduction to Surveying

Chapter 8: Introduction to Leveling

Chapter 9: Introduction to GIS and Other Survey Softwares

Chapter 10: Ecology and Ecosystem

Chapter 11: Planning for the built Environment

Chapter 12: Energy and Environmental Pollution

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FLUID MECHANICS BY E. JOHN FINNEMORE AND JOSEPH B. FRANZINI SOLUTION MANUAL

As we all know fluid includes gases and liquids, things which are compressible and sometimes non-compressible and doesn't have a shape as a bulk but might have fixed volume in case of liquids. Mechanics is a branch of physics that deals with state of rest or motion of something or somebody   under the influence of an external force. 

Definition of Fluid Mechanics 

 "Thus we can define fluid mechanics as the science of liquids and gases" 

Fluid mechanics involves many of the same principles of solid statics and dynamics, but fluids is a more complex subject because solids involve the study of forces on discrete bodies, while in fluid bodies flow together.

Applications of Fluid Mehanics

Fluid mechanics has huge number of applications in our everyday life, some of them includes, designing of water supply system, dam spillway designs, shock absorbers and brakes in vehicles, design of ships and submarines, design of aircrafts and rocks, design of windmills and turbines, design of bearings etc.

Contents of the Book

1 Properties of Fluids

2 Fluid Statics

3 Basics of Fluid Flow

4 Energy Considerations in Steady Flow

5 Momentum and Forces in Fluid Flow

6 Similtude and Dimensional Analysis

7 Steady Incompressible Flow in Pressure Conduits

8 Forces on Immersed bodies

9 Steady Flow in Open Channels

10 Fluid Measurements

11 Unsteady Flow Problems

12 Steady flow of compressible fluids

13 Ideal Flow Mathematics 

14 Hydraulic Machinery Pumps

15 Hydraulic Machinery – Turbines

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BRIDGE ENGINEERING BY J. A. L WADDELL

Today bridge building is truly a science; only three decades back it as hardly worthy to be termed an art; while seventy-five years ago, it was no better than a trade. Nearly all of the important and distinctive features of modern American Bridge practice have been developed within the memories of engineers still living; and so far as most lines of bridge construction are concerned, the same statement holds true for European practice as well. But while bridge building as a learned profession is thus of very recent origin, it must not be through that the previous centuries made no contributions to our knowledge of bridge construction; for there are in existence today bridges that have withstood the ravages of time for over two thousand years, and the records of antiquity tell of others built many centuries earlier-then before the dawn of authentic history.

 "A structure carrying a road, path, railway, etc. across a river, road, or other obstacle is "known as a bridge.

Contents of the Book

Chapter 1: Evolution of Bridge Engineering

Chapter 2: The Bridge Specialist

Chapter 3: Ordinary Materials of Bridge Construction

Chapter 4: Alloy Steels in BridgeWork

Chapter 5: Dead Loads

Chapter 6:Live Loads

Chapter 7: Impact Loads

Chapter 8: Centrifugal forces and other effects of track curvature

Chapter 9: Wind Loads, Vibration loads, and traction loads

Chapter 10:Methods of Stress Computation

Chapter 11: Secondary stresses, temperature stresses, and indeterminate stresses

Chapter 12:Deflection

Chapter 13: Combination of stresses

Chapter 14: Intensities of working stresses

Chapter 15: First principles of designing

Chapter 16: Detailing in general

Chapter 17: Shopwork as affecting bridge design

Chapter 18: Classes of traffic and provision therefor

Chapter 19: Floors and Floors sytesm

Chapter 20:Laterals and sway-bracing

Chapter 21:Plate Girder and rolled I-Beam bridges

Chapter 22:Simple truss bridge

Chapter 23: Trestles, viaducts and bridge approaches

Chapter 24:Elevated Rail roads

Chapter 25: Cantilever Bridges

Chapter 26: Arch Bridges

Chapter 27: Suspension Bridges

Chapter 28: Movable bridges in general

Chapter 29: Swing Bridges

Chapter 30: Bascule Bridges

Chapter 31: Vertical lift bridges

Chapter 32: Riveted versus pin-connected trusses

Chapter 33: Dimensioning for camber

Chapter 34: Protection of metal work

Chapter 35: Wooden bridges and trestles

Chapter 36: Draw-Bridge Protection

Chapter 37: Reinforced-concrete bridges

Chapter 38: Foundations in general

Chapter 39: Cofferdams

Chapter 40: Open-Dredging Process

Chapter 41: Pneumatic Process

Chapter 42: Piles and Pile Driving

Chapter 43: Piers , pedestals, abutments, retaining walls, and culverts

Chapter 44: Shore protection and mattress work

Chapter 45: Expedients in design and construction

Chapter 46: Data required for designing bridges, trestles and viaducts

Chapter 47: Locating of bridges and preliminary surveys

Chapter 48: Borings

Chapter 49: Determination of water ways

Chapter 50: Requirements of the united States Government for bridging navigable waters

