SlideShare une entreprise Scribd logo

Building Materials

Télécharger en tant que PPTX, PDF
Tousif Ahmad
Tousif Ahmad

Building Materials related to construction purposes

Ingénierie
1  sur  30
Engineer Tousif Ahmad
Topic: Civil Engineering Building Materials.
CONTENTS… There are numerous building materials that we well familiar but here we are going to explain a few but some basics of them. • WATER • CONCRETE. • CEMENT. • AGGREGATES. • PAINTS AND VARNISHES/COATINGS. • BRICKS. • STONES. • METALS & STEEL. • TIMBER. • Glass. • CERAMIC MATERIALS. • OTHER MATERIALS… • Unusual Constructions in the world...
WATER  Is there any need of introduction to water??? “The beginning of earth; is the beginning of water,even before the Earth.”  Perhaps it May be not needs any definition but of-course needs to define in terms of its composition/use & properties for civil engineering.  Structurally it consist of 2 H-atoms & 1 O-atom.  Water that we use for constr. purpose, should contain standard ingredients as given in the tables. Ingredi ents Standar ds Sulphate 250mg/L Chloride 250mg/L Flouride 4mg/L Nitrite 1 mg/L Nitrate 9 mg/L Arsenic 110 µg/L Cadmium 5 µg/L Copper 1300µg/L Lead 15µg/L Iron 300µg/L Mangane 50µg/L Selenium 50µg/L Silver 100µg/L Ingredi ents Standar ds Zinc 5ng/L Mercury 2µg/L Ra-226 5 pCi/L Ra-228 5 pCi/L Radon^ 2 300pCi/ L throntiu m 15 pCi/L Uraniu m 30 µg/L Barium 2ng/L
Continued… There is no compromise on the quality/properties of water that we use in constructions.  The quantities of CO2 , Dissolved Oxygen, Ammonia Carbonates/Bicarbonates, Ca, Mg, Na, K, P, Nickel, should not be enough to make water as toxic.  Water should not be acidic/basic/oily/salty etc.  Water should be drinkable with the pH of range 6.5-7.5  Water should not be injurious and should not contains any impurities, because impurities leads to improper bonding with other materials.  Water has world-wide usage, & use in all basic constructional materials.
Concrete. • Concrete is a composite material composed of coarse aggregate bonded together with a fluid cement(Portland or hydraulic) with or without admixtures, that hardens over time. • History: The word concrete comes from the Latin word "concretus" (meaning compact or condensed) the perfect passive participle of "concrescere", from "con-" (together) and "crescere" (to grow). Concrete is an ancient material of construction, first used during the Roman Empire. • Strength: Concrete today is a sophisticated material to which exotic (foreign) constituents can be added and, with computer- controlled batching, can produce a product capable of achieving 50,000 psi compressive strength • Hydration: The water reacts with the cement, which bonds the other components together, eventually creating a stone- like material; the process is called hydration.
Ingredients :water, cement, aggregates, admixtures…  Types of concerete Concrete is divided into three broad categories : 1: plain cement concrete (P.C.C) 2: Reinforced cement concrete (R.C.C) 3: Pre-stressed cement concrete Pre-stress concrete is further classified into two types • Pre-tension R.C.C • Post-tension R.C.C  Uses of concerete Concrete has many applications and is used to make pavements, pipe, structures, foundations, roads, bridges/ overpasses, walls and footings for gates.
Fresh concrete Test:  Flow test → measures the amount of flow to identify transportable moisture limit of solid bulk cargoes.  Kelly-Ball test → measures the amount of penetration.  Slump test → To check the workability of fresh concrete . Hard Concrete Test:  compaction test → To check the compressive strength of concrete .  Flexure strength test → To check the flexure properties of concrete Properties: : strength, durability, fire resistance, density , toughness.Workability, shrinkage, fatigue, economy, appearance etc…
Cement Cement is a crystalline compound of calcium silicates and other calcium compounds having hydraulic properties (Macfadyen, 2006). “In its History : in 1824 by Mason Joseph Aspdin, a Portland cement was prepared by mixing limestone & clay with water, it was named Portland Cement, as it looks alike Portland Rock in England. Lime and clay have been used as cementing material on constructions through many centuries.”  Cement should be stored off the ground in a well-aired, clean, dry place, like plastic bags. They should not be placed on directly on ground but on wooden platform. Bulk Cement should be store in Silos. Weight of one bag of cement: 50Kg Volume of one bag of cement: 1.25 ft3 •Cement + water = cement paste •Cement + water + sand = mortar •Cement + water + sand + lime = masonry mortar •Cement + water + sand + coarse aggregate = concrete Compound %age Lime 62 Silica 22 Alumina 7.5 MgO 2.5 Fe2O3 2.5 SO3 1.5 Na2O 1.0 K2O 1.0
Physical Properties…  Feel smooth when touched or rubbed in between fingers.  If it contains clay & silt as adulterant, it give earthy smell.  If felt rough, indicates adulteration with sand.  If hand is inserted in cement bag, hand feels cool and not warm.  If it immersed in water, it should sink and should not float  A paste of cement feel sticky Uses  Building (floors, beams, columns, roofing, piles, bricks, mortar, panels, plaster  Transport (roads, pathways, crossings, bridges, viaducts, tunnels, parking, etc.)  Water (pipes, drains, canals, dams, tanks, pools, etc.)  Agriculture (buildings, processing, housing, irrigation)  Civil (piers, docks, retaining walls, silos, warehousing, poles, pylons, fencing) quality tests of cement: Color test Presence of lumps Adulteration test Temperature test Float tests Strength test Setting test Date of packing.
Aggregates/clay/sand  Aggregates are inert granular materials such as sand, gravel, or crushed stone that, along with water and Portland cement, are an essential ingredient in concrete.  For a good concrete mix, aggregates need to be clean, hard, strong particles free of absorbed chemicals or coatings of clay and other fine materials that could cause the deterioration of concrete. Aggregates occupy 70 to 80 % of total volume of concrete. “Fine aggregate” is defined as material that will pass a No. 4 ASTM sieve (4.75mm) and be retained on a No. 200 sieve (0.075mm). “ Coarse aggregate is a material that will pass the 3-inch screen and will be retained on the No. 4 ASTM sieve. Aggregates should be stored where they will stay clean, separated from other materials and dry. Fine aggregate Size variation Coarse Sand 2.0mm – 0.5mm Medium sand 0.5mm – 0.25mm Fine sand 0.25mm – 0.06mm Silt 0.06mm – 0.002mm Clay <0.002 Coarse aggregate Size Fine gravel 4mm – 8mm Medium gravel 8mm – 16mm Coarse gravel 16mm – 64mm Cobbles 64mm – 256mm Boulders >256mm
 Properties: Strength, Hardness, Toughness, Durable, particle shape, Non-pourous, absorption and surface moisture, Chemically inactive Uses: Aggregate can be used in a number of ways in construction. In roads and railway ballast, concrete etc…The uses of aggregates can be summarized in to the following three categories • As a Load Bearing Material • As a Filling Material • As an Infiltrating Material Quality Measures… 1: seive analysis test This test is performed to have well graded aggregates 2: Abrasion test To check the hardness of aggregates 3: Specific gravity &water absorbtion test To check specific gravity and water absorbtion of aggregates
Paint is a Solution or suspension (emulsion) of pigment, binder, and mineral solvent (or water) that on drying forms an adhering film on he surface it is applied for protection and decoration. History: In 2001 and 2004, South African archeologists reported finds in Blombos Cave of a 100,000-year-old human-made ochre-based mixture that could have been used like paint. Further excavation in the same cave resulted in the 2011 report of a complete toolkit for grinding pigments and making a primitive paint-like substance. Although researchers could find a cave painting of only 40,000 years old upto now. Distempers: Distempers may be defined as water paints consisting o whiting (powdered chalk), some colouring pigment (if desired) and glue size mixed in water. Varnishes: Varnish is a clear, pale solution of a resinous substance (like amber, copal, shellac) dissolved in either oil, turpentine or alcohol. Paints Paints Types: 1. OIL PAINTS 2. SYNTHETIC PAINTS 3. EMULSION PAINTS 4. CELLULOSE PAINTS 5. VARNISHES 6. WATER PAINTS (distemper) 7. SPECIAL PAINTS
Properties of Good Paints:  Should have Ease of Workability & give smooth surfaces.  Sticky with wall & capable of filling pores.  Should have Covering ability & Ease of cleaning  Should Dry rapidly & economical.  Environmentally Friendly.  Should not fade over time.  Protection of the Surface against weathering, corrosion, decaying. Uses:  It is used to give a high-class finish.  It is used to give attractive colours.  It is used to give smooth surfaces.  To make the materials long lasting.  Protection of the Surface against water, weathering, corrosion, decaying.  Use for decorative purposes…etc Process of painting: 01. Preparation of surface 02. Knotting 03. Priming 04. Stopping 05. coatings 06. Finishing coat Composition:  A base  An inert filler or extender  Coloring pigment  A vehicle  A solvent or thinner
BricksBrick is a basic building unit which is in the form of rectangular block in which length to breadth ratio is 2 but height can be different. • Normal size (standard size) 9''×4½" ×3" • Architectural size (Working/architectural size) 81 ⅟16" x 4⁵⁄₁₆" x 21 ⅟16“ • In its history , the first bricks were dried (Mud), dating before 7500 BC, were found at Tell Aswad, in the upper Tigris region and in southeast Anatolia close to Diyarbakir. • With the pessage of time, Burnt mud bricks, stone bricks & now a days , even concreted bricks have been using.This trend was set up by the China and Europe. Standard Imperial Australia 9 × 4⅓ × 3 in Denmark 9 × 4¼ × 2¼ in Germany 9 × 4¼ × 2¾ in India 9 × 4¼ × 2¾ in Romania 9 × 4¼ × 2½ in Russia 10 × 4¾ × 2½ in KSA 8¾ × 4 × 3 in Sweden 10 × 4¾ × 2½ in UK 8½ × 4 × 2½ in
Composition: a. Clay (Alumina) 20 to 30 percent b. Silt 20 to 35 percent c. Sand 35 to 50 percent Properties: • They are durable. • They are low cost material. • They possess good strength. • They are easily available. • Brick are light in compared to stone Uses: • Bricks are used in wall masonry construction of building • Used in brick lintal construction • Bats of brick are used in concrete in foundation work • Etc. Requirements: • The color of the brick should be red or copper and uniform. • It should be well burnt in kilns. • The surface should be even and free from cracks. • The edges should be sharp..
