Steel Design for the Civil PE and Structural SE Exams

Steel Design for the Civil PE and Structural SE Exams

My purpose in writing this book is twofold. First, to help practicing engineers who are
preparing for the civil structural Principles and Practice of Engineering (PE) exam or
the structural engineering (SE) exam, both administered by the National Council
of Examiners for Engineering and Surveying (NCEES).
Second, to help engineering students who are learning about structural steel.
This book, then, is designed to be useful as a guide for studying on your own
or as a text for an introductory or intermediate class in steel design.
The main purpose of this book, Steel Design for the Civil PE and Structural SE
Exams,is to be a study reference for engineers and students who are preparing
to take either the civil structural PE exam or the structural SE exam, both of
which are given by the National Council of Examiners for Engineering and
Surveying (NCEES).
These exams—even the breadth section of the civil PE exam, which is more
general in its scope—often contain structural questions that go beyond the basics.

If you want to be prepared for all questions in steel design, this book will give you

the thorough review you need.

 

However, anyone who wants to learn more about the most current steel design  methods can benefit from this book. It can serve as a guide for those who are studying on their own or as a text in a formal course.

 

After a quick review of some basics in the early chapters, each chapter in turn  explores in greater detail a different aspect of steel design. Among the topics covered are :

• loads and load combinations
• analysis methods
• design  :  of beams, columns, and plate girders
:  of members under combined stresses
:  of composite members
• bolted and welded connections

[su_button url=”https://drive.google.com/open?id=1XXdFjgUlq1uBFMhvDDozXGq0hjWnnk-2″ size=”7″ center=”yes”]Download Link [/su_button]

 

Structural Analysis

Structural Analysis

Structural analysis comprises the set of physical laws and mathematics
required to study and predict the behavior of structures. This new book gathers and presents current research in the field of structural analysis across a broadspectrum of topics.

Discussions in this compilation include: evaluating seismic
safety using non-linear structural analysis; a structural analysis of how art is
made; the structure and function of vegetal ecosystems in semiarid regions of
Northeastern Mexico;

using a covariance structural analysis as a method for supporting efforts to improve employee motivation; and a method for solving linear algebraic equation sets in FE analysis software.

The focus of Chapter 1 is ” How is it that artists know how to make their
work and yet do not know how to explain it?”

In other words, how do they both simultaneously know and not know?

True solutions to the problems of arid and semiarid zones throughout the
world require a mandatory previous evaluation of the natural resources from the
study areas.

In Chapter 2, the main approach is driven to the structure and functioning of the vegetal ecosystems which intimately involves various interrelated elements such as flora, cattle, and other fauna, taking also into account management and commercialization of wooden and non wooden products.

[su_button url=”https://drive.google.com/open?id=1kvGVhTJP9sSs5mq236adecWxAeT-y7kM” size=”7″ center=”yes”]Download Link [/su_button]

 

Construction Technology Fourth Edition

Construction Technology Fourth Edition

There are two general aspects to the construction of buildings:
n conventional or traditional methods;

n modern or industrialised methods.

Conventional or traditional methods are studied in the first two years of most
construction courses, with the intention of forming a sound knowledge base
before proceeding to studies of advanced techniques in the final years.

There is, nevertheless, an element of continuity and overlap between traditional and
contemporary, and both are frequently deployed on the same building, e.g.
traditional brick facing to a prefabricated steel-framed commercial building or
to a factory-made timber-framed house.

Initial studies of building construction concentrate on the smaller type of

structure, such as a domestic dwelling of one or two storeys built by labour-
intensive traditional methods. Generally it is more economic to construct this

type of building by these methods, unless large numbers of similar units are
required on the same site. In these circumstances, economies of scale may justify
factory-manufactured, prefabricated elements of structure.

These industrialised methods are usually a rationalised manufacturing process used to produce complete elements, i.e. floors, walls, roof frames, etc.

In modules or standardised dimensional increments of 300 mm.
Very few building contractors in the UK and other developed countries employ
many staff directly.

They are therefore relatively small companies when compared
with the capital value of the work they undertake.

This is partly due to the variable
economic fortunes of the construction industry and the need for flexibility.

[su_button url=”https://drive.google.com/open?id=1xu86CX9qThJ7SEldaKrwGYgYfv78CDLm” size=”7″ center=”yes”]Download Link [/su_button]

 

Construction Calculations Manual

Construction Calculations Manual

 

Construction Calculations provides the construction, engineering, and project owner community with a single

source guide for many of the formulas and conversion factors that are frequently encountered during the design and construction phase of a project.

The geometry and trigonometry lessons learned years ago sometimes need refreshing. Construction Calculations provides a refresher course on some of the formulas and concepts that tend to crop up from time to time.

A book divided into sections devoted to most of the common components of construction makes it easier

to determine how to achieve a Sound Transmission Coefficient (STC) rating of 50, for example, or how to equate
the amperage capacity of copper and aluminum cable of the same wire size.

A detailed index preceding each section makes it easy to locate the answer to one’s question or at least points
the way to its solution.

The National Institute of Standards and Technology (NIST) (formerly the National Bureau of Standards) was

established by Act of Congress in 1901 to serve as a national scientific laboratory in the physical sciences, and to

provide fundamental measurement standards for science and industry. In carrying out these related functions, the

Institute conducts research and development in many fields of physics, mathematics, chemistry, and engineering.

