CE 3121 Construction Materials and Testing Lecture (CMT LEC) PDF

Summary

This document provides an overview of construction materials and testing, including learning outcomes and a study schedule. It's part of a course at Saint Louis University (SLU).

Full Transcript

CE 3121
INSERT RELATED PICTURE HERE

COURSE LEARNING OUTCOMES
At the end of the module, you should be
able to:

1. Explain relevant properties of common
construction materials;

2. Conduct experiments on common
construction materials according to
international standards such as the
American Society for Testing and Materials
(ASTM)

3. Evaluate the results of the test of common
construction materials

CONSTRUCTION
MATERIALS AND
TESTING LECTURE
(CMT LEC)

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 1
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 STUDY SCHEDULE

WEEK TOPIC LEARNING UNIT LECTURE ACTIVITIES
OUTCOME
MODULE 1: FUNDAMENTALS OF CMT LEC

1 TLO 1: Explain and illustrate Unit 1 Engage: Pre-assessment (Recall Strength of
different construction materials Materials)
Oct 8-17, used in the civil engineering Explore: Research and readings on different
2020 practice, apparatus and construction materials used in the civil
equipment used in testing of engineering practice.
materials. Explain:
Lecture:
-Introduction to Construction
Materials & Testing Theorem
Elaborate: Comment on pre-assessment
answer
Evaluate: Module 1 evaluative assessment
MODULE 2: AGGREGATES

2 TLO 2: Explain and illustrate the Units Engage: Pre-assessment aggregates
sources of aggregates, geological 1-8 Explore: Readings on sources of aggregates,
Oct 8-17, classification, and evaluation of geological classification, and evaluation of
2020 aggregate sources, uses, aggregate sources, uses, properties, handling
properties, handling and sampling. and sampling
Explain:
Lecture:
- Aggregate Sources
- Geological Classification
- Evaluation of Aggregate Sources
- Aggregate Uses
- Aggregate Properties
- Handling and Sampling of Aggregates
- Tests for Aggregates

Elaborate: Problem Solving
Evaluate: Module 2 evaluative assessment
Midterm Quiz 1: October 20, 2020
MODULE 3: PORTLAND CEMENT

3 TLO 3: Explain and illustrate the Unit 1 Engage: Pre-assessment cement
production, chemical composition, Explore: Readings on production, chemical
Oct 19-24, fineness, specific gravity, composition, fineness, specific gravity, hydration,
2020 hydration, water cement ratio, water cement ratio, types of cement, mixing
types of cement, mixing water, water, voids in hydrated cement and properties of
voids in hydrated cement and hydrated cement
properties of hydrated cement. Explain:
Lecture:
- Portland Cement Production
- Chemical Composition of Portland Cement
- Fineness of Portland Cement
- Specific Gravity of Portland Cement

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 2
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 - Voids in Hydrated Cement
- Properties of Hydrated Cement
- Types of Portland Cement

Elaborate: Comment on pre-assessment
answer
Evaluate: Module 3 evaluative assessment
Midterm Examination: October 22-23, 2020
MODULE 4: PORTLAND CEMENT CONCRETE

4 TLO 4: Explain and design the Unit 1 Engage: Pre-assessment Concrete
proportioning of concrete mixes, Explore: Readings on proportioning of
Oct 26-31, mixing and handling fresh concrete mixes, mixing and handling fresh
2020 concrete, curing concrete, concrete, curing concrete, properties of
properties of hardened concrete, hardened concrete, testing of hardened
testing of hardened concrete, concrete, alternatives to conventional concrete
alternatives to conventional and admixtures for concrete.
concrete and admixtures for Explain:
concrete. Lecture:
- Proportioning of Concrete

Mixes
- Mixing, Placing and Handling

Fresh Concrete
- Curing Concrete
- Properties of Hardened

Concrete
- Testing of Hardened Concrete
- Alternatives to Conventional
- Concrete
- Admixtures for Concrete

Elaborate: Problem solving
Evaluate: Module 4 evaluative assessment
MODULE 5: MASONRY

5 TLO 5: Explain and illustrate UNIT Engage: Pre-assessment on masonry
different masonry units, properties 1 Explore: Readings on different masonry units,
Nov 2- 7, of mortar mixture, grout mixture properties of mortar mixture, grout mixture and
2020 and plaster. plaster.
Explain:
Lecture:
- Masonry Units
- Mortar
- Grout
- Plaster
- Tests for Masonry

