Mortar is made up of cement and sand. Concrete is made from this material. The best mortar manufacturers in Delhi produce a wide range of mortar types. If you are looking for the best mortar then visit our official website.
The document discusses different types of mortars used in construction. It defines mortar as a mixture of a binding material, fine aggregate, and water. Common binding materials are cement and lime, while sand and surkhi are typically used as fine aggregates. The types of mortars described include cement mortar, lime mortar, light weight mortar, fire resistant mortar, and mud mortar. Cement mortar uses cement and sand and develops high strength. Lime mortar uses lime and sand or surkhi and is used above ground. Light weight mortar adds materials like wood or fibers. Fire resistant mortar uses special cement for lining fireplaces. Mud mortar is the cheapest but weakest
Mortars and concretes are mixtures of binding materials, aggregates and water that harden over time. Mortar is used to bind bricks, stones or tiles, while concrete includes both fine and coarse aggregates. There are many types of mortars and concretes classified according to their binding materials, designs and purposes. Cement mortar and concrete provide high strength and durability, while lime and mud mortars are cheaper but weaker. Reinforced concrete includes steel reinforcement to take tensile stresses.
Building mortars are mixtures used for jointing bricks, stones, and blocks. They are made by adding water to a mixture of fine aggregates like sand and a binding material such as cement, lime, or gypsum. Mortars are used in brick/stone masonry joints and plastering to bind units together, provide structure strength and durability, and form a protective weather-resistant layer between masonry courses. Common types include cement mortars, lime mortars, and clay/mud mortars.
This document discusses common materials used in construction - brick, cement, timber, sand, and mortar. For each material, it outlines requirements, types, and uses. Bricks discussed include conventional and standard sizes. Cement types include ordinary portland, pozzolana portland, white, and colored. Timber types are natural and industrial. Sand requirements include being clean, well-graded, and containing sharp grains. Mortar types vary based on binding material, nature of application, and density. The document provides an overview of key materials used for building construction.
The document discusses different types of mortar used in construction. It defines mortar as a mixture of a binding material, fine aggregate, and water. Common binding materials include cement and lime. Mortars are classified by their binding material, such as cement mortar, lime mortar, and mud mortar. Specialty mortars include fire resistant mortar, lightweight mortar, and chemical resistant mortar which are formulated for specific applications. The document outlines the proper mixing and application of different mortars.
In its simplest form, concrete is a mixture of paste and aggregates, or rocks. The paste, composed of portland cement and water, coats the surface of the fine (small) and coarse (larger) aggregates
Mortar is a material used in masonry construction to bind bricks, blocks, and stones together. It provides strength and stability to walls. Mortar is a mixture of sand, a binding material like cement or lime, and water. The binding material determines the mortar type, such as cement mortar, lime mortar, or gypsum mortar. Mortars can also be classified based on density or special purpose, including fire resistant, sound absorbing, or chemical resistant mortars. The proper selection of mortar type depends on factors like durability, weather conditions, and intended use.
The document discusses different types of mortars used in construction. It defines mortar as a mixture of a binding material, fine aggregate, and water. Common binding materials are cement and lime, while sand and surkhi are typically used as fine aggregates. The types of mortars described include cement mortar, lime mortar, light weight mortar, fire resistant mortar, and mud mortar. Cement mortar uses cement and sand and develops high strength. Lime mortar uses lime and sand or surkhi and is used above ground. Light weight mortar adds materials like wood or fibers. Fire resistant mortar uses special cement for lining fireplaces. Mud mortar is the cheapest but weakest
Mortars and concretes are mixtures of binding materials, aggregates and water that harden over time. Mortar is used to bind bricks, stones or tiles, while concrete includes both fine and coarse aggregates. There are many types of mortars and concretes classified according to their binding materials, designs and purposes. Cement mortar and concrete provide high strength and durability, while lime and mud mortars are cheaper but weaker. Reinforced concrete includes steel reinforcement to take tensile stresses.
Building mortars are mixtures used for jointing bricks, stones, and blocks. They are made by adding water to a mixture of fine aggregates like sand and a binding material such as cement, lime, or gypsum. Mortars are used in brick/stone masonry joints and plastering to bind units together, provide structure strength and durability, and form a protective weather-resistant layer between masonry courses. Common types include cement mortars, lime mortars, and clay/mud mortars.