Stones: A stone is a small piece of rock. History: The Stone Age was a broad prehistoric period during which stone was widely used to make implements with an edge, a point, or a percussion surface. The period lasted roughly 3.4 million years, and ended between 8700 BCE] and 2000 BCE with the advent of Metal working. Marbleis a metamorphic rock composed of recrystallized carbonate minerals, most commonly calcite or dolomite. Marble may be foliated Geologists use the term "marble" to refer to metamorphosed limestone & is use as a building material. A Tileis a manufactured piece of hard-wearing material such as ceramic, stone, metal, or even glass, generally used for covering roofs, floors, walls, showers, or other objects such as tabletop Types: 1)Igneous (Born of Fire) 2) Sedimentary (Cementing of Grains) 3)Metamorphic (Changed in Structure)
Composition: • Silicates(silica/Quartz) • Calcium Carbonates(limestone/marbles) Properties: • Siliceous rocks are hard and durable.& resistive to weathering actions. • Argillaceous rocks may be dense and compact or they may be soft. • The Durability of calcareous rocks will depend upon the constituents present in surrounding atmosphere. • Marble and quartzite have compact crystalline structure. • Igneous rocks contain many minerals. Various minerals having wide range of different distinctive characteristics Uses: • They are used to make concrete as coarse aggregate • They are used in hydraulic structures like dams etc. • They are used as road metal in road construction. • They are used in retaining wall masonry. • They are used as ballast for in railways.. Requirements: • Structure shape required…!!! • Appearance-Colour Texture • Weight • Fineness of Grains • Durability • Strength • Hardness • Facility of Working and Dressing STONES
Marble Tiles
Metals: A metal(from Greek μέταλλον métallon, "mine, quarry, metal”) is a material (an element, ) compound, or alloy) that is typically hard, opaque, shiny, and has good electrical and thermal conductivity.  In its History, man first discovered copper (Around 9000BC),a naturally occurring, relatively pure metal, by native to many countries. . Later on, discovery of metals continued…& making their place to periodic table.  About 91 of the 118 elements in the periodic table are metal, the others are nonmetals(13+7) & metalloids(7). Requirements of metal…for civil Engineering.  They should provide sufficient strength to bear the loads coming on them  They should provide resistance to corrosion and weather actions  They should provided resistance to heat and fire.  They should have good adhesion with cement concrete
Steelis an alloy of iron and other elements, primarily carbon, that is widely used in construction and other applications because of its high tensile strength and low cost. Iron is the source of making steel. Structural steel is a steel type used as a constr. material for making structural steel. History, The noun steel originates from the Proto-Germanicadjective stakhlijan (made of steel), which is related to stakhla (standing firm). The Chinese of the Warring States period (403–221 BC) had quench-hardened steel, while Chinese of the Han dynasty (202 BC – 220 AD) created steel by melting together wrought iron with cast iron, gaining an ultimate product of a carbon- intermediate steel by the 1st century AD. E-VALUE for steel is 185-230GPa & 200GPa is average. Unit weight of steel is 7.85g/c.c or 7850kg/m^3 or 77KN/m^3. in compare with steel, concrete has unit wt. of 23.6KN/m^3. Steel type %age C Low C- steel <0.15 Mild C- steel 0.15- 0.29 Medium C-steel 0.3-0.59
 Requirements/Properties of steel are Strength, Toughness, Ductility, Weld ability, Durability, Etc….same as that of metals.  Iron and steel are used widely in the construction of roads, railways, other infrastructure, appliances, and buildings, stadiums and skyscrapers, bridges, and airport,. R.C.C, bolts, nails, and screws and other household products and cooking utensils, shipbuilding , pipelines, mining, offshore construction, aerospace, white goods(e.g. washing machines), heavy equipment such as bulldozers, furniture, steel wool, tools, and armour in the form of personal vests or vehicle armour(better known as rolled homogeneous armour in this role. Steel is of Two Types on the basis of manufacturing…. 1) Hot Rolled Steel(1700 F) 2) Cold Rolled Steel(room T)  Common steel shapes : Grade Strain (%age ) 280 >12 300 >12 420 >9 520 >7
WOOD/TIMBER • Wood: is a porous and fibrous structural tissue found in the stems and roots of trees, and other wood plants. It is an organic material, a natural composite of cellulose fibers which are strong in tension embedded in a matrix of lignin which resists compression. • Composition: Wood is a heterogeneous, hygroscopic, cellular and anisotropic material. It consists of cells, and the cell walls are composed of micro-fibrils of cellulose (40% – 50%) and hemicellulose (15% – 25%) impregnated with lignin (15% – 30%). • Seasoning: The seasoning of timber is typically either kiln- or air-dried. Defects due to seasoning are the main cause of splinters and slivers. • Timber: wood prepared for use in building and carpentry. Timber was used as a dominant building material in most of the ancient temples of Kerala and coastal Karnataka of India
Requirements of timber… It should be dense. It should have uniform texture. It should have dark uniform color. It should be workable, good machinability. The medullary rays should be compact. Uses Railway sleepers, bridges, pipes. Furniture, decorative pieces, doors. Packing material, piles, cart wheels. Poles, pen, rafter. Roofs, partition walls, boats etc. Properties: It has low heat conductivity. It has small bulk density. It is relatively high strength. It is susceptible to decay. It is susceptible to flame. TYPES • Natural timber babul, oak, pine, mango, sal, teak, neem, palms, chir. • Industrial timber veneers, plywoods, fiberboards, impreg timber, compreg timber Plywood a type of strong thin wooden board consisting of two or more layers glued and pressed together with the direction of the grain alternating. •
Glass: Glass is a non-crystalline amorphous solid that is often transparent and has widespread practical, technological, and decorative usage in, for example , window panes, tableware, and optoelectronics. The history of glassmaking can be traced back to 3500 BC in Mesopotamia. Archaeological evidence suggests that the first true glass was made in coastal north Syria, Mesopotamia or Ancient Egypt. In England, glass became common in the windows of ordinary homes only in the early 17th century whereas windows made up of panes of flattened animal horn were used as early as the 14th century. Ingredients: 1) Sand or Silica-(main constituent & source) 2) Potash- (give fire resistance properties) 3) Sodium Carbonate- (accelerate fusion of glass) 4) Lime (gives durability/toughness/hardness) 5) Lead oxide-(gives color) 6) Cullet-(broken pieces of glass , reuse to reduce cost) Other Additives. --Lead – to make crystal glasses. --Boron –changes the thermal and electrical properties of the glass . --Iron-(imparts colours) etc
PROPERTIES (OR) CHARACTERISTICS OF GLASS: (1) It has highly shining appearance and takes good polish. (2) It is not affected by temperature except in some exceptional cases. (3) It is fire retardant. (4) It provides heat insulation. (5) It also ensures transmission of light. (6) It is available in various varieties. (7) It transmits light but also provide privacy by obstructing vision. (8) Glass blocks provide heat and sound proof properties. USES OF GLASS: (1) Glass is extensively used in building construction since long time for glazing doors and windows. (2) It is also used for decoration. (3) It is also used for sound insulation purposes. (4) It is used for cut glass work, electric bulbs (lead glass). (5) It is used for manufacturing of laboratory equipments and cooking utensils (Boro-silicate glass). (6) It is used for partition walls. (7) It is used for cabinets, show cases, shop fronts. (8) It is also used as fire retarder
Ceramic Materials The word ceramic, derives its name from the Greek keramos, meaning "pottery", which in turn is derived from an older Sanskrit root, meaning "to burn". The Greeks used the term to mean "burnt stuff" or "burned earth". Thus the word was used to refer to a product obtained through the action of fire upon earthy materials A wide-ranging group of materials whose ingredients are clays, sand and felspar, metals, polymers etc. Archeologists have uncovered human-made ceramics that date back to at least 24,000 BC in Czechoslovakia Requirement of ceramics •They should provide resistance to stains •They should be easy to clean •They should be non- slippary while wet •The colours of ceramic products should be long lasting •They should be durable
Types  Crystalline  Non crystalline  Glass bonded Properties: It has low ductility. It has low resistance to impact low toughness. It has excellent dielectric properties. It has good resistance to corrosion. It has good chemical resistance. USES:  It is use in manufacturing Bricks, Terra cotta, Tiles, Pipes, Chimney….  It is used in Bathroom/kitchen/Household accessories etc… Further … The products of technical ceramics include tiles used in the Space Shuttle program, gas burner nozzles ballistic protection, nuclear fuel uranium oxide pellets, bio-medical implants jet engine turbine blades, and missile nose cones….
Other Materials…  Mud.  D.P.C.  R.C.C.  Lime Mortar(binder).  Aluminum Window.  Ropes/Cables.  Wall partitioning Boards.  Building Fabrics(shells/shades).  Foam(insulator & decorative).  Electronics(part of building).  Thatch(straw/leaves roofs)  Oils/Water Proofing Products.  Translucent Sheeting Materials.  Roof Tiles.  Plastic Paris.  Plastics(coatings,pipes,decorative purpose etc.) Asbestos( for insulation & Binding) Rubber.(for insulation & Decoration) Cork.(for insulation). Glss Wool: fibres(For insulation) Ebonite: Plastic(insulation). Mica.(Insulation) Bakelite.(for insulation & Decoration) Linolium.(for decoration, Hygienic & Insulation) etc….
Unusual Construction In the WORLD…  Ice Hotel.  Silos’ House.  Wood Pallets.  House boats.  Corn Cob House.  Buddhist beer temple.  Scrap Metal House.  Aero-plane house.  cardboard Construction.  Lego Brick 2-Storey's house.  Aluminum Cans’ House(50,000 cans).  Miscellaneous recyclables (“Earthships”), Use Of Tyres….!!!  Salt-Based Hotel(1 million salt bricks).  Shipping Containers.  Cake Room.(sweetest building material).  Etc…..