Elaborate: Comment on pre-assessment
answer
Evaluate: Module 5 evaluative assessment
Final Quiz 1: November 7, 2020

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 3
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 MODULE 6: STEEL

6 TLO 6: Explain and illustrate the UNIT1 Engage: Pre-assessment on steel
different kinds of metals used in Explore: Readings on production of steel,
Nov 9-16, construction, metal tests, welding, iron-carbon phase diagram, heat treatment,
2020 and metal corrosion. steel alloys, structural steel, reinforcing steel,
mechanical testing of steel, welding and steel
corrosion.
Explain:
Lecture:
- Types of Metals
- Kinds of Cold-formed Sections
- Reinforcing Steel
- Fastening Products
- Reinforcing Steel
- Mechanical Testing of Steel
- Welding
- Steel Corrosion

Elaborate: Comment on pre-assessment
answer
Evaluate: Module 6 evaluative assessment
MODULE 7: TIMBER

7 TLO-7: Explain and illustrate Unit Engage: Pre-assessment on timber
timber, the different defects, Explore: Readings on wood, different defects
Nov 9-16, wood products, and seasoning. of timber, timber products used in
2020 construction, and methods of seasoning.
Explain:
Lecture:
- Introduction to Timber
- Defects in timber
- Different wood products used in
construction
- Methods of seasoning
Elaborate: Comment on pre-assessment
answer
Evaluate: Module 7 evaluative assessment
Final Examination: November 17, 2020

Saint Louis University Calendar for the First Semester AY 2020-2021
Online Registration: August 5-13, 2020
Start of Classes: August 17, 2020
Ninoy Aquino Day: August 21, 2020 (No Classes)
National Heroes Day: August 31, 2020 (No Classes)
Baguio Foundation Day: September 1, 2020 (No Classes)
All Saints’ Day: November 1, 2020
University Foundation Week: November 26 – December 1, 2020
CICM Day: November 26, 2020
Bonifacio Day: November 30, 2020 (No Classes)
Immaculate Conception: December 8, 2020 (No Classes)

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 4
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 EVALUATION

TO PASS THE COURSE, YOU MUST:
1. Read all course readings and answer the pre-assessment quizzes, self-assessment activities
and problem sets
2. Submit two graded quizzes for midterms and finals.
3. Take the Midterm and Final Examination.

FORMATIVE ASSESSMENT ACTIVITIES
Formative Assessment
Formative assessments such as pre-assessment forms and self-assessment activities aim to
enhance and deepen your understanding of the course. The requirements will be posted upon
the upload of the modules and you are expected to submit your output by the scheduled due
dates. Submission may only be done once and you are not allowed to edit and re-submit your
work. You are required to complete these tasks to complete the course.

All submissions are automatically time stamped and recorded. The honor pledge shall always
be a part of all requirements submitted online.

Summative Assessment

Quizzes and Examination
At least a quiz will be given in a term. It would be given in Google forms where you may be
required to identify, enumerate or explain your viewpoint apart from having multiple choice
type of questions. You will be required to finish each quiz within the given timeframe, usually
1 hour, and you will not be allowed to edit your answers once submitted.

Individual assessments will be conducted as scheduled. Students will be some situational to
give their opinions related to the course.

All submissions are automatically time stamped and recorded. The honor pledge shall always
be a part of all requirements submitted online.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 5
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 TECHNOLOGICAL TOOLS

To be able to accomplish all the tasks in this course, you will be needing the following software
applications: Word Processing, Presentation, Publication, and Spreadsheet. All materials and
activities will be facilitated through Google Suite Applications particularly, Google Forms,
Google Hangouts, Google Meet, and Google Doc. These are all available in the Google Suite
package subscribed by Saint Louis University for you.

Students are required to have a cellphone/laptop/personal computer capable to download the
google classroom application, save pdf/word/ppt files; scan/take photos of written documents;
and view YouTube videos.

ASSIGNMENT GUIDE

I. Output
For each module in which you are given an activity to complete, keep key ideas clear
and pointed out.

II. Rationale
The assignments and graded assessments aim to evaluate your ability to analyze
situations when engineering professionals are faced with situations dealing with obligations,
contracts, and ethics.

III. Materials
The students will have to go through the weekly module and view the video
presentation in their google classroom for the week.
For additional insights students may also refer to the course textbook.