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CIVIL ENGINEERING FORMULAS BY TYLER G. HICKS

The Book "Civil Engineering Formulas" by "Tyler G. Hicks" is a heaven for civil engineers practicing their work in the field, The book is a comprehensive easy to use tool containing hundreds of formulas used on almost every situation. Civil Engineering like all other engineering disciplines contains formulas that has to be memorized or that has to be used by engineers to find solution of a particular problem. These formulas are not easy to memorize as some of them contains number of variables. In such a situation Civil Engineering Formulas  is a very handy tool for you which not only shows the formula but also gives background and also shows how to use that formula. 

The formulas presented in this book are intended for use by civil engineers in every aspect of their professional work—design, evaluation, construction, repair, etc.

How to Use Civil Engineering Formulas?

 To find a suitable formula for the situation you face, start by consulting the index. Every effort has been made to present a comprehensive listing of all formulas in the book. Once you find the formula you seek, read any accompanying text giving back-ground information about the formula. Then when you understand the formula and its applications, insert the numerical values for the variables in the formula. Solve the formula and use the results for the task at hand. 

Where a formula may come from a regulatory code, or where a code exists for the particular work being done, be certain to check the latest edition of the applicable code to see that the given formula agrees with the code formula. 

If it does not agree, be certain to use the latest code formula available. Remember, as a design engineer you are responsible for the structures you plan, design, and build. Using the latest edition of any governing code is the only sensible way to produce a safe and dependable design that you will be proud to be associated with. Further, you will sleep more peacefully!  

Contents of the Book

Chapter 1: Conversion factors for civil engineering practice

Chapter 2: Beam Formulas

Chapter 3: Column Formulas

Chapter 4: Piles and Piling Formulas

Chapter 5: Concrete Formulas

Chapter 6: Timber engineering Formulas

Chapter 7: Surveying Formulas

Chapter 8: Soil and Earthwork Formulas

Chapter 9: Building and Structural Formulas 

Chapter 10: Bridge and Suspension-cable formulas

Chapter 11: Highway and Road formulas

Chapter 12: Hydraulics and waterworks formulas

Chapter 13: Stormwater, sewage, Sanitary Wastewater, and Environmental Protection

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ROCK SLOPE ENGINEERING & CIVIL AND MINING BY DUNCAN C WYLLIE & CHRISTOPHER W MAH

A variety of engineering activities require 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 good quality rock to flatter than 30◦ for those in very poor quality rock.  

Contents of the Book

1. Principles of Rock Slope Design

2. Structural Geology and Data Interpretation

3. Site Investigation and Geological data collection

4. Rock Strength Properties and their measurement

5. Ground Water

6. Plane Failure

7. Wedge Failure

8. Circular Failure

9. Toppling Failure

10. Numerical Analysis

11. Blasting

12. Stabilizing of Rock Slopes

13. Movement Monitoring

14. Civil Engineering Applications

15. Mining Applications

16. Appendix 1,2,3,4

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THE CIVIL ENGINEEIRNG HANDBOOK BY W.F. CHEN AND J.Y RICHARD LIEW

The construction industry is one of the largest segments of business in the United States, with the percentage of the gross national product spent in construction over the last several years averaging about 10%. For 2001, the total amount spent on new construction contracts in the U.S. is estimated at $481 billion [  Engineering News Record,   Nov.  19, 2001].

Of this total, about $214 billion is estimated for residential projects, $167 billion for nonresidential projects, and the rest for non building projects. Construction is the realization phase of the civil engineering process, following conception and design.

It  is the role of the constructor to turn the ideas of the planner and the detailed plans of the designer into physical reality. The owner is the ultimate consumer of the product and is often the general public. 