Recommandé

Building Materials
Building MaterialsBuilding Materials
Building MaterialsPRAKASH KUMAR
 
presentation building materials
presentation building materialspresentation building materials
presentation building materialsP4BL0
 
BUILDING MATERIALS 1
BUILDING MATERIALS 1BUILDING MATERIALS 1
BUILDING MATERIALS 1Abhishek Mewada
 
Mortar
MortarMortar
MortarRimpi Baro
 
Construction material in civil engineering
Construction material in civil engineeringConstruction material in civil engineering
Construction material in civil engineeringShree Swami atmanand saraswati inst. of technology, surat
 
Sand
SandSand
Sandlalitha moorthy
 
Building materials
Building materialsBuilding materials
Building materialsSuneetha Bodapati
 
Building construction materials
Building construction materialsBuilding construction materials
Building construction materialsAkash Patel
 

Recommandé

Building Materials
Building MaterialsBuilding Materials
Building MaterialsPRAKASH KUMAR
 
presentation building materials
presentation building materialspresentation building materials
presentation building materialsP4BL0
 
BUILDING MATERIALS 1
BUILDING MATERIALS 1BUILDING MATERIALS 1
BUILDING MATERIALS 1Abhishek Mewada
 
Mortar
MortarMortar
MortarRimpi Baro
 
Construction material in civil engineering
Construction material in civil engineeringConstruction material in civil engineering
Construction material in civil engineeringShree Swami atmanand saraswati inst. of technology, surat
 
Sand
SandSand
Sandlalitha moorthy
 
Building materials
Building materialsBuilding materials
Building materialsSuneetha Bodapati
 
Building construction materials
Building construction materialsBuilding construction materials
Building construction materialsAkash Patel
 
Aggregates ppt
Aggregates pptAggregates ppt
Aggregates pptLatif Hyder Wadho
 
Inoduction To Construction Materials
Inoduction To Construction MaterialsInoduction To Construction Materials
Inoduction To Construction Materialssaeed khan
 
Paint ,varnishes and distempers
Paint ,varnishes and distempersPaint ,varnishes and distempers
Paint ,varnishes and distempersShakil Ahmmad
 
Mortar (masonry)
Mortar (masonry)Mortar (masonry)
Mortar (masonry)Maruthish Shankar
 
Building materials elements of civil engineering
Building materials elements of civil engineeringBuilding materials elements of civil engineering
Building materials elements of civil engineeringPriyank Bhimani
 
Types Of BriCks
Types Of BriCksTypes Of BriCks
Types Of BriCksOmkar Bhagwat
 
Workability of Concrete
Workability of ConcreteWorkability of Concrete
Workability of ConcreteGulraizArshad1
 
Manufacturing and uses of clay tiles.
Manufacturing and uses of clay tiles.Manufacturing and uses of clay tiles.
Manufacturing and uses of clay tiles.Khaliqur Rahman
 
brick as a building material
brick as a building materialbrick as a building material
brick as a building materialSelf employed
 
Rates Analysis For Calculating Material and Labour for building works
Rates Analysis For Calculating Material and Labour for building works Rates Analysis For Calculating Material and Labour for building works
Rates Analysis For Calculating Material and Labour for building works ALI HYDER GADHI
 
Types and properties of cement
Types and properties of cementTypes and properties of cement
Types and properties of cementARmiteshrank
 
Cement
CementCement
CementAnant Nautiyal
 
type of aggregate
type of aggregatetype of aggregate
type of aggregateAnup Kude
 
Aggregates
AggregatesAggregates
AggregatesShah Naseer
 
Advanced material of construction..ppt24545452
Advanced material of construction..ppt24545452Advanced material of construction..ppt24545452
Advanced material of construction..ppt24545452SHUBHAM DABHADE
 
Lime - Classification, Properties, Uses
Lime - Classification, Properties, UsesLime - Classification, Properties, Uses
Lime - Classification, Properties, UsesSelvakumar Palanisamy
 
Construction Materials
Construction Materials Construction Materials
Construction Materials LOUIS WAYNE
 
Sand
SandSand
SandAnant Nautiyal
 
Cement
CementCement
CementSameer Nawab
 
Clay Products
Clay ProductsClay Products
Clay ProductsGAURAV. H .TANDON
 
Evaluacion de diagnostico de ciencias
Evaluacion de diagnostico de cienciasEvaluacion de diagnostico de ciencias
Evaluacion de diagnostico de cienciasMaria mu?z
 