At the time of its founding, the Institute had custody of two primary standards—the meter bar for length and

the kilogram cylinder for mass. With the phenomenal growth of science and technology over the past century,

the Institute has become a major research institution concerned not only with everyday weights and measures,

but also with hundreds of other scientific and engineering standards that are necessary to the industrial progress

of the nation. Nevertheless, the country still looks to NIST for information on the units of measurement,
particularly their definitions and equivalents.

[su_button url=”https://drive.google.com/open?id=1cPvz-jdc9wdQae6tVOBZ_oDmPmyW21ON” size=”7″ center=”yes”]Download Link [/su_button]

 

Design of Reinforced Concrete : ACI 318-05 Code

Design of Reinforced Concrete : ACI 318-05 Code

 

With this bestselling book, readers will quickly gain a better understanding of the fundamentals of reinforced concrete design.

The author presents a thorough introduction to the field, covering such areas as theories, ACI Code requirements, and the design of reinforced concrete beams, slabs, columns, footings, retaining walls, bearing walls,

 

prestressed concrete sections, and framework. Numerous examples are also integrated throughout the chapters to help reinforce the principles that are discussed.

[su_button url=”https://drive.google.com/open?id=0B2gXA0Oo2HZ3RG5qVUFTdXpGOHM” size=”7″ center=”yes”]Download Link [/su_button]

 

Design of Concrete Structures,14th ed,Nilson

Design of Concrete Structures,14th ed,Nilson

 

The 14th edition of the classic text, Design of Concrete Structures, is completely revised using the newly released 2008 ACI (American Concrete Institute) Code.

This new edition has the same dual objectives as the previous editions;

first to establish a firm understanding of the behavior of structural concrete, then to develop proficiency in the methods used in current design practice.

Design of Concrete Structures covers the behavior and design aspects of concrete and provides updated examples and homework problems.

 

New material on slender columns, seismic design, anchorage using headed deformed bars, and reinforcing slabs for shear using headed studs has been added.

The notation has been thouroughly updated to match changes in the ACI Code.

The text also presents the basic mechanics of structural concrete and methods for the design of individual members for bending,

shear, torsion, and axial force, and provides detail in

the various types of structural systems applications, including an extensive presentation of slabs,footings, foundations, and retaining walls.

[su_button url=”https://drive.google.com/open?id=0B2gXA0Oo2HZ3UENVcWVfZWxLOTQ” size=”7″ center=”yes”]Download Link [/su_button]

 

Handbook of Engineering Hydrology

Handbook of Engineering Hydrology : Modeling, Climate Change, and Variability…

 

This comprehensive handbook covers multiple aspects of hydrology and with a new approach.

Other books on the subject deal mostly with classical aspects of hydrology particularly surface and ground water and physical and chemical pollution.

This volume covers management topics including water scarcity, water security, water policy and governance, and more.

It highlights the environmental aspects of hydrology such as environmental river flow, environmental nanotechnology, phyto-remediation, and constructed wetlands.

[su_button url=”https://drive.google.com/open?id=0B2gXA0Oo2HZ3NUtnOUpKV0xUcnM” size=”7″ center=”yes”]Download Link [/su_button]

 

Traffic Engineering (4th Edition)

Traffic Engineering (4th Edition)

Traffic Engineering, 4e, is ideal for a one/two-semester undergraduate survey, and/or for graduate courses on Traffic Engineering,

Highway Capacity Analysis, and Traffic Control and Operations.

This unique text focuses on the key engineering skills required to practice traffic engineering in a modern setting.

It includes material on the latest standards and criteria of the Manual on Uniform Traffic Control Devices (2003 Edition and forthcoming 2010 Edition),

the Policy on Geometric Design of Highways and Streets (2004 Edition), the Highway Capacity Manual (2000 Edition and forthcoming 2010 Edition), and other critical references.

It also presents both fundamental theory and a broad range of applications to modern problems.

[su_button url=”https://drive.google.com/open?id=0B2gXA0Oo2HZ3OUt5WnFDRUtTUFU” size=”7″ center=”yes”]Download Link [/su_button]

 

Principles of Pavement Engineering

Principles of Pavement Engineering

Principles of pavement engineering offers sound engineering understanding to those learning, practising or researching in this field.

 

It is concerned with the basic principles underlying material behaviour, pavement design and maintenance, and will allow the reader to move beyond a mere following of design standards and become able to tackle problems outside the scope of such requirements.

[su_button url=”https://drive.google.com/open?id=0B2gXA0Oo2HZ3UzNsOHl1S09fTTg” size=”7″ center=”yes”]Download Link [/su_button]

 

Concrete Pavement Design Guidance Notes

Concrete Pavement Design Guidance Notes

This comprehensive design guide summarizes current developments in the design of concrete pavements.

Following an overview of the theory involved, the authors detail optimum design techniques and best practice, with a focus on highway and infrastructure projects.

Worked examples and calculations are provided to describe standard design methods, illustrated with numerous case studies.

The author provides guidance on how to use each method on particular projects,

 

with reference to UK, European and US standards and codes of practice.

Concrete Pavement Design Guidance Notes is an essential handbook for civil engineers, consultants and contractors involved in the design and construction of concrete pavements, and will also be of interest to students of pavement design.

[su_button url=”https://drive.google.com/open?id=0B2gXA0Oo2HZ3WXgxWDIydmIwanM” size=”7″ center=”yes”]Download Link [/su_button]

 

error: Content is protected !!
Exit mobile version