Contents of the Book

The Civil Engineering Handbook is divided in 8 sections division is given as;

Section 1: Construction

Section 2: Environmental Engineering

Section 3: Geotechnical Engineering

Section 4: Hydraulic Engineering

Section 5: Materials Engineering

Section 6: Structural Engineering

Section 7: Surveying Engineering

Section 8: Transportation Engineering

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CIVIL ENGINEERING PROJECT MANAGEMENT BY ALAN TWORT AND GORDON REES

Virtually all civil engineering structures are unique. They have to be designed for some specific purpose at some specific location before they can be constructed and put to use. Consequently the completion of any civil engineering project involves five stages of activity which comprise the following:

1.Defining the location and nature of the proposed works and the quality and magnitude of the service they are to provide. 

2.Obtaining any powers and permissions necessary to construct the works.

3.Designing the works and estimating their probable cost. 

4.Constructing the works.

5.Testing the works as constructed and putting them into operation.

All the civil engineering works need management of some sort. Construction and Project management is a foundation for the success or failure of any civil engineering project. Project manager is the person that caters all the activities during the project and ensure smooth execution of the activities without any delay so that project can be completed within minimum duration and optimum quality.

This book is very useful and unique, written in simple English, explains each and every definition in project management and is considered as text book for the subject Construction planning and management. 

Contents of the book

Chapter 1: the Development of construction procedures

Chapter2: Procedures for design and construction

Chapter 3: Payment arrangements, risks and Project cost estimating

Chapter 4: Contract conditions used for civil engineering work

Chapter 5: Preparing contract Documents

Chapter 6: Tendering

Chapter 7: The contractor’s site organization

Chapter 8: The employer and his engineer

Chapter 9: The resident engineer’s Duties

Chapter 10: Health and safety regulations

Chapter 11: Starting the construction work

Chapter 12: Site surveys’ investigation and layout

Chapter 13: The resident engineer’s office records

Chapter 14: Programme and Progress Charts

Chapter 15: Measurement and bills of quantities

Chapter 16: Interim monthly payments

Chapter 17: Variations and claims

Chapter 18: Earthworks and pipelines

Chapter 19: Site concerning and reinforcement

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ETABS SHEAR WALL MANUAL UBC 97

ETABS features powerful and completely integrated modules for the design of steel and concrete frames, composite beams and concrete shear walls. This manual documents design of concrete shear walls using the 1997 UBC in ETABS. The goal of this manual is to provide you with all of the information required to reproduce the ETABS Shear Wall Design post processor results using hand calculations.

What is Shear Wall?

"wind and seismic loads are the most common loads that shear walls are designed to carry."

Shear wall is a structural system composed of braced panels or shear panels to resist the effects of lateral load acting on a structure, wind and seismic loads are the most common loads that shear walls are designed to carry. Under several building codes, including the international Building Code and uniform building code, all exterior wall lines in wood or steel frame construction must be braced. Depending on the size of the building some interior walls must be braced as well.

A structure of shear walls in the center of a large building – often encasing an elevator shaft or stairwell – form a shear core. 

Contents of the Manual

Introduction

Shear Wall Design Process

Design Menu commands for shear wall Design

Interactive Shear wall design and Review

General Design Information

Wall pier Design Sections

Wall Spandrel Design Sections

1997 UBC Shear Wall Design Preferences

1997 UBC Shear Wall Design Overwrites

1997 UBC Design Load Combinations

1997 UBC Wall pier Boundary Elements

1997 UBC Wall Pier Flexural Design

1997 UBC Wall pier Shear Design

1997 UBC Spandrel Flexural Design

1997 UBC Spandrel Shear Design

Overview of Shear Wall Output

Output Data plotted directly on the model

Printed Design input data

Printed Design Output data

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BENTLEY POWERSURVEY V8I FREE FULL CRACKED

Power Survey is a comprehensive survey data management solution. It provides surveying professionals with a complete set of survey-specific tools for both InRoads and GEOPAK. Built on MicroStation PowerDraft, the software directly processes the data from your field survey device and automatically displays the resulting graphics onscreen. You can then manipulate the data using PowerSurvey's editing, reduction, and adjustment tools.

Features of Bentley PowerSurvey V8i

Data Collector Support

Power Survey communicates with all industry-leading data collectors. Connect your data collector directly to a personal computer, laptop, or tablet PC and use PowerSurvey to manage the survey data. PowerSurvey can also upload GEOPAK or InRoads data to the data collector for field stakeout procedures.