Alternate building materials
Alternate building materialsAlternate building materials
Alternate building materialsJaspreet singh
 

Contenu connexe

Tendances

Inoduction To Construction Materials
Inoduction To Construction MaterialsInoduction To Construction Materials
Inoduction To Construction Materialssaeed khan
 
Paint ,varnishes and distempers
Paint ,varnishes and distempersPaint ,varnishes and distempers
Paint ,varnishes and distempersShakil Ahmmad
 
Building materials elements of civil engineering
Building materials elements of civil engineeringBuilding materials elements of civil engineering
Building materials elements of civil engineeringPriyank Bhimani
 
Workability of Concrete
Workability of ConcreteWorkability of Concrete
Workability of ConcreteGulraizArshad1
 
Manufacturing and uses of clay tiles.
Manufacturing and uses of clay tiles.Manufacturing and uses of clay tiles.
Manufacturing and uses of clay tiles.Khaliqur Rahman
 
brick as a building material
brick as a building materialbrick as a building material
brick as a building materialSelf employed
 
Rates Analysis For Calculating Material and Labour for building works
Rates Analysis For Calculating Material and Labour for building works Rates Analysis For Calculating Material and Labour for building works
Rates Analysis For Calculating Material and Labour for building works ALI HYDER GADHI
 
Types and properties of cement
Types and properties of cementTypes and properties of cement
Types and properties of cementARmiteshrank
 
type of aggregate
type of aggregatetype of aggregate
type of aggregateAnup Kude
 
Advanced material of construction..ppt24545452
Advanced material of construction..ppt24545452Advanced material of construction..ppt24545452
Advanced material of construction..ppt24545452SHUBHAM DABHADE
 
Lime - Classification, Properties, Uses
Lime - Classification, Properties, UsesLime - Classification, Properties, Uses
Lime - Classification, Properties, UsesSelvakumar Palanisamy
 
Construction Materials
Construction Materials Construction Materials
Construction Materials LOUIS WAYNE
 

Tendances (20)

Aggregates ppt
Aggregates pptAggregates ppt
Aggregates ppt
 
Inoduction To Construction Materials
Inoduction To Construction MaterialsInoduction To Construction Materials
Inoduction To Construction Materials
 
Paint ,varnishes and distempers
Paint ,varnishes and distempersPaint ,varnishes and distempers
Paint ,varnishes and distempers
 
Mortar (masonry)
Mortar (masonry)Mortar (masonry)
Mortar (masonry)
 
Building materials elements of civil engineering
Building materials elements of civil engineeringBuilding materials elements of civil engineering
Building materials elements of civil engineering
 
Types Of BriCks
Types Of BriCksTypes Of BriCks
Types Of BriCks
 
Workability of Concrete
Workability of ConcreteWorkability of Concrete
Workability of Concrete
 
Manufacturing and uses of clay tiles.
Manufacturing and uses of clay tiles.Manufacturing and uses of clay tiles.
Manufacturing and uses of clay tiles.
 
brick as a building material
brick as a building materialbrick as a building material
brick as a building material
 
Rates Analysis For Calculating Material and Labour for building works
Rates Analysis For Calculating Material and Labour for building works Rates Analysis For Calculating Material and Labour for building works
Rates Analysis For Calculating Material and Labour for building works
 
Types and properties of cement
Types and properties of cementTypes and properties of cement
Types and properties of cement
 
Cement
CementCement
Cement
 
type of aggregate
type of aggregatetype of aggregate
type of aggregate
 
Aggregates
AggregatesAggregates
Aggregates
 
Advanced material of construction..ppt24545452
Advanced material of construction..ppt24545452Advanced material of construction..ppt24545452
Advanced material of construction..ppt24545452
 
Lime - Classification, Properties, Uses
Lime - Classification, Properties, UsesLime - Classification, Properties, Uses
Lime - Classification, Properties, Uses
 
Construction Materials
Construction Materials Construction Materials
Construction Materials
 
Sand
SandSand
Sand
 
Cement
CementCement
Cement
 
Clay Products
Clay ProductsClay Products
Clay Products
 

En vedette

Evaluacion de diagnostico de ciencias
Evaluacion de diagnostico de cienciasEvaluacion de diagnostico de ciencias
Evaluacion de diagnostico de cienciasMaria mu?z
 
Alternate building materials
Alternate building materialsAlternate building materials
Alternate building materialsJaspreet singh
 
building material
building materialbuilding material
building materialnicocarlos
 
Stone as a building material
Stone as a building materialStone as a building material
Stone as a building materialHILLFORT
 
A flight on eaa's b 17 flying fortress aluminum overcast
A flight on eaa's b 17 flying fortress aluminum overcastA flight on eaa's b 17 flying fortress aluminum overcast
A flight on eaa's b 17 flying fortress aluminum overcastgazeboguide
 
International Bank for Reconstruction and Development (IBRD)
International Bank for Reconstruction and Development (IBRD)International Bank for Reconstruction and Development (IBRD)
International Bank for Reconstruction and Development (IBRD)Vishal Gupta
 
Tehilim 929 #32 מזמור כז 20161215 ftw
Tehilim 929 #32 מזמור כז 20161215 ftwTehilim 929 #32 מזמור כז 20161215 ftw
Tehilim 929 #32 מזמור כז 20161215 ftwEliyahu Schuman
 
Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...
Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...
Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...sveta7940
 
A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)
A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)
A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)Marlou
 
Amyloid–carbon hybrid membranes for universal water purification
Amyloid–carbon hybrid membranes for universal water purification Amyloid–carbon hybrid membranes for universal water purification
Amyloid–carbon hybrid membranes for universal water purification Antonio E. Serrano
 
Depresi: apa yang anda ketahui
Depresi: apa yang anda ketahuiDepresi: apa yang anda ketahui
Depresi: apa yang anda ketahuiBagus Utomo
 
Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...
Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...
Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...Crónicas del despojo
 
Civil engineering powerpoint
Civil engineering powerpointCivil engineering powerpoint
Civil engineering powerpointchrisminer01
 

En vedette (20)

Evaluacion de diagnostico de ciencias
Evaluacion de diagnostico de cienciasEvaluacion de diagnostico de ciencias
Evaluacion de diagnostico de ciencias
 
Alternate building materials
Alternate building materialsAlternate building materials
Alternate building materials
 
building material
building materialbuilding material
building material
 
Stone as a building material
Stone as a building materialStone as a building material
Stone as a building material
 
BUILDING MATERIALS - SAND
BUILDING MATERIALS - SANDBUILDING MATERIALS - SAND
BUILDING MATERIALS - SAND
 
A flight on eaa's b 17 flying fortress aluminum overcast
A flight on eaa's b 17 flying fortress aluminum overcastA flight on eaa's b 17 flying fortress aluminum overcast
A flight on eaa's b 17 flying fortress aluminum overcast
 
International Bank for Reconstruction and Development (IBRD)
International Bank for Reconstruction and Development (IBRD)International Bank for Reconstruction and Development (IBRD)
International Bank for Reconstruction and Development (IBRD)
 
claim of value
claim of valueclaim of value
claim of value
 
Definition project
Definition projectDefinition project
Definition project
 
Tehilim 929 #32 מזמור כז 20161215 ftw
Tehilim 929 #32 מזמור כז 20161215 ftwTehilim 929 #32 מזמור כז 20161215 ftw
Tehilim 929 #32 מזמור כז 20161215 ftw
 
Mechanics in-reading-and-writing
Mechanics in-reading-and-writingMechanics in-reading-and-writing
Mechanics in-reading-and-writing
 
Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...
Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...
Дії з інформацією: передавання, пошук, перетворення, використання. Переваги о...
 
