Construction Materials Testing CE 3121 PDF

Summary

This document details the fundamentals of construction materials testing, covering topics such as the importance of the study, classifications of engineering materials, and various properties. It also covers characteristics behavior under stress, material engineering concepts, and construction standards setting agencies.

Full Transcript

22/08/2024

CE 3121 CONTENTS
TOPICS
1. IMPORTANCE OF THE STUDY OF CONSTRUCTION MATERIALS
2. CLASSIFICATION OF ENGINEERING MATERIAL
COMMON ENGINEERING MATERIALS
3. PROPERTIES OF ENGINEERING MATERIALS

CONSTRUCTION MATERIALS TESTING 4. PHYSICAL PROPERTIES OF MATERIALS
5. MECHANICAL PROPERTIES OF MATERIALS
ENGR. PJGPAMANI 6. CHARACTERESTICS BEHAVIOUR UNDER STRESS
7. MATERIAL ENGINEERING CONCEPTS
8. CONSTRUCTION STANDARDS SETTING AGENCIES
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Module 01 1. IMPORTANCE OF THE STUDY OF CONSTRUCTION MATERIALS
A. Know the sources of construction
materials;
B. Identify and know the properties of
FUNDAMENTALS OF CONSTRUCTION various construction materials;
C. Know how the materials are tested as
MATERIALS TESTING per ASTM standards;
D. Know how to choose proper material from
the commercially available varieties for a
particular purpose of construction;
E. Know common defects in the materials;
F. Know various precaution to be taken
while constructing for better durability.
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2. CLASSIFICATION OF ENGINEERING MATERIAL 3. PROPERTIES OF ENGINEERING MATERIALS
A. The chemical composition of the Physical properties - A
material; material undergoes transition
B. The mode of occurrence of the
material;
under the influence of
C. The refining and manufacturing temperature and pressure, and
processes to which the material was these changes are physical in
subjected prior to the acquisition of nature, because their
the required properties; molecules remain intact.
D. The atomic and crystalline structure [Density, specific gravity,
of materials; and
E. The industrial and technical use of the
porosity, water
material. absorption, etc…]
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2. COMMON ENGINEERING MATERIALS-material science and engineering 3. PROPERTIES OF ENGINEERING MATERIALS
A. METALS (ferrous- w/ iron and
non ferrous-w/o iron) and alloys Mechanical properties. It is the
B. CERAMICS- structural, pipes, property of material which
bricks, roof tiles and floors. opposes the deformation or
C. POLYMERS- syntetic organic breakdown of material in
materials as plastics and resins. presence of external forces
D. COMPOSITES- concrete, disc or load. [tensile strength,
brake etc. compressive strength, rigidity,
E. ADVANCED MATERIALS hardness, creep, fatigue, etc…]

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3. PROPERTIES OF ENGINEERING MATERIALS 3. PROPERTIES OF ENGINEERING MATERIALS
Economic characteristics. Cost saving characteristics
Thermal properties. The
properties of a material Aesthetic properties. The
which is related to its qualities that make a product
conductivity of heat. These attractive to look at, or
are the properties which pleasing to experience.
are exhibited by a material [color, surface smoothness,
when heat is passed the reflection of light, etc…]
through it.

