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BIM and Construction Management

This book shares a rounded perspective of how BIM and enabling technologies are changing the way we collaborate and distribute information.

As an industry, we are constantly facing new challenges in the field of construction.

This book will show how many of these challenges are being addressed with cutting-edge tools, leveraged with experience, and a practical application of the “right tools for the right job.

” There is a shift happening in the construction management market in the context of technology, and this book serves as a catalyst for more fundamental changes that create positive outcomes.

This book was written for those who wish to learn more about better ways to holistically
leverage BIM and technology in the construction process. Those who will find this book
useful may be:

⦁ Designers wanting to better understand construction managers’ tools and processes
⦁ Construction managers looking to better understand the ways BIM and technology
can be used to create better outcomes
⦁ Subcontractors and project stakeholders looking to find ways to become a more
valued player
⦁ Owners and construction consumers who want to be more informed and who wish
to create a more successful project and project team
⦁ Students who want to grow their knowledge of BIM and technology in
construction and learn how they should challenge the constructs of the industry
where there are better ways of working

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Quality Management in Construction Projects

Quality is a universal phenomenon that has been a matter of great concern throughout recorded history. It was always the determination of builders and makers of products to ensure that their products meet the customer’s desire.

With the advent of globalization and the competitive market, the emphasison quality management has increased. Quality has become the most important single factor for the survival and success of today’s companies.

Customer demands for better products and services at the lowest possible costs have put tremendous pressure on firms to improve the quality of products, services, and processes to compete in the market and improve business results.

It became important that construction projects be more qualitative, competitive,and economical to meet owner’s expectations.

Construction projects have the involvement of many participants including the owner, designer, contractor, and many other professionals from construction-related industries.

Each of these participants is involved in implementing quality in construction projects. These participants are both influenced by and depend on each other in addition to “other players”

involved in the construction process. Therefore, the construction projects have become more complex and technical, and extensive efforts are required to reduce rework and costs associated with time, materials, and engineering.

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Code of Practice for Project Management for Construction and Development

Project management has come a long way since its modern introduction to construction
projects in the late 1950s. Now, it is an established discipline which executively
manages the full development process, from the client’s idea to funding coordination
and acquirement of planning and statutory controls approval, sustainability, design
delivery, through to the selection and procurement of the project team, construction,
commissioning, handover, review, to facilities management coordination.

This Code of Practice positions the project manager as the client’s representative,
although the responsibilities may vary from project to project; consequently,
project management may be defined as ‘the overall planning, co-ordination and
control of a project from inception to completion aimed at meeting a client’s
requirements in order to produce a functionally and financially viable project that
will be completed safely, on time, within authorised cost and to the required
quality standards’.

The fifth edition of this Code of Practice is the authoritative guide and reference to the
principles and practice of project management in construction and development. It
will be of value to clients, project management practices and educational establishments
and students, and to the construction and development industries. Much of
the information contained in the Code of Practice will also be relevant to project
management practitioners operating in other commercial spheres.

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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.

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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.

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Planning and Design of Airports Fifth Edition

The presence of civil aviation has affected our economic way oflife,

it has made changes in our social and cultural viewpoints, and has had a hand in shaping the course of political history.

The sociological changes brought about by air transportation are
perhaps as important as those it has brought about in the economy.

People have been brought closer together and so have reached a better understanding of interregional problems.Industry has found newways to do business.

The opportunity for more frequent exchanges ofinformation has been facilitated, and air transport is enabling more people to enjoy the cultures and traditions of distant lands.

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