A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)
A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)
A situación do galego en Rianxo durante a Idade Media (por Paula Cambeses)
 
Amyloid–carbon hybrid membranes for universal water purification
Amyloid–carbon hybrid membranes for universal water purification Amyloid–carbon hybrid membranes for universal water purification
Amyloid–carbon hybrid membranes for universal water purification
 
Depresi: apa yang anda ketahui
Depresi: apa yang anda ketahuiDepresi: apa yang anda ketahui
Depresi: apa yang anda ketahui
 
Πηνελόπη Δέλτα, Πρώτες ενθυμήσεις, Κείμενα Νεοελληνικής Λογοτεχνίας, Γ΄ Γυμνα...
Πηνελόπη Δέλτα, Πρώτες ενθυμήσεις, Κείμενα Νεοελληνικής Λογοτεχνίας, Γ΄ Γυμνα...Πηνελόπη Δέλτα, Πρώτες ενθυμήσεις, Κείμενα Νεοελληνικής Λογοτεχνίας, Γ΄ Γυμνα...
Πηνελόπη Δέλτα, Πρώτες ενθυμήσεις, Κείμενα Νεοελληνικής Λογοτεχνίας, Γ΄ Γυμνα...
 
i9Access - WebECG
i9Access - WebECGi9Access - WebECG
i9Access - WebECG
 
Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...
Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...
Informe Regional Comparativo. Desarrollo de los derechos a la consulta previa...
 
Civil engineering powerpoint
Civil engineering powerpointCivil engineering powerpoint
Civil engineering powerpoint
 
Brzev ch13 ism
Brzev ch13 ismBrzev ch13 ism
Brzev ch13 ism
 

Similaire à Building Materials

Construction materials
Construction materialsConstruction materials
Construction materialsJesusZB
 
Brick as building materials
Brick as building materialsBrick as building materials
Brick as building materialsSanjib Sengupta
 
Construction Materials.ppt
Construction Materials.pptConstruction Materials.ppt
Construction Materials.pptmeghajain275
 
1. engineering materials
1. engineering materials1. engineering materials
1. engineering materialsArif Asraf
 
Useful Compounds From Minerals & Metals
Useful Compounds From Minerals & MetalsUseful Compounds From Minerals & Metals
Useful Compounds From Minerals & MetalsfRaGr
 
Diploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials aDiploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials aRai University
 
Diploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials aDiploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials aRai University
 
Presentacion building materials 1
Presentacion building materials 1Presentacion building materials 1
Presentacion building materials 1Roki Sweet
 
CONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDS
CONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDSCONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDS
CONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDSKavin Raval
 
Designing, Specifying & Constructing with Modern Concrete
Designing, Specifying & Constructing with Modern ConcreteDesigning, Specifying & Constructing with Modern Concrete
Designing, Specifying & Constructing with Modern ConcreteLiving Online
 
Construction material(CE2G)-Artificial Construction Materials.pptx
Construction material(CE2G)-Artificial Construction Materials.pptxConstruction material(CE2G)-Artificial Construction Materials.pptx
Construction material(CE2G)-Artificial Construction Materials.pptxRAHULHITESHBHAIVAGHA
 
CH_6 Building Material.pptx
CH_6 Building Material.pptxCH_6 Building Material.pptx
CH_6 Building Material.pptxpayal_vinitshah
 
Making of concrete
Making of concreteMaking of concrete
Making of concretebuiltify
 

Similaire à Building Materials (20)

Concrete Technology Unit-II
Concrete Technology Unit-IIConcrete Technology Unit-II
Concrete Technology Unit-II
 
Tecnologia 1
Tecnologia 1 Tecnologia 1
Tecnologia 1
 
Construction materials
Construction materialsConstruction materials
Construction materials
 
Brick as building materials
Brick as building materialsBrick as building materials
Brick as building materials
 
Construction Materials.ppt
Construction Materials.pptConstruction Materials.ppt
Construction Materials.ppt
 
1. engineering materials
1. engineering materials1. engineering materials
1. engineering materials
 
3. lime , cement , sand , brick
3. lime , cement , sand , brick3. lime , cement , sand , brick
3. lime , cement , sand , brick
 
Material
MaterialMaterial
Material
 
Fire bricks and sand lime bricks
Fire bricks and sand lime bricksFire bricks and sand lime bricks
Fire bricks and sand lime bricks
 
Useful Compounds From Minerals & Metals
Useful Compounds From Minerals & MetalsUseful Compounds From Minerals & Metals
Useful Compounds From Minerals & Metals
 
Diploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials aDiploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials a
 
Diploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials aDiploma(civil) sem i boce_unit 1_civil engineering materials a
Diploma(civil) sem i boce_unit 1_civil engineering materials a
 
Gp 6 clay ppt final
Gp 6 clay ppt finalGp 6 clay ppt final
Gp 6 clay ppt final
 
Presentacion building materials 1
Presentacion building materials 1Presentacion building materials 1
Presentacion building materials 1
 
CONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDS
CONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDSCONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDS
CONCRETE- ADVANTAGES,HISTORY,FUTURE TRENDS
 
Designing, Specifying & Constructing with Modern Concrete
Designing, Specifying & Constructing with Modern ConcreteDesigning, Specifying & Constructing with Modern Concrete
Designing, Specifying & Constructing with Modern Concrete
 
Cement
Cement Cement
Cement
 
Construction material(CE2G)-Artificial Construction Materials.pptx
Construction material(CE2G)-Artificial Construction Materials.pptxConstruction material(CE2G)-Artificial Construction Materials.pptx
Construction material(CE2G)-Artificial Construction Materials.pptx
 
CH_6 Building Material.pptx
CH_6 Building Material.pptxCH_6 Building Material.pptx
CH_6 Building Material.pptx
 
Making of concrete
Making of concreteMaking of concrete
Making of concrete
 

Dernier

UNIT - IV - Air Compressors and its Performance
UNIT - IV - Air Compressors and its PerformanceUNIT - IV - Air Compressors and its Performance
UNIT - IV - Air Compressors and its Performancesivaprakash250
 
VIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 Booking
VIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 BookingVIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 Booking
VIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 Bookingdharasingh5698
 
Unit 2- Effective stress & Permeability.pdf
Unit 2- Effective stress & Permeability.pdfUnit 2- Effective stress & Permeability.pdf
Unit 2- Effective stress & Permeability.pdfRagavanV2
 
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756dollysharma2066
 
chapter 5.pptx: drainage and irrigation engineering
chapter 5.pptx: drainage and irrigation engineeringchapter 5.pptx: drainage and irrigation engineering
chapter 5.pptx: drainage and irrigation engineeringmulugeta48
 
Call Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance BookingCall Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance Bookingroncy bisnoi
 
Work-Permit-Receiver-in-Saudi-Aramco.pptx
Work-Permit-Receiver-in-Saudi-Aramco.pptxWork-Permit-Receiver-in-Saudi-Aramco.pptx
Work-Permit-Receiver-in-Saudi-Aramco.pptxJuliansyahHarahap1
 
Design For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the startDesign For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the startQuintin Balsdon
 
Double Revolving field theory-how the rotor develops torque
Double Revolving field theory-how the rotor develops torqueDouble Revolving field theory-how the rotor develops torque
Double Revolving field theory-how the rotor develops torqueBhangaleSonal
 
data_management_and _data_science_cheat_sheet.pdf
data_management_and _data_science_cheat_sheet.pdfdata_management_and _data_science_cheat_sheet.pdf
data_management_and _data_science_cheat_sheet.pdfJiananWang21
 
Intro To Electric Vehicles PDF Notes.pdf
Intro To Electric Vehicles PDF Notes.pdfIntro To Electric Vehicles PDF Notes.pdf
Intro To Electric Vehicles PDF Notes.pdfrs7054576148
 
Unleashing the Power of the SORA AI lastest leap
Unleashing the Power of the SORA AI lastest leapUnleashing the Power of the SORA AI lastest leap
Unleashing the Power of the SORA AI lastest leapRishantSharmaFr
 
Call Girls Wakad Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Wakad Call Me 7737669865 Budget Friendly No Advance BookingCall Girls Wakad Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Wakad Call Me 7737669865 Budget Friendly No Advance Bookingroncy bisnoi
 
Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...
Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...
Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...Call Girls in Nagpur High Profile
 
Generative AI or GenAI technology based PPT
Generative AI or GenAI technology based PPTGenerative AI or GenAI technology based PPT
Generative AI or GenAI technology based PPTbhaskargani46
 
KubeKraft presentation @CloudNativeHooghly
KubeKraft presentation @CloudNativeHooghlyKubeKraft presentation @CloudNativeHooghly
KubeKraft presentation @CloudNativeHooghlysanyuktamishra911
 
