-
QUICK REFERRENCE
TO
CIVIL ENGINEERING
LAB TESTINGS
BYVINAY KUMAR GUPTA(DY.CHIEF ENGINEER/GNORTHERN RAILWAY)
-
IMPACT TEST FOR COARSE AGGREGATE (10MM, 20MM)(IS: 2386 Pt-IV,
Para 4/ IS: 383 Para 3.4)
PASSING THROUGH 12.5MM & RETAINED AT 10MM
IN CUP IN 3 LAYERS, EACH LAYER COMPACTED 25 TIMES
WEIGHT OF SAMPLE IN CUP (A)15 BLOWS IN IMPACT TEST
APPARATUSPASSING THROUGH 2.36 SIEVE (B)IMPACT VALUE IN %=
(B)/(Ax100)
LIMITS:IS < 45% FOR OTHER THAN WEARING COAT, 30% FOR WEARING
COATS
-
ABRASION TEST FOR COARSE AGGREGATE (10MM, 20MM)(IS: 2386 Pt-IV,
Para 5/ IS: 383 Para 3.5)
DEVAL TESTING MACHINEGRADING.SAMPLE & ABRASION CHARGE (6
SPHERES, 48mm dia.) IN TESTING MACHINE10,000 REVOLUTIONS @ 30-33
rpm.RETAINED ON 1.7mm SIEVE. WASHED & DRIED.W=
(AL+(100-A)L')/100 WHERE 'W' IS PERMISSIBLE % OF WEAR, 'A' IS % OF
UNCRUSHED FRAGMENTS, 'L' IS MAXIMUM % OF WEAR PERMITTED FOR GRAVEL
OF UNCRUSHED FRAGMENTS & 'L'' IS MAXIMUM % OF WEAR PERMITTED
FOR GRAVEL OF CRUSHED FRAGMENTS
-
LOS-ANGELES TESTING MACHINE (PREFFERED TO ABOVE)GRADING.SAMPLE
& ABRASION CHARGE (6 SPHERES, 48mm dia.) IN TESTING
MACHINE500-1,000 REVOLUTIONS @ 20-33 rpm.RETAINED ON 1.7mm SIEVE.
WASHED & DRIED.W= (AL+(100-A)L')/100 WHERE 'W' IS PERMISSIBLE %
OF WEAR, 'A' IS % OF UNCRUSHED FRAGMENTS, 'L' IS MAXIMUM % OF WEAR
PERMITTED FOR GRAVEL OF UNCRUSHED FRAGMENTS & 'L'' IS MAXIMUM %
OF WEAR PERMITTED FOR GRAVEL OF CRUSHED FRAGMENTSLIMITS 30% FOR
OTHER THAN WEARING COAT & 30% FOR WEARING COATS
-
POLISHED STONE VALUEFOR ROADS ONLY(IS:2386 Pt-IV, Para 6/ IS:
383)
-
AGGREGATE CRUSHING VALUESURFACE DRY(IS:2386 Pt-IV, Para 2/ IS:
383 Para 3.3)CYLINDER ON BASE PLATE, SAMPLE IN 3 LAYERS, EACH LAYER
COMPACTED 25 TIMES. PLUNGER INSERTED AFTER LEVELLING THE SAMPLE IN
CYLINDER. APPARATUS KEPT BETWEEN PLATENS OF TESTING MACHINE. 40
TONNES LOAD IN 10 MINUTES. TOTAL LOAD OF SAMPLE IN CYLINDER
(A).RELEASE PRESSURE. SIEVE ON 2.36mm SIEVE & WEIGH(B) FOR
STANDARD TEST
FOR OTHER THAN STANDARD TEST:
CRUSHING VALUE = (B/A)*100not >45%
-
TEN PERCENT FINES VALUESURFACE DRY(IS:2386 Pt-IV, Para 3)
PASSING 12mm RETAINED ON 10mm. CYLINDER ON BASE PLATE, SAMPLE IN 3
LAYERS, EACH LAYER COMPACTED 25 TIMES. PLUNGER INSERTED AFTER
LEVELLING THE SAMPLE IN CYLINDER. APPARATUS KEPT BETWEEN PLATENS OF
TESTING MACHINE. IN 10 MINUTES FOR 20mm DISPLACEMENT OF PLUNGER.