This document discusses common materials used in construction - brick, cement, timber, sand, and mortar. For each material, it outlines requirements, types, and uses. Bricks discussed include conventional and standard sizes. Cement types include ordinary portland, pozzolana portland, white, and colored. Timber types are natural and industrial. Sand requirements include being clean, well-graded, and containing sharp grains. Mortar types vary based on binding material, nature of application, and density. The document provides an overview of key materials used for building construction.
The document discusses different types of mortar used in construction. It defines mortar as a mixture of a binding material, fine aggregate, and water. Common binding materials include cement and lime. Mortars are classified by their binding material, such as cement mortar, lime mortar, and mud mortar. Specialty mortars include fire resistant mortar, lightweight mortar, and chemical resistant mortar which are formulated for specific applications. The document outlines the proper mixing and application of different mortars.
In its simplest form, concrete is a mixture of paste and aggregates, or rocks. The paste, composed of portland cement and water, coats the surface of the fine (small) and coarse (larger) aggregates
Mortar is a material used in masonry construction to bind bricks, blocks, and stones together. It provides strength and stability to walls. Mortar is a mixture of sand, a binding material like cement or lime, and water. The binding material determines the mortar type, such as cement mortar, lime mortar, or gypsum mortar. Mortars can also be classified based on density or special purpose, including fire resistant, sound absorbing, or chemical resistant mortars. The proper selection of mortar type depends on factors like durability, weather conditions, and intended use.
This document provides information on mortar, including its definition, types, functions, composition, properties, and classification. It defines mortar as a workable paste used to bind construction blocks together and fill gaps. The main types discussed are cement mortar, lime mortar, surkhi mortar, gauged mortar, and mud mortar. The functions of mortar include binding materials, carrying out plastering and pointing, forming an even bedding layer, and improving appearance. Modern mortars are typically made of sand, a binder like cement or lime, and water. The properties and classification of mortar are also outlined.
A mortar is a mixture used to bind masonry elements like bricks. It consists of sand, a binding agent like cement or lime, and water. Mortar bonds elements together, allows forces to be transmitted between them, and enables forces to be distributed across surfaces. There are several types of mortar including mud, lime-sand, cement-sand, and cement-lime-sand. The properties of mortar depend on factors like the binder, sand, water and curing used. Mortar must be workable but also develop strength over time.
A mortar is a mixture used to bind masonry elements like bricks. It consists of sand, a binding agent like cement or lime, and water. Mortar bonds elements together, allows forces to be transmitted between them, and enables forces to be distributed across surfaces. There are several types of mortar including mud, lime-sand, cement-sand, and cement-lime-sand. The properties of mortar depend on factors like the binder, sand, water and curing used. Mortar must be workable but also develop strength over time.
This document provides an overview of concrete technology. It defines cement and concrete and describes their composition and manufacturing processes. It discusses the properties and types of cement and concrete, how workability is measured, and testing methods for fresh and hardened concrete, including compressive strength, slump, and rebound hammer tests. The document also outlines the processes for mixing, transporting, placing, compacting, curing, and finishing concrete.
Mortar is a workable paste used to bind construction blocks together and fill gaps. It is typically made of sand, a binder like cement or lime, and water. Mortar hardens after setting to form a rigid structure. Different types of mortar are used depending on the binder, intended use, and required properties. Cement mortar provides high strength and is used for load-bearing walls. Lime mortar is used above ground, while mud mortar is a cheaper option for ordinary buildings. Special mortars include fire-resistant, lightweight, and sound absorbing varieties.
This document discusses lime and cement mortar. It defines lime as a cementing material used in construction that binds structural units together. There are three main types of lime: quicklime, hydrated lime, and hydraulic lime. Lime is produced through the thermal decomposition of limestone, then reaction with water. Cement mortar is a mixture of cement, sand, and water used in masonry. The document outlines the selection of materials, proper proportions, and mixing process for cement mortar. It also discusses the properties and common uses of both lime and cement mortar in construction.
In presentation I have covered all the topics of building materials which are used in construction work of any building like stone,brick,sand,cement,etc.
M sand difference between river sand and m sand & Manufactured sand- properti...Denish Jangid
Manufactured sand (M-Sand) is produced by crushing granite stone in impact crushers. It is a substitute for river sand in concrete construction. M-Sand has cubical shapes with grounded edges and is washed and graded to less than 4.75mm. It is used as river sand deposits are being depleted and M-Sand addresses issues like availability, transportation costs, and quality variations in river sand. M-Sand improves the strength, durability, and workability of concrete while reducing construction defects and costs. It is a more sustainable alternative to river sand for concrete.