Intze Overhead Water Tank Design by Working Stress - IS Method.pdf
Intze Overhead Water Tank Design by Working Stress - IS Method.pdfIntze Overhead Water Tank Design by Working Stress - IS Method.pdf
Intze Overhead Water Tank Design by Working Stress - IS Method.pdfSuman Jyoti
 
VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...
VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...
VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...SUHANI PANDEY
 

Dernier (20)

UNIT - IV - Air Compressors and its Performance
UNIT - IV - Air Compressors and its PerformanceUNIT - IV - Air Compressors and its Performance
UNIT - IV - Air Compressors and its Performance
 
VIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 Booking
VIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 BookingVIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 Booking
VIP Call Girls Palanpur 7001035870 Whatsapp Number, 24/07 Booking
 
Unit 2- Effective stress & Permeability.pdf
Unit 2- Effective stress & Permeability.pdfUnit 2- Effective stress & Permeability.pdf
Unit 2- Effective stress & Permeability.pdf
 
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
 
chapter 5.pptx: drainage and irrigation engineering
chapter 5.pptx: drainage and irrigation engineeringchapter 5.pptx: drainage and irrigation engineering
chapter 5.pptx: drainage and irrigation engineering
 
Call Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance BookingCall Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Walvekar Nagar Call Me 7737669865 Budget Friendly No Advance Booking
 
Work-Permit-Receiver-in-Saudi-Aramco.pptx
Work-Permit-Receiver-in-Saudi-Aramco.pptxWork-Permit-Receiver-in-Saudi-Aramco.pptx
Work-Permit-Receiver-in-Saudi-Aramco.pptx
 
Design For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the startDesign For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the start
 
Double Revolving field theory-how the rotor develops torque
Double Revolving field theory-how the rotor develops torqueDouble Revolving field theory-how the rotor develops torque
Double Revolving field theory-how the rotor develops torque
 
data_management_and _data_science_cheat_sheet.pdf
data_management_and _data_science_cheat_sheet.pdfdata_management_and _data_science_cheat_sheet.pdf
data_management_and _data_science_cheat_sheet.pdf
 
Intro To Electric Vehicles PDF Notes.pdf
Intro To Electric Vehicles PDF Notes.pdfIntro To Electric Vehicles PDF Notes.pdf
Intro To Electric Vehicles PDF Notes.pdf
 
Unleashing the Power of the SORA AI lastest leap
Unleashing the Power of the SORA AI lastest leapUnleashing the Power of the SORA AI lastest leap
Unleashing the Power of the SORA AI lastest leap
 
Call Girls Wakad Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Wakad Call Me 7737669865 Budget Friendly No Advance BookingCall Girls Wakad Call Me 7737669865 Budget Friendly No Advance Booking
Call Girls Wakad Call Me 7737669865 Budget Friendly No Advance Booking
 
Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...
Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...
Booking open Available Pune Call Girls Pargaon 6297143586 Call Hot Indian Gi...
 
Generative AI or GenAI technology based PPT
Generative AI or GenAI technology based PPTGenerative AI or GenAI technology based PPT
Generative AI or GenAI technology based PPT
 
KubeKraft presentation @CloudNativeHooghly
KubeKraft presentation @CloudNativeHooghlyKubeKraft presentation @CloudNativeHooghly
KubeKraft presentation @CloudNativeHooghly
 
Intze Overhead Water Tank Design by Working Stress - IS Method.pdf
Intze Overhead Water Tank Design by Working Stress - IS Method.pdfIntze Overhead Water Tank Design by Working Stress - IS Method.pdf
Intze Overhead Water Tank Design by Working Stress - IS Method.pdf
 
(INDIRA) Call Girl Aurangabad Call Now 8617697112 Aurangabad Escorts 24x7
(INDIRA) Call Girl Aurangabad Call Now 8617697112 Aurangabad Escorts 24x7(INDIRA) Call Girl Aurangabad Call Now 8617697112 Aurangabad Escorts 24x7
(INDIRA) Call Girl Aurangabad Call Now 8617697112 Aurangabad Escorts 24x7
 
VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...
VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...
VIP Model Call Girls Kothrud ( Pune ) Call ON 8005736733 Starting From 5K to ...
 
FEA Based Level 3 Assessment of Deformed Tanks with Fluid Induced Loads
FEA Based Level 3 Assessment of Deformed Tanks with Fluid Induced LoadsFEA Based Level 3 Assessment of Deformed Tanks with Fluid Induced Loads
FEA Based Level 3 Assessment of Deformed Tanks with Fluid Induced Loads
 