Customizable Feature-Driven Processing

PowerSurvey supports extensive feature databases that detail the representation of each survey shot or feature  including symbolization, labeling, DTM control, and more. The feature database is completely user-definable and ensures standardization from the field surveyor to designer. As you process data, the software draws points and features in accordance with the feature table specified. With this powerful capability, you can generate drawings onsite immediately after the survey has been collected  for in-field verification.

Survey Data Adjustments

Editing and adjusting your survey data is an intuitive process when you use PowerSurvey. The software employs industry-standard routines to quickly make geometry adjustments and finalize your data. PowerSurvey offers least squares, compass rule, and transit rule adjustments. You can visually inspect the adjusted data and complete the topographic drawing in both DGN and DWG formats. The data can then be shared with the members of the project team that are using either GEOPAK or InRoads.

Interactive Coordinate Geometry 

Bentley PowerSurvey includes integrated coordinate geometry (COGO) tools. This valuable toolset enables you to perform offset commands, intersections, traverse, and many other geometry commands. Additionally, you can leverage the data generated with other modules of the InRoads and GEOPAK families of products.

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STRUCTURAL STEEL DESIGNER'S HANDBOOK BY ROGER AND FREDERICK

Steel structures are considered highly effective in terms of light weight and high rise structures. They are more earth quake resistant and more long lasting. Steel structures needs more maintenance and care as compared with concrete structures.

In advanced countries steel structures are preferred as compared to concrete structures. The availability of steel, types of cross-section required etc. dictates the feasibility of this building material or not.

This book is a must to have book for steel structure designers and engineers. It includes everything from a to z definitions, formulas, worksheets, examples etc. everything one needs in case of steel structure designing.

Sections of the Book

Section 1 : Properties of Structural Steels and Effects of Steelmaking and Fabrication

Section 2: Fabrication and Erection

Section 3: General Structural Theory

Section 4: Analysis of Special Structures

Section 5: Connections

Section 6: Building Design Criteria

Section 7: Design of Building Members

Section 8: Floor and Roof Systems

Section 9: Lateral Force Design

Section 10: Cold-Formed Steel Design

Section 11: Design Criteria for Bridges

Section 12: Beam and Girder Bridges

Section 13: Truss Bridges

Section 14: Arch Bridges

Section 15; Cable-Suspended Bridges

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QUANTITY SURVEYOR'S POCKET BOOK BY DUNCAN CARTLIDGE

Quantity surveyor can be regarded as the initiator of any project, once the project is planned the most important initial step is to quantify the quantities and estimate the rates and prepare a BOQ which is called bill of quantities that contains the unit rates of various items along with the quantity of the material used in that project.

Quantity surveyor is needed in contractors as well as consulting firms that helps the client in preparation of the various bill of quantities.  Quantity surveyor is a very diversified field that needs experience and in-depth knowledge of various construction phases. Like a planning engineer quantity surveyor first has to quantify the project prior the project is not started.

This book can be regarded as a must to have book for a quantity surveyor as it contains a step by step procedures and calculation examples that is required for a successful quantity surveyors.

Contents

1. The Quantity surveyor and the construction industry

2. Forecasting Costs and Value

3. Measurement and Quantification

4. Procurement

5. Pricing and Tendering

6. Contract Procedure, administration and organization

7. Final Account

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STRUCTURAL DYNAMICS AND VIBRATION IN PRACTICE BY DOUGLAS THORBY

This book is primarily intended as an introductory text for newly qualified graduates, and experienced engineers from other disciplines, entering the field of structural dynamics and vibration, in industry. It should also be found useful by test engineers and technicians working in this area, and by those studying the subject in universities, although it is not designed to meet the requirements of any particular course of study.

No previous knowledge of structural dynamics is assumed, but the reader should be familiar with the elements of mechanical or structural engineering, and a basic knowledge of mathematics is also required. This should include calculus, complex numbers and matrices. Topics such as the solution of linear second-order differential equations, and eigenvalues and eigenvectors , are explained in the text.