This document discusses various building materials used in construction. It describes natural materials like stone, brick, lime and artificial materials like cement and aggregates. It provides classifications and properties of each material. Stone, brick, lime, cement and aggregates are used along with mortar in masonry works, concrete works, plastering and other construction activities of buildings.
Mortar, Composition of mortar, Types of Mortar, Mixing of Mortar, Selection o...Naqeeb Khan Niazi
Mortar is a workable paste which hardens to bind building blocks such as stones, bricks, and concrete masonry units, to fill and seal the irregular gaps between them, spread the weight of them evenly, and sometimes to add decorative colors or patterns to masonry walls.
Mortar
Composition of mortar
Types of Mortar, Mixing of Mortar
Selection of Mortar
Supplying of Mortar
Uses of Mortar
Quantity of Mortar in a wall
Aggregates: Review of types; sampling and testing; effects on properties of concrete, production of artificial aggregates.
Cements: Review of types of cements, chemical composition; properties and tests, chemical and physical process of hydration,Blended cements.Properties of fresh concrete - basics regarding fresh concrete –
mixing, workability, placement, consolidation, and curing,
segregation and bleeding
Chemical Admixtures: types and classification; actions and
interactions; usage; effects on properties of concrete
Mineral Admixtures: Flyash, ground granulated blast furnace slag,
metakaolin, rice-husk ash and
silica fume; chemical composition; physical characteristics; effects
on properties of concrete; advantages and disadvantages.
Proportioning of concrete mixtures: Factors considered in the design of mix . BIS Method, ACI method.,Properties of hardened concrete: Strength- compressive tensile
and flexure - Elastic properties - Modulus of elasticity - Creep-
factors affecting creep, effect of creep - shrinkage- factors affecting
shrinkage, plastic shrinkage, drying shrinkage, autogeneous
shrinkage, carbonation shrinkage ,Durability of concrete: Durability concept; factors affecting,
reinforcement corrosion; fire resistance; frost damage; sulfate
attack; alkali silica reaction; concrete in sea water, statistical quality
control, acceptance criteria as per BIS code.
Non-destructive testing of concrete: Surface Hardness, Ultrasonic,
Penetration resistance, Pull-out test, chemical testing for chloride
and carbonation- core cutting - measuring reinforcement cover
Special concretes - Lightweight concrete- description of various
types -High strength concrete - Self compacting concrete -Roller
compacted concrete – Ready mixed concrete – Fibre reinforced
concrete - polymer concrete
Special processes and technology for particular types of
structure - Sprayed concrete; underwater concrete, mass concrete;
slip form construction, Prefabrication technology
The document discusses various building materials used in civil engineering projects. It describes the properties and uses of common materials like stone, brick, lime, cement, timber, sand, aggregates, mortar and concrete. For each material, it covers types/classes, composition, properties and applications in construction. The key materials discussed include stone, which is used for foundations, walls and arches. Bricks are made from clay and come in traditional and modular sizes. Lime is a cementing material used to make mortar and concrete. The document also examines portland cement and its various types, as well as the uses of timber, sand, aggregates, mortar and concrete in civil works.
This document is a chemistry investigatory project on the setting of cement. It was completed by Divyanshu Kumar, a class 12 student at Kendriya Vidyalaya No. 2 in Visakhapatnam, India under the guidance of his chemistry teacher Mr. B. Sreedhar. The project studied how the strength of cement mixtures changed over time when mixed with different materials like sand, fly ash, and lime. It found that the strength of cement mixtures increased with longer setting times. The document provided background information on cement and discussed factors that affect the setting of cement mortar like the quality of sand used and the amount of time allowed for setting.
This document is a chemistry investigatory project on the setting of cement. It was completed by Divyanshu Kumar, a class 12 student at Kendriya Vidyalaya No. 2 in Visakhapatnam, India under the guidance of his chemistry teacher Mr. B. Sreedhar. The project studied how the strength of cement mixtures changed over time when mixed with different materials like sand, fly ash, and lime. It described the key components of cement, the curing process, and factors that affect the setting and hardening of cement mixtures. The student conducted experiments mixing cement with various materials and measured the strength of the samples after 3, 7, and 10 days.
