Construction Materials and Testing.pptx.pdf

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Construction
Materials and Testing
An Introduction
Learning
Objectives
To learn the different
standards used in
construction materials
 Definition
Construction materials are materials or supply
brought to the site by the Contractor or a
subcontractor for incorporation into the building or
work.

Construction Materials can be traced to as early as
400BC. Civil Engineers deals with the traditional and
modern materials.
 Traditional Construction Materials

Are materials that have been used for centuries, often locally sourced and based on
traditional knowledge and techniques. These materials can be natural, such as wood,
stone, adobe, cob, thatch, and bamboo, or man-made, such as fired bricks, terracotta
tiles, and lime mortar.

In many parts of the world, traditional materials are still commonly used for
construction, especially in rural areas or for buildings with historical or cultural
significance. These materials have proven to be durable, sustainable, and affordable
over time, and can provide thermal and acoustic insulation.
Advanced or Modern
Construction Materials
Modern construction
materials refer to the newer
materials that have emerged
in the construction industry,
which provide innovative
solutions for construction
challenges, such as strength,
durability, sustainability, and
cost-effectiveness.
 Importance
Construction materials play a critical role in the construction of
buildings, infrastructure, and other structures. Their importance lies in
the following aspects:

Strength and Durability: Construction materials provide the
structural integrity and longevity required for buildings and
infrastructure to withstand the forces of nature and use over time.

Safety: Proper selection and testing of construction materials can
ensure the safety of occupants, workers, and the general public
during and after construction.

Aesthetics: Construction materials can enhance the aesthetic appeal
of buildings and structures, and contribute to the cultural and
historical significance of a place.
 Importance

Cost-effectiveness: Proper selection and use of construction
materials can lead to cost savings during construction, operation, and
maintenance of buildings and infrastructure.

Sustainability: Construction materials can impact the
environmental sustainability of the built environment, through
their embodied energy, carbon footprint, and impact on natural
resources.

Innovation: Advancements in construction materials and their use
can lead to innovative and sustainable building practices,
addressing modern challenges such as climate change, energy
efficiency, and affordable housing.
Types of Construction
Materials
Natural Materials
Wood: A natural and
renewable material,
wood is commonly used
in construction for its
durability, strength, and
aesthetic appeal. It is
often used for framing,
flooring, and finishing,
and can be treated for
resistance to fire, insects,
and moisture.
 Natural Materials

◈ Stone: A natural and durable
material, stone is used for its
aesthetic appeal and
resistance to weather and
fire. It is often used for walls,
flooring, and decorative
features, and can be cut and
polished for a smooth finish.
 Types of Construction Materials
Man-made Materials
Concrete: A composite material made of cement, aggregates,
and water. Concrete is used for its strength, durability, and
versatility. It can be used for foundations, walls, floors, and
bridges, and can be reinforced with steel to increase its
strength.
Man-made
◈ Steel: A high-strength
material, steel is used for
its durability, resistance
to weather and fire, and
versatility in
construction. It is often
used for structural
framing, roofing, and
cladding, and can be
recycled for
sustainability.
 Man-made
Brick: A fired clay or concrete block, brick is commonly used
for its durability, insulation, and fire resistance. It is often
used for walls, chimneys, and decorative features, and can be
made in various sizes and colors.
Man-made

Glass: A transparent
material, glass is used for
its aesthetic appeal,
natural light, and energy
efficiency. It can be used
for windows, doors,
facades, and decorative
features, and can be
tempered or laminated
for safety.
 Man-made

Plastics: A versatile and lightweight material, plastics
are used for their insulation, moisture resistance, and
flexibility. They can be used for piping, insulation,
roofing, and structural elements, and can be made
from recycled materials for sustainability.
Man-made
Asphalt: A petroleum-based
material, asphalt is used for its
durability, waterproofing, and
flexibility. It is often used for
paving roads, parking lots, and
driveways, and can be recycled
for sustainability.
Composition: Bitumen,
Aggregate

Overall, the selection of
construction materials depends
on their properties, suitability
for specific applications,
cost-effectiveness, and
environmental sustainability.
 Properties of Construction Materials
A. Mechanical Properties
a. Hardness- it is the ability to resist indentation
b. Toughness- it is the ability to absorb energy and plastic deformation without
fracturing
c. Ductility- it is the ability to deform in plastic range without breaking
d. Stiffness- it is the ability to resist deformation within linear range
e. Durability- it is the ability to last over time without wearing or significant
deterioration
f. Elasticity- property of a material which makes it return to its original
dimension when the load is removed
 Properties of Construction Materials
B. Chemical Properties
a. Corrosion Resistance- it is the ability to withstand corrosion damage
caused by oxidation
b. Fire Resistance- it is the ability to prevent or delays the passage of
excessive heat and fire
c. Chemical Resistance- it is the ability to withstand the action of
acids, alkali, seawater, and gases
 Properties of Construction Materials
C. Physical Properties
a. Density- ratio of mass to its volume
b. Specific Gravity- ratio of density of a substance to density of water
c. Dimension- measurement in one direction of a physical object
d. Porosity- ratio of volume of voids to the volume of substance
e. Void Ratio- ratio of volume of voids
to the volume of solid
f. Water Absorption- amount of water
absorbed
 Testing of Construction Materials
◈ There are two types of testing construction materials –
Destructive and Non-Destructive.
i. Destructive Testing is the evaluation that determines how
a component will behave under pressure.
ii. Non-Destructive Testing is the evaluation that determines
how a component will behave without permanently
damaging the object.
 Destructive Testing
Compression Test
It determines the compressive strength of a specimen under
compressive pressure
 Destructive Testing
Tensile Test
It determines the tensile strength, yield strength and ductility of a metallic
material by pulling up to its breaking point
 Destructive Testing
Flexural Test
It evaluates the tensile strength of concrete indirectly. It tests the
ability of unreinforced concrete beam or slab to withstand failure in
bending. The results of flexural test on concrete expressed as a
modulus of rupture which denotes as (MR) in MPa or psi.
 Tests on Aggregates

Water Aggregate
Sieve Analysis
Absorption Impact Value

Aggregate
Aggregate
Abrasion
Crushing
Value
Tests on Bitumen
Bitumen Content
Flash and Fire Point
Penetration
Softening Point
Specific Gravity
Ductility
Marshal Stability
 Tests on Cement

FINENESS SOUNDNESS CONSISTENCY SETTING TIME
TEST TEST TEST
 Tests on Concrete

COMPRESSION FLEXURAL REBOUND ULTRASONIC
STRENGTH STRENGTH HAMMER PULSE VELOCITY
Steel Reinforcement
Tests
◈ Tensile Strength
◈ Bend Test
◈ Re-bend Test
◈ Shear Test
◈ Brinell Hardness Test
◈ Impact Test
◈ Torsion Test
 Standard-Setting Agencies
ASTM- American Society for Testing and Materials

AASHTO- American Association of State Highway and Transportation
Officials
AISC- American Institute of Steel Construction

ASCE- American Society of Civil Engineers

ACI- American Concrete Institute

ISO- International Organization for Standardization