Each concept is explained in the simplest possible way, and the aim has been to give the reader a basic understanding of each topic, so that more specialize d texts can be tackled with confidence

Contents

Basic Concepts

The Linear Single Degree of Freedom System: Classic Methods

The linear Single Degree of Freedom System: Response in the time Domain

The Linear Single Degree of Freedom system: Response In the Frequency Domain

Damping

Introduction to Multi-degree-of-freedom systems

Eigenvalues and Eigenvectors

Vibration of Structure

Fourier Transformation and Related topics

Random vibration

Vibration Reduction

Introduction to Self-Excited Systems

Vibration Testing

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HYDRAULIC STRUCTURES 4TH EDITION BY P. NOVAK, A.I.B, MOFFAT, C. NALLURI AND R. NARAYANAN

The construction of dams ranks with the earliest and most fundamental of civil engineering activities. All great civilizations have been identified with the construction of storage reservoirs appropriate to their needs, in the earliest instances to satisfy irrigation demands arising through the development and expansion of organized agriculture. Operating within constraints imposed by local circumstance, notably climate and terrain, the economic power of successive civilizations was related to proficiency in water engineering.

Prosperity, health and material progress became increasingly linked to the ability to store and direct water. In an international context, the proper and timely utilization of water resources remains one of the most vital contributions made to society by the civil engineer.

Dam construction represents a major investment in basic infrastructure within all nations. The annual completion rate for dams of all sizes continues at a very high level in many countries, e.g. China, Turkey and India, and to a lesser degree in some more heavily industrialized nations including the United States.

Contents of the Book

Dam Engineering

Elements of Dam Engineering

Embankment dam engineering

Concrete dam engineering

Dam outlet works

Energy dissipation

Gates and valves

Dam Safety: Instrumentation and Surveillance

Part 2 Other Hydraulic Structures

River Engineering

Diversion Works

Cross Drainage and drop structures

Inland Waterways

Hydroelectric power development

Pumping stations

Waves and offshore engineering

Coastal engineering

Models in hydraulic engineering

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ACI BUILDING CODE 318-05

Contents

Introduction

Chapter 1—General Requirements

Chapter 2—Notation And Definitions

Chapter 3—Materials

Chapter 4—Durability Requirements

Chapter 5—Concrete Quality, Mixing, And Placing

Chapter 6—Formwork, Embedded Pipes, And Construction Joints

Chapter 7—Details Of Reinforcement

Chapter 8—Analysis And Design—General Considerations

Chapter 9—Strength And Serviceability Requirements

Chapter 10—Flexure And Axial Loads

Chapter 11—Shear And Torsion

Chapter 12—Development And Splices Of Reinforcement

Chapter 13—Two-Way Slab Systems

Chapter 14—Walls

Chapter 15—Footings

Chapter 16—Precast Concrete

Chapter 17—Composite Concrete Flexural Members

Chapter 18—Prestressed Concrete

Chapter 19—Shells And Folded Plate Members

Chapter 20—Strength Evaluation Of Existing Structures

Chapter 21—Special Provisions For Seismic Design

Chapter 22—Structural Plain Concrete

Appendix A—Strut-And-Tie Models

Appendix B—Alternative Provisions For Reinforced And Prestressed

Appendix C—Alternative Load And Strength Reduction Factors

Appendix D—Anchoring To Concrete

Appendix E—Steel Reinforcement Information

Commentary References

Index

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BRIDGE DESIGN MANUAL - AASHTO

This manual is intended to be a guide for Bridge Designers . It contains design details and methods that have been standardized and it interprets the intent of specifications. It is not intended to govern design in unusual situations nor to unduly inhibit the designer in the exercise of engineering judgment. There is no substitute for good judgment. The following axioms are given as a reminder that simple things make a big difference.

1. Gravity always works — if something is not supported, it will fall.

2. A chain reaction will cause small failures to become big failures, unless alternate load paths are available in the structure (i.e., progressive collapse).

3. Small errors, such as a drafting error or a misplaced decimal, can cause large failures.

4. Vigilance is needed to avoid small errors. This applies to construction inspection as well as in the design phase.

5. A construction job should be run by one person with authority, not a committee. It has been said that a camel is a horse designed and built by a committee.

6. High quality craftsmanship must be provided by everyone.

7. An unbuildable design is not buildable. An obvious fact often overlooked by the architect or structural designer.  Think about how forms will be built, then removed if necessary.