Chemistry Investigatory Project on Setting Of Cement Class 12DIVYANSHU KUMAR
This document is a chemistry investigatory project on the setting of cement. It was completed by Divyanshu Kumar, a class 12 student at Kendriya Vidyalaya No. 2 in Visakhapatnam, India under the guidance of his chemistry teacher Mr. B. Sreedhar. The project studied how the strength of cement mixtures changed over time when mixed with different materials like sand, fly ash, and lime. It described the key components of cement, the curing process, and factors that affect the setting and hardening of cement mixtures. The student conducted experiments mixing cement with various materials and measured the breaking strength of the samples after 3, 7, and 10 days.
Lime mortar uses lime as a binding material along with sand and crushed stone. Cement is sometimes added to lime mortar to increase its strength and decrease setting time. Cement mortar is stronger than lime mortar and gains strength more quickly. There are different methods used for mixing mortar depending on the quantity needed, including hand mixing, machinery mixing, and mixing in trucks.
Mud bricks are made by pressing a mixture of sticky clay and sand into molds. The proper mixture is necessary for strength - too much clay can cause cracks, while too much sand makes bricks weak. Raw mud bricks are dried slowly in the shade and can be strengthened by mixing grass into the soil mixture. Mud-cement bricks are similar but include 3-7% cement. Burned bricks are fired in kilns, making them stronger and their strength unaffected by water. They are smaller than raw bricks for convenience in kilns. Cement blocks are increasingly used as burned bricks have become more costly - they are hollow inside to reduce weight and costs but remain very strong.
Mud bricks are made by pressing a mixture of sticky clay and sand into molds. The proper mixture is necessary for strength - too much clay can cause cracks, while too much sand makes bricks weak. Raw mud bricks are dried slowly in the shade and can be strengthened by mixing grass into the soil mixture. Mud-cement bricks are similar but include 3-7% cement. Burned bricks are fired in kilns, making them stronger and their strength unaffected by water. They are smaller than raw bricks for convenience in kilns. Cement blocks are increasingly used as burned bricks have become more costly - they are hollow inside to reduce weight and costs but remain very strong.
This document provides information on mortar, including its definition, types, functions, composition, properties, and classification. It defines mortar as a workable paste used to bind construction blocks together and fill gaps. The main types discussed are cement mortar, lime mortar, surkhi mortar, gauged mortar, and mud mortar. The functions of mortar include binding materials, carrying out plastering and pointing, forming an even bedding layer, and improving appearance. Modern mortars are typically made of sand, a binder like cement or lime, and water. The properties and classification of mortar are also outlined.
A mortar is a mixture used to bind masonry elements like bricks. It consists of sand, a binding agent like cement or lime, and water. Mortar bonds elements together, allows forces to be transmitted between them, and enables forces to be distributed across surfaces. There are several types of mortar including mud, lime-sand, cement-sand, and cement-lime-sand. The properties of mortar depend on factors like the binder, sand, water and curing used. Mortar must be workable but also develop strength over time.
A mortar is a mixture used to bind masonry elements like bricks. It consists of sand, a binding agent like cement or lime, and water. Mortar bonds elements together, allows forces to be transmitted between them, and enables forces to be distributed across surfaces. There are several types of mortar including mud, lime-sand, cement-sand, and cement-lime-sand. The properties of mortar depend on factors like the binder, sand, water and curing used. Mortar must be workable but also develop strength over time.
This document provides an overview of concrete technology. It defines cement and concrete and describes their composition and manufacturing processes. It discusses the properties and types of cement and concrete, how workability is measured, and testing methods for fresh and hardened concrete, including compressive strength, slump, and rebound hammer tests. The document also outlines the processes for mixing, transporting, placing, compacting, curing, and finishing concrete.
Mortar is a workable paste used to bind construction blocks together and fill gaps. It is typically made of sand, a binder like cement or lime, and water. Mortar hardens after setting to form a rigid structure. Different types of mortar are used depending on the binder, intended use, and required properties. Cement mortar provides high strength and is used for load-bearing walls. Lime mortar is used above ground, while mud mortar is a cheaper option for ordinary buildings. Special mortars include fire-resistant, lightweight, and sound absorbing varieties.
This document discusses lime and cement mortar. It defines lime as a cementing material used in construction that binds structural units together. There are three main types of lime: quicklime, hydrated lime, and hydraulic lime. Lime is produced through the thermal decomposition of limestone, then reaction with water. Cement mortar is a mixture of cement, sand, and water used in masonry. The document outlines the selection of materials, proper proportions, and mixing process for cement mortar. It also discusses the properties and common uses of both lime and cement mortar in construction.