IV. Specific Guidelines
You are required to show your detailed calculations, solutions and answers to given
problems and upload a single pdf file (or jpeg) under the corresponding classwork assigned.
Your answers may be handwritten or computerized following the given format below.

SCHEDULE: ID NUMBER:
NAME: LASTNAME, FIRST NAME
QUESTION/PROBLEM: (Copy the question/problem assigned to you)
ANSWER/SOLUTION:
(Please note that you have to answer only what is being asked in the question/problem assigned.

(BOX/HIGHLIGHT FINAL ANSWERS FOR PROBLEMS AND IMPORTANT CONCEPTS FOR ESSAY
QUESTIONS)

I have neither given nor received unauthorized aid on this assignment, nor have I knowingly tolerated
any violation of the honor code.
Student’s Signature

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 6
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 Use A SINGLE FILE pdf format (jpeg) with file name:

FAMILY NAME, GIVEN NAME INITIALS- MODULE #, UNIT # (e.g. LAZOsk- M1U1)

You will then turn in your solution to the google classroom classwork assignment for that week.

V. Evaluation Tool

All submissions are automatically time stamped and recorded. The rubrics will be
included in Gclassroom- classwork.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 7
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 MODULE 1: FUNDAMENTALS
OF CMT
Recall your discussions in Strength of Materials and answer the following questions.

Formula for Compressive Strength? Application in solving for the compressive strength
of cylindrical concrete specimens, Compressive Strength of wood perpendicular to
grain, and Compressive Strength of wood parallel to grain.

Formula for Bending / Flexural Strength? Application in solving for the Flexural
Strength of Concrete and Wood.

Formula for Tensile Strength? Application in solving for Tensile Strength of Structural
Steels.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 8
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 Read: Read about the following topics:

 Different construction materials used in the civil engineering practice.
 Properties of buildings materials
 Standards of testing

Engineering structures are composed of materials. These materials are known as
engineering materials or materials of construction. It is necessary for the civil engineer to
become conversant with the properties of such materials.

The service conditions of buildings demand a wide range of materials and various properties
such as water resistance, strength, durability, temperature resistance, appearance,
permeability, etc. They are to be properly studied before making final selection of any building
material for a particular use.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 9
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 IMPORTANCE OF THE STUDY OF CONSTRUCTION MATERIALS
i) Know the sources of construction materials;
ii) identify and know the properties of various construction materials;
iii) Know how the materials are tested as per ASTM standards;
iv) Know how to choose proper material from the commercially available varieties for a
particular purpose of construction;
v) Know common defects in the materials;
vi) Know various precautions to be taken while constructing for better durability.

CLASSIFICATION OF ENGINEERING MATERIAL
The factors which form the basis of various systems of classifications of materials in material
science and engineering are:
i. The chemical composition of the material;
ii. The mode of occurrence of the material in nature;
iii. The refining and manufacturing processes to which the material was subjected prior
to the acquisition of the required properties;
iv. The atomic and crystalline structure of material; and
v. The industrial and technical use of the material

Common engineering materials that fall within the scope of material science and engineering
may be classified into one of the following six groups:
a) Metals (ferrous and non-ferrous) and alloys
b) Ceramics - Structural, pipes, including bricks, roof tiles & floors
c) Polymers - a substance that has a molecular structure consisting chiefly or entirely
of a large number of similar units bonded together, e.g., many synthetic organic
materials used as plastics and resins.
d) Composites - Concrete is a composite of aggregate, cement, additives and water.
Disc brake pads are composites of hard ceramic particles embedded in
soft metal. The polymer binds the reinforcement & particulate together.
Polymer matrix composites are lighter than steel, aluminum, concrete and
brick.
e) Advanced materials

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 10
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 PROPERTIES OF ENGINEERING MATERIALS
It is possible to classify material properties as follows:
a) Physical properties. A material undergoes transition under the influence of temperature
and pressure, and these changes are physical in nature, because their
molecules remain intact. [Density, specific gravity, porosity, water
absorption, etc…]
b) Mechanical properties. It is the property of material which opposes the deformation or
breakdown of material in presence of external forces or load. [tensile
strength, compressive strength, rigidity, hardness, creep, fatigue, etc…]
c) Thermal properties. The properties of a material which is related to its conductivity of heat.
These are the properties which are exhibited by a material when heat is
passed through it.
d) Chemical properties. A chemical property is any of a material’s properties that becomes
evident during, or after, a chemical reaction; that is, any qulaity that can
be established only by changing a substance’s chemical identity.
Chemical properties cannot be determined just by viewing or touching
the substance; the substance’s internal structure must be affected
greatly for its chemical properties to be investigated. [resistance to
acids, alkalies, brine, and oxidation]
e) Economic characteristics. Cost saving characteristics.
f) Aesthetic properties. The qualities that make a product attractive to look at, or pleasing to
experience. [color, surface smoothness, the reflection of light, etc…]