8. There is no foolproof design.

9. The best way to ensure a failure is to disregard or ignore lessons from past failures.

10. Many problems can be avoided by using a little loving care.

Specifications

The AASHTO publications Standard Specifications for Highway Bridges and LRFD Bridge Design Specifications are the basic documents guiding the design of highway bridges and structures. This WSDOT Bridge Design Manual is intended to supplement AASHTO and other specifications by provid-ing  additional direction, design aids, examples, and information on office practices. Where conflicts exist between this manual and the AASHTO Standard Specifications, this manual will control. When a conflict exists that is not resolved within the manual, further guidance shall be obtained from the Bridge Design Engineer or his representative. The AASHTO publications are not duplicated in this manual. Appropriate specifications and other references are listed in Section 1.99.

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EXCEL FILES THAT INTEREST A CIVIL ENGINEER

Today we introduce a lot of Excel Files that interest a civil engineer in all fields of civil engineering and cover all topics in image above.

Hope it's useful.

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BestWishes :)

FUNDAMENTALS OF SURVEYING BY S.K. ROY

Modern surveying involves use of sophisticated scientific instruments, mathematical methods and computational techniques. This book on surveying explains comprehensively the principles of surveying instruments and derivation of mathematical formulae. Separate chapters have been written on “Underground surveys” and “Computer Programs in surveying” to incorporate the recent developments in this field.

 "Surveying is basic to engineering" 

Before any engineering work can be started we must prepare a plan or map of the area showing topographical details. This involves both horizontal and vertical measurements.

Engineering surveying is defined as

 "those activities involved in the planning and execution of surveys for the location, design, construction, operation and maintenance of civil and other engineering projects. "

The surveying activities are;

Preparation of surveys and related mapping specifications

Execution of photogrammetric and field surveys for the collection of required data including topographic and hydrographic data.

Calculation, reduction and plotting of survey data for use in engineering design.

Design and provision of horizontal and vertical control survey networks.

Provision of line and grade and other layout for construction and mining activities. 

Contents of the Book

Introduction

Errors in Measurement

Measurement of Horizontal Distances

Electronic Distance Measurements

Levelling

Permanent Adjustments of Levels

Angles and Directions

Compass Survey

Theodolites

Traverse survey and computations

Curves

Vertical curves

Areas and Volumes

Tacheometry

Plane table surveying

Topographical survey

Construction surveying

Underground surveys

Computer programs in surveying

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ENGINEERING SURVEY 5th EDITION BY M. SCHOFIELD

One common quote is that "Surveying is the heart of civil engineering". Taking this quote in to consideration the book on Engineering Surveying is being written with in depth full knowledge of surveying including leveling, plane table survey, traversing, triangulation etc. 

Foremost among these developments are the modern total stations, including the automatic self-seeking instruments; completely automated, ‘field to finish’ survey systems; digital levels; land/ geographic information systems (L/GIS) for the managing of any spatially based information or activity; inertial survey systems (ISS); and three-dimensional position fixing by satellites (GPS).

In order to include all this new material and still limit the size of the book a conscious decision was made to delete those topics, namely photogrammetry, hydrography and field astronomy, more adequately covered by specialist texts. In spite of the very impressive developments which render engineering surveying one of the most technologically advanced subjects, the material is arranged to introduce the reader to elementary procedures and instrumentation, giving a clear understanding of the basic concept of measurement as applied to the capture, processing and presentation of spatial data. 

Chapters 1 and 4 deal with the basic principles of surveying, vertical control, and linear and angular measurement, in order to permit the student early access to the associated equipment. Chapter 5 deals with coordinate systems and reference datums necessary for an understanding of satellite position fixing and an appreciation of the various forms in which spatial data can be presented to an L/GIS. Chapter 6  deals with control surveys, paying particular attention to GPS, which even in its present incomplete stage has had a revolutionary impact on all aspects of surveying. Chapter 7 deals with elementary, least squares data processing and provides an introduction to more advanced texts on this topic. Chapters 8 to 10 cover in detail those areas (curves, earthworks and general setting out on site) of specific interest to the engineer and engineering surveyor. Each chapter contains a section of ‘Worked Examples’, carefully chosen to clearly illustrate the concepts involved. Student exercises, complete with answers, are supplied for private study. 

The book is aimed specifically at students of surveying, civil, mining and municipal engineering and should also prove valuable for the continuing  education of professionals in these fields.

Contents

Basic concepts of surveying

Vertical Control

Distance

Angles

Position

Control Surveys

Satellite Positioning

Curves

Earthworks

Setting out (Dimensional Control)

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HANDBOOK OF ENGINEERING HYDROLOGY BY SAEID ESLAMIAN

Hydrology is science of water, hydrology deals with occurrence, circulation of water and the distribution of water. It studies the way how water is circulated from sea to vapors then precipitation then infiltration, runoff and other similar activities that are taking place.