In presentation I have covered all the topics of building materials which are used in construction work of any building like stone,brick,sand,cement,etc.
M sand difference between river sand and m sand & Manufactured sand- properti...Denish Jangid
Manufactured sand (M-Sand) is produced by crushing granite stone in impact crushers. It is a substitute for river sand in concrete construction. M-Sand has cubical shapes with grounded edges and is washed and graded to less than 4.75mm. It is used as river sand deposits are being depleted and M-Sand addresses issues like availability, transportation costs, and quality variations in river sand. M-Sand improves the strength, durability, and workability of concrete while reducing construction defects and costs. It is a more sustainable alternative to river sand for concrete.
This document discusses various building materials used in construction. It describes natural materials like stone, brick, lime and artificial materials like cement and aggregates. It provides classifications and properties of each material. Stone, brick, lime, cement and aggregates are used along with mortar in masonry works, concrete works, plastering and other construction activities of buildings.
Mortar, Composition of mortar, Types of Mortar, Mixing of Mortar, Selection o...Naqeeb Khan Niazi
Mortar is a workable paste which hardens to bind building blocks such as stones, bricks, and concrete masonry units, to fill and seal the irregular gaps between them, spread the weight of them evenly, and sometimes to add decorative colors or patterns to masonry walls.
Mortar
Composition of mortar
Types of Mortar, Mixing of Mortar
Selection of Mortar
Supplying of Mortar
Uses of Mortar
Quantity of Mortar in a wall
Aggregates: Review of types; sampling and testing; effects on properties of concrete, production of artificial aggregates.
Cements: Review of types of cements, chemical composition; properties and tests, chemical and physical process of hydration,Blended cements.Properties of fresh concrete - basics regarding fresh concrete –
mixing, workability, placement, consolidation, and curing,
segregation and bleeding
Chemical Admixtures: types and classification; actions and
interactions; usage; effects on properties of concrete
Mineral Admixtures: Flyash, ground granulated blast furnace slag,
metakaolin, rice-husk ash and
silica fume; chemical composition; physical characteristics; effects
on properties of concrete; advantages and disadvantages.
Proportioning of concrete mixtures: Factors considered in the design of mix . BIS Method, ACI method.,Properties of hardened concrete: Strength- compressive tensile
and flexure - Elastic properties - Modulus of elasticity - Creep-
factors affecting creep, effect of creep - shrinkage- factors affecting
shrinkage, plastic shrinkage, drying shrinkage, autogeneous
shrinkage, carbonation shrinkage ,Durability of concrete: Durability concept; factors affecting,
reinforcement corrosion; fire resistance; frost damage; sulfate
attack; alkali silica reaction; concrete in sea water, statistical quality
control, acceptance criteria as per BIS code.
Non-destructive testing of concrete: Surface Hardness, Ultrasonic,
Penetration resistance, Pull-out test, chemical testing for chloride
and carbonation- core cutting - measuring reinforcement cover
Special concretes - Lightweight concrete- description of various
types -High strength concrete - Self compacting concrete -Roller
compacted concrete – Ready mixed concrete – Fibre reinforced
concrete - polymer concrete
Special processes and technology for particular types of
structure - Sprayed concrete; underwater concrete, mass concrete;
slip form construction, Prefabrication technology
The document discusses various building materials used in civil engineering projects. It describes the properties and uses of common materials like stone, brick, lime, cement, timber, sand, aggregates, mortar and concrete. For each material, it covers types/classes, composition, properties and applications in construction. The key materials discussed include stone, which is used for foundations, walls and arches. Bricks are made from clay and come in traditional and modular sizes. Lime is a cementing material used to make mortar and concrete. The document also examines portland cement and its various types, as well as the uses of timber, sand, aggregates, mortar and concrete in civil works.
This document is a chemistry investigatory project on the setting of cement. It was completed by Divyanshu Kumar, a class 12 student at Kendriya Vidyalaya No. 2 in Visakhapatnam, India under the guidance of his chemistry teacher Mr. B. Sreedhar. The project studied how the strength of cement mixtures changed over time when mixed with different materials like sand, fly ash, and lime. It found that the strength of cement mixtures increased with longer setting times. The document provided background information on cement and discussed factors that affect the setting of cement mortar like the quality of sand used and the amount of time allowed for setting.