PHYSICAL PROPERTIES OF MATERIALS

1. Density (ρ) is defined as mass per unit volume for a material in kg/m 3.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 11
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 Relative density (d) is the ratio of the density of the material with pure water at 4oC.

 material
d
 4 Cwater o

The two types of density are as follows:

a. Bulk Density ( 𝜌𝑏 ) is the mass of a unit volume of material in its natural state ( with pores
and voids) calculated as

M Ms  Mw
b  
V Vs  Vv

Where: Ms = solid mass
Mw = water mass
Vs = volume of solids
Vv = volume of voids

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 12
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 b. Solid density (ρs). It is the ratio of the mass of solid material to the volume of solid
material without any space.

Ms
s 
Vs

Density Index ( 𝜌𝑜) is the ratio of bulk density and relative density. It indicates the degree to
which the volume of a material is filled with solid matter. For almost all building materials 𝜌𝑜
is less than 1.0 because there are no absolutely dense bodies in nature.

2. Specific Weight (𝛾) also known as the unit weight. It is the weight per unit volume of
material. Specific weight can be used in civil engineering to determine the weight of a
structure designed to carry certain loads while remaining intact and remaining within limits
regarding deformation. It is also used in fluid dynamics as a property of the fluid (example:
the specific weight of water on Earth is 9.80 kN/m3 at 4ºC.

W
   g
V or

3. Specific Gravity (Gs) of solid particles of a material is the ratio of weight/ mass of a given
volume of solids to the weight/ mass of an equal volume of water at 4ºC.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 13
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 True or absolute specific gravity (Ga) if both the permeable and impermeable voids are
excluded to determine the true volume of solids, the specific gravity is called true or absolute
specific gravity. The absolute specific gravity is not much of practical use.

Apparent or mass specific gravity (Gm) if both the permeable and impermeable voids are
included to determine the true volume of solids, the specific gravity is called apparent specific
gravity. It is the ratio of mass density of fine grained material to the mass density of water.

4. Porosity (n) is the ratio of the volume of the spaces in the material to the overall volume.

Vv
n
V
Where: V = volume of material including the pores.
Vv = volume of voids in the material

5. Voids ratio (e) the ratio between the size of the voids to the volume of solid material.

Vv
e
Vs
Where: Vs = volume of solid material

6. Water absorption, Ww or Wv, denotes the ability of the material to absorb and retain water. It
is expressed as percentage in weight or of volume of dry material.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 14
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 Ms  M
Ww  (100%)
M
M M
Wv  s (100%)
V
Where: Ms = mass of saturated material
M = mass of dry material
V = volume of material including the pores.

*Water absorption by volume is always less than 100%, whereas that by weight of porous material may exceed
100%.

*The properties of building materials are greatly influenced when saturated. The ratio of compressive strength of
material saturated with water to that in dry state is known as coefficient softening and describes the water resistance
of materials. For materials like clay which is soaked readily, it is zero, whereas for materials like glass and metals, it
is 1. Materials with coefficient softening less than 0.8 should not be recommended in the situations permanently
exposed to the action of moisture.

7. Weathering resistance. It is the ability of a material to endure alternate wet and dry conditions
for a long period without considerable deformation and loss of mechanical strength.

8. Water permeability. It is the capacity of a material to allow water to penetrate under pressure.
Materials like glass, steel and bitumen are impervious.

9. Frost resistance. It denotes the ability of a water-saturated material to endure repeated
freezing and thawing with considerable decrease of mechanical strength. Under such conditions
the water contained by the pores increases in volume even up to 9 percent on freezing.

10. Heat Conductivity is the ability of a material to conduct heat. It is influenced by nature of
material, its structure, porosity, character of pores and mean temperature at which heat
exchange takes place.

11. Thermal Capacity is the property of a material to absorb heat described by its specific heat.

12. Fire Resistance is the ability of a material to resist the action of high temperature without
any appreciable deformation and substantial loss of strength.

13. Refractoriness denotes the ability of a material to withstand prolonged action of high
temperature without melting or losing shape.