This book titled “Handbook of Hydrology” includes bundles of scientific laws and observations from various journals and other research papers it is a must-have book for hydro-geologists, civil engineers, irrigation engineers, hydrologists etc.

Hydrological and ecological connectivity is a matter of high concern.  All  terrestrial  and  coastal ecosystems  are  connected  with  water,  which  includes  groundwater,  and  there  is  a  growing  understanding  that

 “single  ecosystems”  (mountain  forest,  hill  forest,  mangrove  forest,  freshwater swamp, peat swamp, tidal mudflat, and coral reef ) that are actually the result of an artificial perception and classification can, in the long term, only be managed by a holistic vision at the watershed level.  It  is  essential  to  investigate  ecosystem  management  at  the  watershed  level,  particularly  in  a changing climate.

In general, there are two important approaches:

 1.  Adaption to hydrological events such as climate change, drought, and flood

 2.  Qualitative and quantitative conservation of water, thereby optimizing water consumption.

Contents of the Book

  1  Application of Copulas in Hydrology: Geomorphologic Instantaneous Unit Hydrograph and      Intensity Index of Infiltration Frequency

  2  Artificial Neural Network–Based Modeling of Hydrologic Processes

  3  Bank-full Frequency in Rivers

  4  Climate Change and Hydrological Hazards

  5  Climate Change and Hydrologic Modeling

  6  Climate Change and Urban Water Systems

  7  Climate Change Impacts on Hydrolog y and Water Resource

  8  Climate Change: Uncertainty, Impact, and Adaptatio

  9  Dam Risk and Uncertainty

 10  Design Rainfall Estimation and Changes

 11  Discretization in Urban Watersheds

 12  Drought Indices for Drought Risk Assessment in a Changing Climate

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HANDBOOK OF TRANSPORTATION ENGINEERING BY MYER KUTZ

Transportation Engineering is one of a significant part of infrastructure engineering and Civil Engineering. The progress of any country can be judged easily by the quality of standards employed in transportation engineering. With the advancement of technology and employing the modern generation computing device traffic engineering and traffic management has attained a satisfactory level of standard.

This book titled “Handbook of Transportation Engineering” is a must-have book for all the engineers who are practicing in the field of transportation and logistics as well as students who are willing to keep transportation engineering as their major in graduation level or post graduation level.

Contents

National Transportation Networks and Intermodal systems

Transport Network Planning: Theoretical Notions

Transportation Systems Modeling and Evaluation

Software Systems and Simulation for Transportation Applications

Applications of GIS in transportation

Traffic Streets and Highways

National Transportation Networks and Intermodal Systems

Transport Network Planning: Theoretical Notions

Transportation Systems Modeling and Evaluation

Software Systems and Simulation for Transportation Applications

Applications of GIS in Transportation

Traffic Streets and Highways

Traffic Engineering Analysis

Travel Demand Forecasting for Urban Transportation Planning

Highway Capacity

Traffic Control Systems: Freeway Management and Communications

Traffic Signals

Highway Sign Visibility

Traffic Congestion

Geometric Design of Streets and Highways

Intersection and Interchange Design

Pavement Testing and Evaluation

Safety Noise and Air quality

Traffic Safety

Transportation Hazards

Incident Management

Transportation Noise Issues

Transportation Related Air Quality

Non-Automobile Transportation

Pedestrians

Bicycle Transportation

Railway Engineering

Railway Track Design

Improvement of Railroad Yard Operations

Modern Aircraft Design Techniques

Airport Planning and Design

Air Traffic Control System Design

Operations and Economics

Transportation Planning and Modeling

Transportation Economics

Innovative Information Technology Applications in Public Transportation

Parking Management

Trucking Operations

The Economics of Railroad Operations: Resurgence of a Declining Industry

Airline Management and Operations

The Marine Transportation System

Freight Transportation Planning

Transportation management

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MATERIALS FOR CIVIL AND CONSTRUCTION ENGINEERS 3rd EDITION BY MAMLOUK AND ZAINEWSKI

A basic function of civil and construction engineering is to provide and maintain the infrastructure needs of society. The infrastructure includes buildings, water treatment and distribution systems, waste water removal and processing, dams, and highway and airport bridges and pavements. Although some civil and construction engineers are involved in the planning process, most are concerned with the design, construction, and maintenance of facilities.