This document is a chemistry investigatory project on the setting of cement. It was completed by Divyanshu Kumar, a class 12 student at Kendriya Vidyalaya No. 2 in Visakhapatnam, India under the guidance of his chemistry teacher Mr. B. Sreedhar. The project studied how the strength of cement mixtures changed over time when mixed with different materials like sand, fly ash, and lime. It described the key components of cement, the curing process, and factors that affect the setting and hardening of cement mixtures. The student conducted experiments mixing cement with various materials and measured the strength of the samples after 3, 7, and 10 days.
Chemistry Investigatory Project on Setting Of Cement Class 12DIVYANSHU KUMAR
This document is a chemistry investigatory project on the setting of cement. It was completed by Divyanshu Kumar, a class 12 student at Kendriya Vidyalaya No. 2 in Visakhapatnam, India under the guidance of his chemistry teacher Mr. B. Sreedhar. The project studied how the strength of cement mixtures changed over time when mixed with different materials like sand, fly ash, and lime. It described the key components of cement, the curing process, and factors that affect the setting and hardening of cement mixtures. The student conducted experiments mixing cement with various materials and measured the breaking strength of the samples after 3, 7, and 10 days.
Lime mortar uses lime as a binding material along with sand and crushed stone. Cement is sometimes added to lime mortar to increase its strength and decrease setting time. Cement mortar is stronger than lime mortar and gains strength more quickly. There are different methods used for mixing mortar depending on the quantity needed, including hand mixing, machinery mixing, and mixing in trucks.
Mud bricks are made by pressing a mixture of sticky clay and sand into molds. The proper mixture is necessary for strength - too much clay can cause cracks, while too much sand makes bricks weak. Raw mud bricks are dried slowly in the shade and can be strengthened by mixing grass into the soil mixture. Mud-cement bricks are similar but include 3-7% cement. Burned bricks are fired in kilns, making them stronger and their strength unaffected by water. They are smaller than raw bricks for convenience in kilns. Cement blocks are increasingly used as burned bricks have become more costly - they are hollow inside to reduce weight and costs but remain very strong.
Mud bricks are made by pressing a mixture of sticky clay and sand into molds. The proper mixture is necessary for strength - too much clay can cause cracks, while too much sand makes bricks weak. Raw mud bricks are dried slowly in the shade and can be strengthened by mixing grass into the soil mixture. Mud-cement bricks are similar but include 3-7% cement. Burned bricks are fired in kilns, making them stronger and their strength unaffected by water. They are smaller than raw bricks for convenience in kilns. Cement blocks are increasingly used as burned bricks have become more costly - they are hollow inside to reduce weight and costs but remain very strong.
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2. Cement and sand are the main
ingredients in a mortar. Concrete i s
made using it. Building materials like
concrete
cement
Buildings,
are primarily composed of
and aggregate (sand).
pavements, floors, and
other structures are constructed
using mortar from top mortar
suppliers in delhi.
3. CEMENT MORTAR
A cement mortar i s composed of
cement, water, and sand. Mixing can be
done manually or mechanically. To use
the mortar again soon, add water after
every 15 minutes to retemper it, and
use i t within 30 minutes of adding
water to make i t easier to work with.
Strength of mortar i s determined by i ts
ratio of cement to sand.
4. The mixture of sand and clay is used to
create mud mortar, which, once mixed with
water, should dry without cracking. Stones
should not be included in the mixture in order
to prevent future wall cracks. To improve the
quality of the plaster, bitumen, l ime, and cow
dung are added.
M u d Mortar
5. LIME MORTAR
An early variety of mortar, l ime, sand, and
water made i t . The composition of l ime
mortar consists of inert ingredients such as
sand, surkhi, or cinder mixed with hydraulic
lime or fat lime. Solid bonds can be formed
with these
workable and
mortars,
plastic. It
which are quite
was H yderabad's
renowned historic structure, the Charminar,
that was the f i rst monument constructed
using granite and lime mortar.
6. CEMENT- BASED
CLAY MORTAR
Clay mortar i s given a higher quality by
adding cement in a ratio of one part clay
to one part cement. W hen cement i s
added, both cost and durability increase.
7. GAUGED CEMENT
MORTAR
Sand and cement are mixed together
after the cement is added to the lime
This mixture must be
30 minutes of adding
used
water.
mortar.
within
Mortar made with lime is halfway
between l ime and cement in quality and
i s less expensive than mortar made
with cement.