Lecture 1( road construction development) (2).pdf

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University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Highway Engineering
Lecture 1: Road Construction
Development
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Over the course of history, human activities have developed and increased day by
day. Consequently, this has raised the need to transport people and goods from
one place to another. The invention of the wheel in Mesopotamia in about 5000
BC and the development of the axle that linked two wheels (O’Flaherty, 2007),
contributed to the evolution of civilizations by facilitating communications
between different communities and increasing the exchange of goods and the
sharing of ideas and experiences.
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Historically,
the Babylonians built the earliest roads using natural asphalt as a binder;
also the Egyptians constructed roads to transport stones during the building of the
pyramids (Watson, 1994).
The Chinese built the Silk Route, which is amongst the best known roads, in about
2600 BC; and
the Persian Empire also benefited from this route through its lands for trade
between China and Europe (Kendrick et al., 2004).
In Europe, in about 2500 BC, roads were built using log-rafts; such roads have been
discovered in Britain: one crosses the Somerset peat bogs to Glastonbury. Also,
similar roads have been discovered in the Swiss Lakeside Villages and across the
Pangola Swamps in Hungary (Kendrick et al., 2004).
In Indian civilization, brick paving with proper piped surface water drainage systems
dating from about 3000BC has been discovered.
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Historically,
the Babylonians built the earliest roads using natural asphalt as a binder;
also the Egyptians constructed roads to transport stones during the building of the
pyramids (Watson, 1994).
The Chinese built the Silk Route, which is amongst the best known roads, in about
2600 BC; and
the Persian Empire also benefited from this route through its lands for trade
between China and Europe (Kendrick et al., 2004).
In Europe, in about 2500 BC, roads were built using log-rafts; such roads have been
discovered in Britain: one crosses the Somerset peat bogs to Glastonbury. Also,
similar roads have been discovered in the Swiss Lakeside Villages and across the
Pangola Swamps in Hungary (Kendrick et al., 2004).
In Indian civilization, brick paving with proper piped surface water drainage systems
dating from about 3000BC has been discovered.
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Actually, the most professional roads were built by the Roman Empire around 312 BC.
The Romans built 29 major radial roads to connect Rome to other cities and
encampments (O’Flaherty, 2007). Generally, they cut deep ditches, then layers of
chalk, flint, sand and gravel were constructed to form embankments beneath the final
surface, which was finished with huge stone slabs. Figure (2-1) is example of a paved
Roman road. The Roman roads system extended as a loop from Spain through France,
Germany, Italy to Turkey, also through Syria to Tangier in the north west of Africa. The
total length of the roads system was approximately 78000km. However, this roads
system represents the most organized roads system until the 17th century in Europe.
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Figure -1 Roman Road Structure, (Kendrick et al., 2004)
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

The development of the coach during the 16th century led to the start of
stagecoach services between Edinburgh and Leith in 1610. Also, steady
development in manufacturing industries during the 18th century put huge
pressure on the British Parliament, which responded by passing a number of
statutes aimed at improving and extending the road network. By 1706, over
1100 Turnpike Trusts had been created, with responsibility for 36,800 km of
roads. The duties of these Trusts were constructing and maintaining a specified
road length, also to levy tolls upon certain types of traffic. At the same time,
France had applied the same Roman construction principles to build streets in
Paris and elsewhere in France.
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

During the 18th century a new road builders’ era commenced, started by Robert
Phillips when he submitted his suggestion “A dissertation concerning the Present
State of the High Roads of England” to the Royal Society in 1736. Phillips suggested
a solid road surface of a beaten gravel layer resting on a well-drained base. Another
well-known English road maker was John Metcalf, who built 290 km of roads in
Yorkshire. Metcalf believed in good foundation and drainage; he arched
carriageways to help surface water drainage; also, on weak/soft ground, he used a
sub-base raft of bundled heather, Figure (2-2).