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3. PROPERTIES OF ENGINEERING MATERIALS 4. PHYSICAL PROPERTIES OF MATERIALS
Chemical properties. A chemical
property is any of a material’s properties
1. Density (ρ) is defined
that becomes evident during, or after, a as mass per unit volume
chemical reaction; that is, any quality that for a material in kg/m3.
can be established only by changing a
substance’s chemical identity. Chemical
Relative density (d) is the ratio of
properties cannot be determined just by the density of the material with pure
viewing or touching the substance; the water at 4oC.
substance’s internal structure must be
affected greatly for its chemical
properties to be investigated. [resistance
to acids, alkalies, brine, and oxidation]
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4. PHYSICAL PROPERTIES OF MATERIALS 4. PHYSICAL PROPERTIES OF MATERIALS
The two types of density Where: Density Index ( 𝜌𝑜) is the
are as follows: Ms = solid mass ratio of bulk density and
a. Bulk Density ( 𝜌𝑏 ) is Mw = water mass relative density. It indicates
the mass of a unit volume Vs = volume of solids the degree to which the volume
of material in its natural Vv = volume of voids of a material is filled with
state ( with pores and solid matter. For almost all
voids) calculated as building materials 𝜌𝑜 is less
than 1.0 because there are no
absolutely dense bodies in
nature.
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4. PHYSICAL PROPERTIES OF MATERIALS 4. PHYSICAL PROPERTIES OF MATERIALS
The two types of density 2. Specific Weight (𝛾) also known as the unit weight. It is the
are as follows: weight per unit volume of material. Specific weight can be
b. Solid density (ρs). It is used in civil engineering to determine the weight of a
the ratio of the mass of structure designed to carry certain loads while remaining
solid material to the volume intact and remaining within limits regarding deformation. It is
of solid material without also used in fluid dynamics as a property of the fluid
any space. Where: (example: the specific weight of water on Earth is 9.80 kN/m3
Ms = solid mass at 4ºC.
Vs = volume of solids

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4. PHYSICAL PROPERTIES OF MATERIALS 4. PHYSICAL PROPERTIES OF MATERIALS
3. Specific Gravity (Gs) of solid True or absolute specific gravity
(Ga) if both the permeable and 6. Water absorption, Ww or Wv, denotes the ability of the material
particles of a material is the ratio to absorb and retain water. It is expressed as percentage in weight
impermeable voids are excluded to
of weight/ mass of a given volume determine the true volume of or of volume of dry material. Where:
of solids to the weight/ mass of solids, the specific gravity is called
an equal volume of water at 4ºC. Ms = mass of saturated material
true or absolute specific gravity.
M = mass of dry material
V = volume of material including the
pores
For materials like clay which is soaked readily, it is
Apparent or mass specific gravity (Gm) It is Water absorption by volume is always zero, whereas for materials like glass and metals, it is 1.
less than 100%, whereas that by weight
the ratio of mass density of fine grained of porous material may exceed
Materials with coefficient softening less than 0.8 should
not be recommended in the situations permanently
material to the mass density of water. 100%. exposed to the action of moisture.