14. Chemical Resistance is the ability of a material to withstand the action of acids, alkalis, sea
water and gases.

15. Durability is the ability of a material to resist the combined effects of atmospheric and other
factors.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 15
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 MECHANICAL PROPERTIES OF MATERIALS
The properties which relate to material behavior under applied forces define as mechanical
properties.

1. Strength is the ability of the material to resist failure under the action of stresses caused
by loads.

2. Stress (σ) is the applied force P divided by the original area Ao.
P

Ao
There are several types of stress which depend on types of applied load. These stresses
can be classified as:

a) Compression stress
b) Tension stress
c) Shear stress
d) Bending stress
e) Torsion stress
3. Strain ( ε) is the change in length δ divided by the original length Lo.



Lo
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.

CHARACTERISTICS BEHAVIOUR UNDER STRESS

The ductile materials can be drawn out without necking down.

Brittle materials have little or no plasticity.

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 16
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 Stiff materials have a high modulus of elasticity permitting small deformation for a given
load.

Flexible materials on the other hand have low modulus of elasticity and bend considerably
without breakdown.

Tough materials withstand heavy shocks.

Malleable materials can be hammered into sheets without rupture.

Hard materials resist scratching and denting.

MATERIALS ENGINEERING CONCEPTS

Materials engineers are responsible for the selection, specification, and quality control of
materials to be used in a job. These materials must meet certain classes of criteria or
materials properties (Ashby and Jones 2005). These classes of criteria include:

 Economic factors
 Mechanical properties
 Non-mechanical properties
 Production/construction considerations
 Aesthetic properties

A. ECONOMIC FACTORS

The economics of the material selection process are affected by much more than just the
cost of the material. Factors that should be considered in the selection of the material include:

 Availability and cost of raw materials
 Manufacturing costs
 Transportation
 Placing
 Maintenance

B. MECHANICAL PROPERTIES

The mechanical behavior of materials is the response of the material to external loads. All
materials deform in response to loads; however, the specific response of a material depends
on its properties, the magnitude and type of load, and the geometry of the element.

C. NONMECHANICAL PROPERTIES

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 17
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 Nonmechanical properties refer to characteristics of the material, other than load response,
that affect selection, use, and performance. There are several types of properties that are of
interest to engineers, but those of the greatest concern to civil engineers are density, thermal
properties, and surface characteristics.

D. SUSTAINABLE DESIGN

Sustainable design is the philosophy of designing physical objects, the built environment and
services to comply with the principles of economic, social, and ecological sustainability.

E. AESTHETIC CHARACTERISTICS

The aesthetic characteristics of a material refer to the appearance of the material. Generally,
these characteristics are the responsibility of the architect. However, the civil engineer is
responsible for working with the architect to ensure that the aesthetic characteristics of the
facility are compatible with the structural requirements.

CONSTRUCTION STANDARDS SETTING AGENCIES

1. ASTM INTERNATIONAL (formerly the American Society for Testing and Materials) is a
private organization that establishes specifications for materials and methods of construction
accepted as standards throughout the United States.

2. ANSI (American National Standards Institute) is another private organization that
develops and certifies North American standards for a broad range of products, such as
exterior windows, mechanical components of buildings, and even the accessibility
requirements referenced within the IBC itself (ICC/ANSI A117.1).

3. IS (Indian Standards) is the national Standards Body of India regulating the building
construction activities across the country.

INDIVIDUAL COURSEWORK: SHORT ESSAY

 What are the factors influencing the choice of a building
material?
 Why is it important to make standards for building materials?

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 18
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
  Why is it important to study the properties of building materials?

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 19
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.
 REFERENCES
Allen,E. (2014). Fundamentals of building construction: materials and methods. Sixth Edition.
Allen, E. (2014). Exercises in building construction: forty-six homework and laboratory assignments
to accompany fundamentals of building construction; materials and methods. Sixth edition.
Mamlouk, S., et. Al (2011). Materials for Civil and Construction Engineers. Third edition

INFORMATION OF THE FACILITATOR

Sharon Katherine N. Lazo, CE
E-mail: [email protected]

Property of and for the exclusive use of SLU. Reproduction, storing in a retrieval system, distributing, uploading or posting online, or transmitting in any form or by any 20
means, electronic, mechanical, photocopying, recording, or otherwise of any part of this document, without the prior written permission of SLU, is strictly prohibited.