Building Materials

  • 3. CONTENTS… There are numerous building materials that we well familiar but here we are going to explain a few but some basics of them. • WATER • CONCRETE. • CEMENT. • AGGREGATES. • PAINTS AND VARNISHES/COATINGS. • BRICKS. • STONES. • METALS & STEEL. • TIMBER. • Glass. • CERAMIC MATERIALS. • OTHER MATERIALS… • Unusual Constructions in the world...
  • 4. WATER  Is there any need of introduction to water??? “The beginning of earth; is the beginning of water,even before the Earth.”  Perhaps it May be not needs any definition but of-course needs to define in terms of its composition/use & properties for civil engineering.  Structurally it consist of 2 H-atoms & 1 O-atom.  Water that we use for constr. purpose, should contain standard ingredients as given in the tables. Ingredi ents Standar ds Sulphate 250mg/L Chloride 250mg/L Flouride 4mg/L Nitrite 1 mg/L Nitrate 9 mg/L Arsenic 110 µg/L Cadmium 5 µg/L Copper 1300µg/L Lead 15µg/L Iron 300µg/L Mangane 50µg/L Selenium 50µg/L Silver 100µg/L Ingredi ents Standar ds Zinc 5ng/L Mercury 2µg/L Ra-226 5 pCi/L Ra-228 5 pCi/L Radon^ 2 300pCi/ L throntiu m 15 pCi/L Uraniu m 30 µg/L Barium 2ng/L
  • 5. Continued… There is no compromise on the quality/properties of water that we use in constructions.  The quantities of CO2 , Dissolved Oxygen, Ammonia Carbonates/Bicarbonates, Ca, Mg, Na, K, P, Nickel, should not be enough to make water as toxic.  Water should not be acidic/basic/oily/salty etc.  Water should be drinkable with the pH of range 6.5-7.5  Water should not be injurious and should not contains any impurities, because impurities leads to improper bonding with other materials.  Water has world-wide usage, & use in all basic constructional materials.
  • 6. Concrete. • Concrete is a composite material composed of coarse aggregate bonded together with a fluid cement(Portland or hydraulic) with or without admixtures, that hardens over time. • History: The word concrete comes from the Latin word "concretus" (meaning compact or condensed) the perfect passive participle of "concrescere", from "con-" (together) and "crescere" (to grow). Concrete is an ancient material of construction, first used during the Roman Empire. • Strength: Concrete today is a sophisticated material to which exotic (foreign) constituents can be added and, with computer- controlled batching, can produce a product capable of achieving 50,000 psi compressive strength • Hydration: The water reacts with the cement, which bonds the other components together, eventually creating a stone- like material; the process is called hydration.
  • 7. Ingredients :water, cement, aggregates, admixtures…  Types of concerete Concrete is divided into three broad categories : 1: plain cement concrete (P.C.C) 2: Reinforced cement concrete (R.C.C) 3: Pre-stressed cement concrete Pre-stress concrete is further classified into two types • Pre-tension R.C.C • Post-tension R.C.C  Uses of concerete Concrete has many applications and is used to make pavements, pipe, structures, foundations, roads, bridges/ overpasses, walls and footings for gates.
  • 8. Fresh concrete Test:  Flow test → measures the amount of flow to identify transportable moisture limit of solid bulk cargoes.  Kelly-Ball test → measures the amount of penetration.  Slump test → To check the workability of fresh concrete . Hard Concrete Test:  compaction test → To check the compressive strength of concrete .  Flexure strength test → To check the flexure properties of concrete Properties: : strength, durability, fire resistance, density , toughness.Workability, shrinkage, fatigue, economy, appearance etc…
  • 9. Cement Cement is a crystalline compound of calcium silicates and other calcium compounds having hydraulic properties (Macfadyen, 2006). “In its History : in 1824 by Mason Joseph Aspdin, a Portland cement was prepared by mixing limestone & clay with water, it was named Portland Cement, as it looks alike Portland Rock in England. Lime and clay have been used as cementing material on constructions through many centuries.”  Cement should be stored off the ground in a well-aired, clean, dry place, like plastic bags. They should not be placed on directly on ground but on wooden platform. Bulk Cement should be store in Silos. Weight of one bag of cement: 50Kg Volume of one bag of cement: 1.25 ft3 •Cement + water = cement paste •Cement + water + sand = mortar •Cement + water + sand + lime = masonry mortar •Cement + water + sand + coarse aggregate = concrete Compound %age Lime 62 Silica 22 Alumina 7.5 MgO 2.5 Fe2O3 2.5 SO3 1.5 Na2O 1.0 K2O 1.0
  • 10. Physical Properties…  Feel smooth when touched or rubbed in between fingers.  If it contains clay & silt as adulterant, it give earthy smell.  If felt rough, indicates adulteration with sand.  If hand is inserted in cement bag, hand feels cool and not warm.  If it immersed in water, it should sink and should not float  A paste of cement feel sticky Uses  Building (floors, beams, columns, roofing, piles, bricks, mortar, panels, plaster  Transport (roads, pathways, crossings, bridges, viaducts, tunnels, parking, etc.)  Water (pipes, drains, canals, dams, tanks, pools, etc.)  Agriculture (buildings, processing, housing, irrigation)  Civil (piers, docks, retaining walls, silos, warehousing, poles, pylons, fencing) quality tests of cement: Color test Presence of lumps Adulteration test Temperature test Float tests Strength test Setting test Date of packing.
  • 11. Aggregates/clay/sand  Aggregates are inert granular materials such as sand, gravel, or crushed stone that, along with water and Portland cement, are an essential ingredient in concrete.  For a good concrete mix, aggregates need to be clean, hard, strong particles free of absorbed chemicals or coatings of clay and other fine materials that could cause the deterioration of concrete. Aggregates occupy 70 to 80 % of total volume of concrete. “Fine aggregate” is defined as material that will pass a No. 4 ASTM sieve (4.75mm) and be retained on a No. 200 sieve (0.075mm). “ Coarse aggregate is a material that will pass the 3-inch screen and will be retained on the No. 4 ASTM sieve. Aggregates should be stored where they will stay clean, separated from other materials and dry. Fine aggregate Size variation Coarse Sand 2.0mm – 0.5mm Medium sand 0.5mm – 0.25mm Fine sand 0.25mm – 0.06mm Silt 0.06mm – 0.002mm Clay <0.002 Coarse aggregate Size Fine gravel 4mm – 8mm Medium gravel 8mm – 16mm Coarse gravel 16mm – 64mm Cobbles 64mm – 256mm Boulders >256mm
  • 12.  Properties: Strength, Hardness, Toughness, Durable, particle shape, Non-pourous, absorption and surface moisture, Chemically inactive Uses: Aggregate can be used in a number of ways in construction. In roads and railway ballast, concrete etc…The uses of aggregates can be summarized in to the following three categories • As a Load Bearing Material • As a Filling Material • As an Infiltrating Material Quality Measures… 1: seive analysis test This test is performed to have well graded aggregates 2: Abrasion test To check the hardness of aggregates 3: Specific gravity &water absorbtion test To check specific gravity and water absorbtion of aggregates
  • 13. Paint is a Solution or suspension (emulsion) of pigment, binder, and mineral solvent (or water) that on drying forms an adhering film on he surface it is applied for protection and decoration. History: In 2001 and 2004, South African archeologists reported finds in Blombos Cave of a 100,000-year-old human-made ochre-based mixture that could have been used like paint. Further excavation in the same cave resulted in the 2011 report of a complete toolkit for grinding pigments and making a primitive paint-like substance. Although researchers could find a cave painting of only 40,000 years old upto now. Distempers: Distempers may be defined as water paints consisting o whiting (powdered chalk), some colouring pigment (if desired) and glue size mixed in water. Varnishes: Varnish is a clear, pale solution of a resinous substance (like amber, copal, shellac) dissolved in either oil, turpentine or alcohol. Paints Paints Types: 1. OIL PAINTS 2. SYNTHETIC PAINTS 3. EMULSION PAINTS 4. CELLULOSE PAINTS 5. VARNISHES 6. WATER PAINTS (distemper) 7. SPECIAL PAINTS
  • 14. Properties of Good Paints:  Should have Ease of Workability & give smooth surfaces.  Sticky with wall & capable of filling pores.  Should have Covering ability & Ease of cleaning  Should Dry rapidly & economical.  Environmentally Friendly.  Should not fade over time.  Protection of the Surface against weathering, corrosion, decaying. Uses:  It is used to give a high-class finish.  It is used to give attractive colours.  It is used to give smooth surfaces.  To make the materials long lasting.  Protection of the Surface against water, weathering, corrosion, decaying.  Use for decorative purposes…etc Process of painting: 01. Preparation of surface 02. Knotting 03. Priming 04. Stopping 05. coatings 06. Finishing coat Composition:  A base  An inert filler or extender  Coloring pigment  A vehicle  A solvent or thinner
  • 15. BricksBrick is a basic building unit which is in the form of rectangular block in which length to breadth ratio is 2 but height can be different. • Normal size (standard size) 9''×4½" ×3" • Architectural size (Working/architectural size) 81 ⅟16" x 4⁵⁄₁₆" x 21 ⅟16“ • In its history , the first bricks were dried (Mud), dating before 7500 BC, were found at Tell Aswad, in the upper Tigris region and in southeast Anatolia close to Diyarbakir. • With the pessage of time, Burnt mud bricks, stone bricks & now a days , even concreted bricks have been using.This trend was set up by the China and Europe. Standard Imperial Australia 9 × 4⅓ × 3 in Denmark 9 × 4¼ × 2¼ in Germany 9 × 4¼ × 2¾ in India 9 × 4¼ × 2¾ in Romania 9 × 4¼ × 2½ in Russia 10 × 4¾ × 2½ in KSA 8¾ × 4 × 3 in Sweden 10 × 4¾ × 2½ in UK 8½ × 4 × 2½ in
  • 16. Composition: a. Clay (Alumina) 20 to 30 percent b. Silt 20 to 35 percent c. Sand 35 to 50 percent Properties: • They are durable. • They are low cost material. • They possess good strength. • They are easily available. • Brick are light in compared to stone Uses: • Bricks are used in wall masonry construction of building • Used in brick lintal construction • Bats of brick are used in concrete in foundation work • Etc. Requirements: • The color of the brick should be red or copper and uniform. • It should be well burnt in kilns. • The surface should be even and free from cracks. • The edges should be sharp..