NET LOAD 'X' TONNES.RELEASE PRESSURE. SIEVE ON 2.36mm SIEVE (PASSED
SHOULD BE BETWEEN 7.5 TO 12.5%).REPEAT AGAIN. TAKE AVERAGE OF %
PASSING 'Y' AND AVERAGE OF LOAD 'X'. LOAD REQUIRED FOR 10% VALUE =
(14*X)/(Y+4)
-
SIEVE ANALYSIS FOR FINE & COARSE AGGREGATEDRY (IS:2386 Pt-I,
Para 2/ IS: 383 Table 2,5,4 & PARA 3.2)WEIGH 1000 gm FOR FINE
AGGREGATE & 2000gm FOR COARSE AGGREGATEIN SIEVE SHAKER FOR 2
MINUTESWEIGH & TAKE %.
- SILT CONTENT (SAND & STONE DUST) (CPWD SPECS PAGE 42,
IS:2386 Pt-II PARA 3 FOR SILT CONTENT BY SEDIMENTATION USING SODIUM
OXALATE)TAKE ABOUT 110 ml OF SAMPLE IN A GRADUATED CYLINDER OF 200
mlADD WATER UPTO 150ml MARK. ADD SALT @ 5ml/500ml OF WATERSHAKE
WELL & LET IT SETTLE FOR ABOUT 3 HOURSTAKE READING OF TOP(A)
& BOTTOM(B) OF SILT LEVELSILT % = (A-B)/(Bx100)
-
MOISTURE CONTENT (SAND & STONE DUST)TAKE SAMPLE OF FINE
AGGREGATE IN MOITURE APPARATUS BALANCEPUT IT IN APPARATUS CUP. TAKE
CALCIUM CARBONATE SPOONFUL. PUT IT IN 2ND CUP. PUT 2ND CUP OVER 1ST
CUP IN APPARATUS. TIGHTEN THE SCREW. SHAKE WELL THE APPARATUS.
READING IN THE METER IS %AGE OF MOISTURE IN SAMPLE.
-
SIEVE ANALYSIS FOR MATERIAL FINER THAN 75mm IS:2386 PARA 3,
IS:383 TABLE 1
-
SURFACE MOISTURE FOR FINE AGGREGATE(IS:2386 Pt-III, Para 5)P1 =
(Vs-Vd)*100/(Ms-Vs)P2 = (Vs-Vd)*100/(Ms-VD)WHERE P1=% SURFACE
MOISTURE OF SATURATED SURFACE DRY FINE AGGREGATEP2=% SURFACE
MOISTURE IN TERMS OF WEIGHT OF WET FINE AGGREGATEVs=WEIGHT IN gm OF
WATER DISPLACEDVd=WEIGHT OF SAMPLE/SP. GRAVITYMs=WEIGHT OF SAMPLE
IN gm
-
WATER ABSORPTION TEST (COARSE AGGREGATE): IS:2386 PARA 2SAMPLE
OF 2000gm. WASH THOROUGHLY. PUT IN A JAR. FILL WITH DISTILLED WATER
IMMERSED AT LEAST 5cm(IN WIRE BASKET IMMERSED IN A TANK). 25 TIMES
UP & DOWN TO REMOVE ENTRAPPED AIR. LEAVE FOR 24 plus/minus
HOURS at 22-320c.DRAIN WATER. SURFACE DRY ON CLOTHS & IN OPEN
AIR(NOT IN SUNLIGHT). MAY BE UNDER FAN AFTER 10 MINUTES OF
DRYING.WEIGH (A)PUT IN OVEN AT 100-1100C FOR 24 plus/minus HOUR.
COOL IN AIR TIGHT CONTAINERWEIGH (B)WATER ABSORPTION=
(A-B)*100/(B)
-
WATER ABSORPTION TEST (AGGREGATE FINER THAN 10mm):SAMPLE OF
500gm. PUT IN A TRAY. FILL WITH DISTILLED WATER IMMERSED. SHAKE TO
REMOVE ENTRAPPED AIR. LEAVE FOR 24 plus/minus HOURS at
22-320c.DRAIN WATER THROGH FILTER PAPER SO THAT MATERIAL RETAINED
CAN BE PUT BACK. UNIFORM SURFACE DRYING BY STIRRING TILL FREE
RUNNING.WEIGH (A)PUT IN OVEN AT 100-1100C FOR 24 plus/minus HOUR.