Figure Error! No text of specified style in document.-2 Metcalf’s road structure, (Kendrick et al., 2004)
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Additionally, the contributions of two Scottish road engineers, namely Thomas Telford
and John Macadam, were extremely important in the development of road
construction methods and traffic stream carriages; for the first time, roads were being
built to suit the requirements of the traffic. Regarding construction methods,
Macadam’s varied from Telford’s in that the formation was shaped to the road
camber, while the sub-base was formed to camber in Telford’s method - see Figure (2-
3). Also, Macadam’s method was a cheaper form of construction.

Telford’s method Macadam’s method

Figure Error! No text of specified style in document.-3 Telford’s and Macadam’s road structures,
(Kendrick et al., 2004)
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Road development was negatively affected after the first operation of the railways in
1825, as the numbers of passengers who were using stagecoaches started to
decrease continually; consequently the Turnpike revenues decreased. However, at
the beginning of the 20th century, and especially after the end of World War One,
attention to the development of roads and highways was renewed; this interest in
road development resulted from the development in motor vehicles. The
development started with the spreading of tar on roads to control dust created by
vehicles’ movement and then to reconstructing existing roads.
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

However, the development in vehicles in terms of extra weight and speed has led to the
need for new roads and highways; as a result, for example, dual carriageway roads were
constructed and road geometric designs were advanced. Also, vehicle development put
a huge stress on pavement constructors to build structures that could resist high
stresses and bad weather conditions. Accordingly, construction techniques were
advanced; more structural layers were built; and the structural layers and subgrade
were compacted using different materials to improve their mechanical properties.
During the 20th century significant developments in road and highway construction
were achieved to satisfy the traffic requirements. Today, roads and highways represent a
great achievement, but of course the development will not stop and continued
developments are still in demand.
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Pavement Structures
The main purpose of the pavement or pavement layers is
to minimize stresses generated by traffic on the subgrade to such a level where no
deformations occur.
Simultaneously, the pavement layers themselves should be withstanding the stresses
and strains which are imposed on each layer for the entire life of the pavement.

Typically, modern pavement
structures are either flexible,
rigid or a composite of the two.
As can be seen in Figure (2-4),
normally bituminous, hydraulic
bound or concrete layers are
built on foundation courses
depending on the design
decision. The decision and
selection of course and layer
type is generally dependent on
common practices,
availability of the materials,
site characteristics, etc.
University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

It should be known that a layer is an element of a pavement laid in a single
operation, while a course is a structural element of a pavement constructed with a
single material; a course may be laid in one or more layers. However, construction
of the pavement normally starts with enhancing the subgrade “natural soil” bearing
capacity by compaction, and then layers are constructed one by one.
A capping course may be constructed over the subgrade depending on the site
terrain, and then the sub-base course is placed; both capping and sub-base form
the pavement foundation.
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

In a rigid pavement type, a quality concrete layer is normally constructed over the
foundation; in some cases a base course is used. The concrete slab could be reinforced
or plain concrete; also it could be jointed or continuous. Rigid pavement is preferred
for some sites such as
petrol stations and
heavy vehicle lots.
Additionally, a bituminous layer could overlay the concrete course, mainly to enhance
ride quality in terms of noise: this pavement structure is called composite pavement.
 University of Kerbala
College of Eng. Highway Engineering
Department of Civil Eng. Dr. Shakir Al-Busaltan

Flexible pavement courses over the foundation may include base, binder and surface
courses. The base course is the main structural element and it could be constructed
from granular material which may sometimes be mixed with hydraulic or bituminous
material. Binder and surface courses are bituminous mixtures; the surface course is
exposed directly to weather and traffic actions, so this course should withstand traffic
loading, weather action and wearing from tyres. Furthermore, the surface course has to
provide high riding quality and sufficient skid resistance. Flexible pavements represent
the majority of paved roads globally. In Europe and North America, more than 90% of
roads and highways are surfaced with flexible pavements (NAPA and EAEA, 2011), due
to their unique high quality and riding quality, together with the lower cost compared
with other pavement types.