  • 17. Stones: A stone is a small piece of rock. History: The Stone Age was a broad prehistoric period during which stone was widely used to make implements with an edge, a point, or a percussion surface. The period lasted roughly 3.4 million years, and ended between 8700 BCE] and 2000 BCE with the advent of Metal working. Marbleis a metamorphic rock composed of recrystallized carbonate minerals, most commonly calcite or dolomite. Marble may be foliated Geologists use the term "marble" to refer to metamorphosed limestone & is use as a building material. A Tileis a manufactured piece of hard-wearing material such as ceramic, stone, metal, or even glass, generally used for covering roofs, floors, walls, showers, or other objects such as tabletop Types: 1)Igneous (Born of Fire) 2) Sedimentary (Cementing of Grains) 3)Metamorphic (Changed in Structure)
  • 18. Composition: • Silicates(silica/Quartz) • Calcium Carbonates(limestone/marbles) Properties: • Siliceous rocks are hard and durable.& resistive to weathering actions. • Argillaceous rocks may be dense and compact or they may be soft. • The Durability of calcareous rocks will depend upon the constituents present in surrounding atmosphere. • Marble and quartzite have compact crystalline structure. • Igneous rocks contain many minerals. Various minerals having wide range of different distinctive characteristics Uses: • They are used to make concrete as coarse aggregate • They are used in hydraulic structures like dams etc. • They are used as road metal in road construction. • They are used in retaining wall masonry. • They are used as ballast for in railways.. Requirements: • Structure shape required…!!! • Appearance-Colour Texture • Weight • Fineness of Grains • Durability • Strength • Hardness • Facility of Working and Dressing STONES
  • 20. Metals: A metal(from Greek μέταλλον métallon, "mine, quarry, metal”) is a material (an element, ) compound, or alloy) that is typically hard, opaque, shiny, and has good electrical and thermal conductivity.  In its History, man first discovered copper (Around 9000BC),a naturally occurring, relatively pure metal, by native to many countries. . Later on, discovery of metals continued…& making their place to periodic table.  About 91 of the 118 elements in the periodic table are metal, the others are nonmetals(13+7) & metalloids(7). Requirements of metal…for civil Engineering.  They should provide sufficient strength to bear the loads coming on them  They should provide resistance to corrosion and weather actions  They should provided resistance to heat and fire.  They should have good adhesion with cement concrete
  • 21. Steelis an alloy of iron and other elements, primarily carbon, that is widely used in construction and other applications because of its high tensile strength and low cost. Iron is the source of making steel. Structural steel is a steel type used as a constr. material for making structural steel. History, The noun steel originates from the Proto-Germanicadjective stakhlijan (made of steel), which is related to stakhla (standing firm). The Chinese of the Warring States period (403–221 BC) had quench-hardened steel, while Chinese of the Han dynasty (202 BC – 220 AD) created steel by melting together wrought iron with cast iron, gaining an ultimate product of a carbon- intermediate steel by the 1st century AD. E-VALUE for steel is 185-230GPa & 200GPa is average. Unit weight of steel is 7.85g/c.c or 7850kg/m^3 or 77KN/m^3. in compare with steel, concrete has unit wt. of 23.6KN/m^3. Steel type %age C Low C- steel <0.15 Mild C- steel 0.15- 0.29 Medium C-steel 0.3-0.59
  • 22.  Requirements/Properties of steel are Strength, Toughness, Ductility, Weld ability, Durability, Etc….same as that of metals.  Iron and steel are used widely in the construction of roads, railways, other infrastructure, appliances, and buildings, stadiums and skyscrapers, bridges, and airport,. R.C.C, bolts, nails, and screws and other household products and cooking utensils, shipbuilding , pipelines, mining, offshore construction, aerospace, white goods(e.g. washing machines), heavy equipment such as bulldozers, furniture, steel wool, tools, and armour in the form of personal vests or vehicle armour(better known as rolled homogeneous armour in this role. Steel is of Two Types on the basis of manufacturing…. 1) Hot Rolled Steel(1700 F) 2) Cold Rolled Steel(room T)  Common steel shapes : Grade Strain (%age ) 280 >12 300 >12 420 >9 520 >7
  • 23. WOOD/TIMBER • Wood: is a porous and fibrous structural tissue found in the stems and roots of trees, and other wood plants. It is an organic material, a natural composite of cellulose fibers which are strong in tension embedded in a matrix of lignin which resists compression. • Composition: Wood is a heterogeneous, hygroscopic, cellular and anisotropic material. It consists of cells, and the cell walls are composed of micro-fibrils of cellulose (40% – 50%) and hemicellulose (15% – 25%) impregnated with lignin (15% – 30%). • Seasoning: The seasoning of timber is typically either kiln- or air-dried. Defects due to seasoning are the main cause of splinters and slivers. • Timber: wood prepared for use in building and carpentry. Timber was used as a dominant building material in most of the ancient temples of Kerala and coastal Karnataka of India
  • 24. Requirements of timber… It should be dense. It should have uniform texture. It should have dark uniform color. It should be workable, good machinability. The medullary rays should be compact. Uses Railway sleepers, bridges, pipes. Furniture, decorative pieces, doors. Packing material, piles, cart wheels. Poles, pen, rafter. Roofs, partition walls, boats etc. Properties: It has low heat conductivity. It has small bulk density. It is relatively high strength. It is susceptible to decay. It is susceptible to flame. TYPES • Natural timber babul, oak, pine, mango, sal, teak, neem, palms, chir. • Industrial timber veneers, plywoods, fiberboards, impreg timber, compreg timber Plywood a type of strong thin wooden board consisting of two or more layers glued and pressed together with the direction of the grain alternating. •
  • 25. Glass: Glass is a non-crystalline amorphous solid that is often transparent and has widespread practical, technological, and decorative usage in, for example , window panes, tableware, and optoelectronics. The history of glassmaking can be traced back to 3500 BC in Mesopotamia. Archaeological evidence suggests that the first true glass was made in coastal north Syria, Mesopotamia or Ancient Egypt. In England, glass became common in the windows of ordinary homes only in the early 17th century whereas windows made up of panes of flattened animal horn were used as early as the 14th century. Ingredients: 1) Sand or Silica-(main constituent & source) 2) Potash- (give fire resistance properties) 3) Sodium Carbonate- (accelerate fusion of glass) 4) Lime (gives durability/toughness/hardness) 5) Lead oxide-(gives color) 6) Cullet-(broken pieces of glass , reuse to reduce cost) Other Additives. --Lead – to make crystal glasses. --Boron –changes the thermal and electrical properties of the glass . --Iron-(imparts colours) etc
  • 26. PROPERTIES (OR) CHARACTERISTICS OF GLASS: (1) It has highly shining appearance and takes good polish. (2) It is not affected by temperature except in some exceptional cases. (3) It is fire retardant. (4) It provides heat insulation. (5) It also ensures transmission of light. (6) It is available in various varieties. (7) It transmits light but also provide privacy by obstructing vision. (8) Glass blocks provide heat and sound proof properties. USES OF GLASS: (1) Glass is extensively used in building construction since long time for glazing doors and windows. (2) It is also used for decoration. (3) It is also used for sound insulation purposes. (4) It is used for cut glass work, electric bulbs (lead glass). (5) It is used for manufacturing of laboratory equipments and cooking utensils (Boro-silicate glass). (6) It is used for partition walls. (7) It is used for cabinets, show cases, shop fronts. (8) It is also used as fire retarder
  • 27. Ceramic Materials The word ceramic, derives its name from the Greek keramos, meaning "pottery", which in turn is derived from an older Sanskrit root, meaning "to burn". The Greeks used the term to mean "burnt stuff" or "burned earth". Thus the word was used to refer to a product obtained through the action of fire upon earthy materials A wide-ranging group of materials whose ingredients are clays, sand and felspar, metals, polymers etc. Archeologists have uncovered human-made ceramics that date back to at least 24,000 BC in Czechoslovakia Requirement of ceramics •They should provide resistance to stains •They should be easy to clean •They should be non- slippary while wet •The colours of ceramic products should be long lasting •They should be durable
  • 28. Types  Crystalline  Non crystalline  Glass bonded Properties: It has low ductility. It has low resistance to impact low toughness. It has excellent dielectric properties. It has good resistance to corrosion. It has good chemical resistance. USES:  It is use in manufacturing Bricks, Terra cotta, Tiles, Pipes, Chimney….  It is used in Bathroom/kitchen/Household accessories etc… Further … The products of technical ceramics include tiles used in the Space Shuttle program, gas burner nozzles ballistic protection, nuclear fuel uranium oxide pellets, bio-medical implants jet engine turbine blades, and missile nose cones….
  • 29. Other Materials…  Mud.  D.P.C.  R.C.C.  Lime Mortar(binder).  Aluminum Window.  Ropes/Cables.  Wall partitioning Boards.  Building Fabrics(shells/shades).  Foam(insulator & decorative).  Electronics(part of building).  Thatch(straw/leaves roofs)  Oils/Water Proofing Products.  Translucent Sheeting Materials.  Roof Tiles.  Plastic Paris.  Plastics(coatings,pipes,decorative purpose etc.) Asbestos( for insulation & Binding) Rubber.(for insulation & Decoration) Cork.(for insulation). Glss Wool: fibres(For insulation) Ebonite: Plastic(insulation). Mica.(Insulation) Bakelite.(for insulation & Decoration) Linolium.(for decoration, Hygienic & Insulation) etc….
  • 30. Unusual Construction In the WORLD…  Ice Hotel.  Silos’ House.  Wood Pallets.  House boats.  Corn Cob House.  Buddhist beer temple.  Scrap Metal House.  Aero-plane house.  cardboard Construction.  Lego Brick 2-Storey's house.  Aluminum Cans’ House(50,000 cans).  Miscellaneous recyclables (“Earthships”), Use Of Tyres….!!!  Salt-Based Hotel(1 million salt bricks).  Shipping Containers.  Cake Room.(sweetest building material).  Etc…..