STONES
Stone is a ‘naturally
available building material’ which has been used from the early age of civilization.It is available in the form of rocks,
which is cut to required size and shape and used as building block.It has been used to construct small residential buildings
to large palaces and temples all over the world.
Type of Stones
Stones used for
civil engineering works may be classified in the following three ways:
•- Geological
•- Physical
•- Chemical
Geological
Classification
Based on their origin
of formation stones are classified into three main groups—Igneous, Sedimentary and Metamorphic
Rocks.
(i) Igneous Rocks:
These rocks are
formed by cooling and solidifying of the rock masses from their molten magmatic
condition of the material of the earth. Generally igneous rocks are strong and
durable. Granite, trap and basalt are the rocks belonging to this category,
Granites are formed by slow cooling of the lava under thick cover on the top.
Hence they have crystalline surface. The cooling of lava at the top surface of
earth results into non-crystalline and glassy texture. Trap and basalt belong
to this category.
(ii) Sedimentary
Rocks:
Due to weathering
action of water, wind and frost existing rocks disintegrates. The disintegrated
material is carried by wind and water; the water being most powerful medium.
Flowing water deposits its suspended materials at some points of obstacles to
its flow.
These deposited
layers of materials get consolidated under pressure and by heat. Chemical
agents also contribute to the cementing of the deposits. The rocks thus formed
are more uniform, fine grained and compact in their nature. They represent a
bedded or stratified structure in general. Sand stones, lime stones, mud stones
etc. belong to this class of rock.
(iii) Metamorphic Rocks:
Previously formed igneous and
sedimentary rocks undergo changes due to metamorphic action of pressure and internal
heat. For example due to metamorphic action granite becomes greisses, trap and basalt change to schist and laterite, limestone
changes to marble, sandstone becomes quartzite and mudstone becomes slate.
Physical Classification
Based on the structure,
the rocks may be classified as:
-• Stratified rocks
- •Unstratified rocks
(i) Stratified
Rocks:
These rocks are
having layered structure. They possess planes of stratification or cleavage.
They can be easily split along these planes. Sand stones, lime stones, slate
etc. are the examples of this class of stones.
(ii) Unstratified Rocks:
These rocks are not stratified.
They possess crystalline and compact grains. They cannot be split in to thin
slab. Granite, trap, marble etc. are the examples of this type of Rocks.
(iii) Foliated Rocks:
These rocks
have a tendency to split along a definite direction only. The direction need
not be parallel to each other as in case of stratified rocks. This type of structure
is very common in case of metamorphic rocks.
Chemical Classification
On the basis of
their chemical composition engineers prefer to classify rocks as:
• -Silicious rocks
• -Argillaceous
rocks and
• -Calcareous
rocks
(i) Silicious rocks: The
main content of these rocks is silica. They are hard and durable. Examples of
such rocks are granite, trap, sand stones etc.
(ii) Argillaceous rocks: The
main constituent of these rocks is argil i.e., clay. These stones
are hard and durable but they are brittle. They cannot withstand shock. Slates
and laterites are examples of this type of rocks.
(iii) Calcareous rocks: The
main constituent of these rocks is calcium carbonate. Limestone is a calcareous
rock of sedimentary origin while marble is a calcareous rock of metamorphic
origin.
Properties of Stones-
The following properties
of the stones should be looked into before selecting them for engineering works:
(i) Structure:
The structure of the
stone may be stratified (layered) or unstratified.
Structured stones should be easily dressed and suitable for super structure. Unstratified stones are hard and difficult to dress.
They are preferred for the foundation works.
(ii) Texture:
Fine grained stones with homogeneous
distribution look attractive and hence they are used for carving. Such stones
are usually strong and durable.
(iii) Density:
Denser stones are
stronger. Light weight stones are weak. Hence stones with specific gravity less
than 2.4 are considered unsuitable for buildings.
(iv) Appearance:
A stone with uniform and attractive
colour is durable, if grains are compact. Marble and granite get very good
appearance, when polished. Hence they are used for face works in buildings.
(v) Strength:
Strength is an important property
to be looked into before selecting stone as building block. Indian standard
code recommends, a minimum crushing strength of 3.5 N/mm2 for any building
block. Table 1.1 shows the crushing strength of various stones.
Due to non-uniformity
of the material, usually a factor of safety of 10 is used to find the
permissible stress in a stone. Hence even laterite can be used safely for a
single storey building, because in such structures expected load can hardly
give a stress of 0.15 N/mm2. However in stone masonry buildings care should be
taken to check the stresses when the beams (Concentrated Loads) are placed on
laterite wall.
(vi)
Hardness:
It is an important
property to be considered when stone is used for flooring and pavement.
Coefficient of hardness is to be found by conducting test on standard specimen
in Dory’s testing machine. For road works coefficient of hardness should be at
least 17. For building works stones with coefficient of hardness less than 14
should not be used.
(vii) Percentage
wear:
It is measured
by attrition test. It is an important property to be considered
in selecting aggregate for
road works and railway ballast. A good stone should not show wear of more than
2%.
(viii) Porosity
and Absorption:
All stones have
pores and hence absorb water. The reaction of water with material of stone cause
disintegration. Absorption test is specified as percentage of water
absorbed by the stone when it is
immersed under water for 24 hours. For a good stone it should be as small as
possible and in no case more than 5.
(ix) Weathering:
Rain and wind
cause loss of good appearance of stones. Hence stones with
good weather resistance should
be used for face works.
(x) Toughness:
The resistance to
impact is called toughness. It is determined by impact test.
Stones with toughness
index more than 19 are preferred for road works. Toughness index 13 to 19 are
considered as medium tough and stones with toughness index less than 13 are
poor stones.
(xi) Resistance
to Fire:
Sand stones resist
fire better. Argillaceous materials, though poor in strength, are good in
resisting fire.
(xii) Ease in
Dressing:
Cost of dressing
contributes to cost of stone masonry to a great extent.Dressing is
easy in stones with lesser strength. Hence an engineer should look into
sufficient strength rather than high strength while selecting stones for
building works.
(xiii) Seasoning:
The stones obtained
from quarry contain moisture in the pores. The strength of
the stone improves if this
moisture is removed before using the stone. The process of removing moisture
from pores is called seasoning. The best way of seasoning is to allow it to the
action of nature for 6 to 12 months. This is very much required in the case of
laterite stones.