The common denominator among these responsibilities is the need to understand the behavior and performance of materials. Although not all civil and construction engineers need to be material specialists, a basic understanding of the material selection process, and the behavior of materials, is a fundamental requirement for all civil and construction engineers performing design, construction, and maintenance. Material requirements in civil engineering and construction facilities are different from material requirements in other engineering disciplines. Frequently, civil engineering structures require tons of materials with relatively low replications of specific designs.

Generally, the materials used in civil engineering have relatively low unit costs. In many cases, civil engineering structures are formed or fabricated in the field under adverse conditions. Finally, many civil engineering structures are directly exposed to detrimental effects of the environment.

Contents of Book

Materials Engineering Concepts

Nature of Materials

Steel

Aluminium

Aggregates

Portland Cement, Mixing Water and Admixtures

Portland Cement Concrete

Masonry

Asphalt Binders and Asphalt Mixtures

Wood / Timber

Composites

Experiments

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ADVANCED CONCRETE TECHNOLOGY BY JOHN NEWMAN BAN SENG CHOO

The effects of natural aggregates on the properties of concrete.

Concrete is defined as a workable mixture of a cementations material mostly cement mixed in suitable proportion with fine and coarser aggregate along with water.

Concrete depending upon reinforcement is of two types, plain cement concrete (P.C.C) and reinforced concrete (R.C.C).

Concrete has specific advantages over other structural materials like timber and steel structures. The only draw back of concrete is its poor tensile strength that is compensated with steel bars used in the concrete.

This book of advance concrete technology, is a very comprehensive book for practicing engineers that deals with concrete, its pouring with pumps etc.

Contents

Cements

Calcium Aluminate Cements

Cementitious Additions

Admixtures for concrete, mortar and grout

Geology, Aggregates and classification

Aggregate prospecting and processing

Lightweight aggregate manufacture

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STANDARD HANDBOOK OF ENVIRONMENTAL ENGINEERING 2nd EDITION BY ROBERT A. CORBITT

Environmental engineering is essential for development of facilities for protection of the environment and for the proper management of natural resources. The environmental engineer places special attention on the biological, chemical, and physical reactions in the air, land, and water environments and on improved technology for integrated management systems, including reuse, recycling, and recovery measures.

Importance of Environmental engineering can be readily comprehensible while looking at the changes we are observing here and there relating to climate change, global warming etc. these and some similar phenomenon are commonly being used these days.

This handbook of environmental engineering brings for you in detail the introduction as well as the guidelines for all the problems along with the techniques used to solve the issues and problems regarding our environment

Contents of the Book

Chapter 1 Environmental Engineering

Chapter 2 Environmental Legislation

Chapter 3 Air and Water Quality Standards

Chapter 4 Air Quality Control

Chapter 5 Water Supply

Chapter 6 Waste water Disposal

Chapter 7 Storm Water Management

Chapter 8 Solid Waste

Chapter 9 Hazardous Waste

Chapter 10 Environmental Assessment

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OFFSHORE SOIL MECHANICS BY ARNOLD VERRUIJT

In soil mechanics the equilibrium and movement of s oil b o dies is studied, where soil is understood to be the weathered natural material in the upper layers (say the upper 20 to 100 m) of the earth’s crust. This material may be gravel, sand, clay, peat, or some other rather soft and loose granular medium. The nature of these materials is quite different from artificial man-made materials such as steel, Concrete, etc . These materials usually are much more consistent than soils, and exhibit relatively simple, linear, mechanical behavior, at least if the deformations are not to o large.

The mechanical properties of soils are usually strongly non- linear, with the material exhibiting irreversible plastic deformations when loaded and unloaded, even at lows tress levels, and often showing an isotropic behavior, creep and such typical effects as dilatation (a volume change during shear). 

This mechanical behavior of soil is also difficult to predict, because the structure of the soil may be highly in homogeneous.

Contents

Soil Properties

Theory of Consolidation

Sea Bed Respond to Cyclic Loads

Cutting forces in sand

Beams on elastic foundation

Axially loaded piles

Development of Pile Plug

Laterally Loaded Piles

Pile in Layered Elastic Material

Waves in Piles

Gravity Foundations

References

Index

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