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4. PHYSICAL PROPERTIES OF MATERIALS 4. PHYSICAL PROPERTIES OF MATERIALS
4. Porosity (n) is the ratio of the volume of the spaces in 7. Weathering resistance. It is the ability of a material to endure
the material to the overall volume. alternate wet and dry conditions for a long period without
considerable deformation and loss of mechanical strength.
Where:
8. Water permeability. It is the capacity of a material to allow water
V = volume of material including the pores.
to penetrate under pressure. Materials like glass, steel and bitumen
Vv = volume of voids in the material
are impervious.
5. Voids ratio (e) the ratio between the size of the voids to the volume 9. Frost resistance. It denotes the ability of a water-saturated
of solid material. material to endure repeated freezing and thawing with considerable
decrease of mechanical strength. Under such conditions
Where:
the water contained by the pores increases in volume even up to 9
Vs = volume of solid material
percent on freezing.
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4. PHYSICAL PROPERTIES OF MATERIALS 5. MECHANICAL PROPERTIES OF MATERIALS
10. Heat Conductivity is the ability of a material to conduct heat. It is 1. Strength is the ability of the material to resist failure under the
influenced by nature of material, its structure, porosity, character of action of stresses caused by loads.
pores and mean temperature at which heat exchange takes place. 2. Stress (σ) is the applied force P divided by the original area Ao.
11. Thermal Capacity is the property of a material to absorb heat There are several types of stress which depend
described by its specific heat. on types of applied load. These stresses can
12. Fire Resistance is the ability of a material to resist the action of be classified as:
high temperature without any appreciable deformation and substantial a) Compression stress
loss of strength. b) Tension stress
13. Refractoriness denotes the ability of a material to withstand c) Shear stress
prolonged action of high temperature without melting or losing shape. d) Bending stress
e) Torsion stress
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4. PHYSICAL PROPERTIES OF MATERIALS 5. MECHANICAL PROPERTIES OF MATERIALS
14. Chemical Resistance is the ability of a material to withstand 3. Strain ( ε) is the change in
the action of acids, alkalis, sea water and gases. length δ divided by the original
length Lo.
15. Durability is the ability of a material to resist the combined
effects of atmospheric and other factors.
4. Hardness is the ability of a material to resist penetration by a
harder body.
5. Elasticity is the ability of a material to restore its initial form and
dimensions after the load is removed.
6. Plasticity is the ability of a material to change its shape under load
without cracking and to retain this shape after the load is removed.
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6. CHARACTERISTICS BEHAVIOUR UNDER STRESS 7. MATERIALS ENGINEERING CONCEPTS
 The ductile materials can be drawn Materials engineers are responsible for the selection, specification, and
out without necking down. quality control of materials to be used in a job.
 Brittle materials have little or no These materials must meet certain classes of criteria or materials
plasticity. properties (Ashby and Jones 2005).
These classes of criteria include:
 Stiff materials have a high modulus
 Economic factors
of elasticity permitting small
deformation for a given load.  Mechanical properties
 Non-mechanical properties
 Flexible materials on the other hand  Production/construction
have low modulus of elasticity and considerations
bend considerably without breakdown.  Aesthetic properties
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6. CHARACTERISTICS BEHAVIOUR UNDER STRESS 7. MATERIALS ENGINEERING CONCEPTS
 Tough materials withstand heavy A. ECONOMIC FACTORS
shocks.
The economics of the material selection process are affected by
 Malleable materials can be much more than just the cost of the material. Factors that should
hammered into sheets without be considered in the selection of the material include:
rupture.  Availability and cost of raw
materials
 Hard materials resist scratching and
 Manufacturing costs
denting.
 Transportation
 Placing
 Maintenance
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7. MATERIALS ENGINEERING CONCEPTS 8. CONSTRUCTION STANDARDS SETTING AGENCIES
B. MECHANICAL PROPERTIES 1. ASTM INTERNATIONAL (formerly
The mechanical behavior of materials is the response of the the American Society for Testing
material to external loads. All materials deform in response to and Materials) is a private
loads; however, the specific response of a material depends on its organization that establishes
properties, the magnitude and type of load, and the geometry of specifications for materials and
the element. methods of construction accepted
C. NONMECHANICAL PROPERTIES as standards throughout the
Nonmechanical properties refer to characteristics of the material,
United States.
other than load response, that affect selection, use, and performance.
Greatest concern to civil engineers are density, thermal properties,
and surface characteristics.
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7. MATERIALS ENGINEERING CONCEPTS 8. CONSTRUCTION STANDARDS SETTING AGENCIES
D. SUSTAINABLE DESIGN 2. ANSI (American National
Sustainable design is the philosophy of designing physical Standards Institute) is another
objects, the built environment and services to comply with the private organization that develops
principles of economic, social, and ecological sustainability. and certifies North American
E. AESTHETIC CHARACTERISTICS standards for a broad range of
The aesthetic characteristics of a material refer to the products, such as exterior windows,
appearance of the material. Generally, these characteristics are mechanical components of buildings,
the responsibility of the architect. and even the accessibility
requirements referenced within the
IBC itself (ICC/ANSI A117.1)
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8. CONSTRUCTION STANDARDS SETTING AGENCIES CE 3121
3. IS (Indian Standards) is the
national Standards Body of
India regulating the building
construction activities across

MERCI!
the country.

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P-CW01-TLO1: FUNDAMENTALS OF CONSTRUCTION
! MATERIALS ENGINEERING

1. What are the factors influencing the choice of a
building material?
2. Why is it important to make standards for
building materials?
3. Why is it important to study the properties of
building materials?

ENGR. PJGPAMANI – CE 3121 TLO1