STIR INBETWEEN. COOL IN AIR TIGHT CONTAINERWEIGH (B)WATER
ABSORPTION= (A-B)*100/(B)
-
SOUNDNESS OF COARSE AGGREGATE (IS 386 PARA 3.6, IS2386 Pt 5) TO
DETERMINE RESISTANCE TO DISINTEGRATION OF COARSE AGGREGATE BY
SATURATED SOLUTION OF Na2SO4 OR MgSO4.
-
SPECIFIC GRAVITY (COARSE AGGREGATE & FINE AGGREGATE)
:(IS:2386 Pt-III, Para 2)TAKE SAMPLE OF ABOUT 500 gm PUT IN A WIRE
BASKET. DIP IN WATERS JOLTED AND WEIGHED IN WATER ALONGWITH BASKET.
BASKET EMPTIED OUT AND AGAIN WEIGHED IN WATER. DIFFERENCE OF BOTH
THE WEIGHTS IS WEIGHT OF AGGREGATE IN WATER (A). DRY THE SAMPLE IN
AIR & WEIGH. (B).DRY THE AGGREGATE IN OVEN AT 100-110OC FOR 24
HOURS & WEIGH ( C)SP. GRAVITY= C/B-AAPPARENT SP.
GRAVITY=C/C-AUSING PYCNOMETER: SAMPLE WETTING AS ABOVE FOR 24
HOURS. SURFACE DRY. WEIGH (A)AGGREGATE IN PYCNOMETER & FILLED
WITH DISTILLED WATER UPTO TOP. WEIGH (B)EMPTY PYCNOMETER. FILL UPTO
TOP WITH DISTILLED WATER. WEIGH (C )SAMPLE IN OVEN FOR 24 HOURS.
SAMPLE WEIGHED (D)SP GR.=D/A-(B-C)APPARENT SP GRAVITY=
D/D-(B-C)
-
BULK DENSITY: Kg/Liter. OF NO USE PRACTICALLY. SIZES OF
CONTAINERS GIVEN IN IS: 2386 Pt III, PARA 3
VOID RATIO: = (SP. GRAVITY-BULK DENSITY)*100/SP. GRAVITY(IS:2386
Pt-III, Para 3)
-
FLAKINESS & ELONGATION:(IS:2386 Pt-I, Para 4 IS:383 PARA 3.1
LAST LINE)TAKE SAMPLE IN SUFFICIENT QUANTITY SUCH THAT 200 NOS OF
PIECES ARE RETAINED ON EACH SIEVE i,e 20,16,12.5,10 & 6.3
SIEVES AS APPLICABLEWEIGH RETENTION ON 10 & 6.3mm FOR 10mm
& 20,16,12.5,10 & 6.3mm FOR 20mm(A).PASS THROUGH FLAKINESS
(THICKNESS) GAUGE FOR DIFFERENT RETENTIONS (B).FLAKINESS=(B*100)/A
(NOT MORE THAN 35% AVARAGE OF ALL GAUGES IN DIFFERENT GAUGES.PASS
THROUGH ELONGATION GAUGES FOR DIFFERENT RETENTIONS
(B).ELONGATION=(B*100)/A (TAKE AVARAGE OF ALL GAUGES IN DIFFERENT
GAUGES.
-
CUBE TESTINGIS:516 PARA 2,3,5 & IS:1199 PARA 4 (IS:9013 FOR
ACT)3 DAYS 50%, 7 DAYS 70%, 28 DAYS 100% STRENGTHCUBE STRENGTH IN
N/mm2 IS LOAD IN 'N' AT WHICH THE CUBE FAILS DIVIDED BY AREA OF
CUBE IN mm2.DEVIATION OF ANY CUBE BY >15% OF AVERAGE VALUE DONT
CONSIDER THE CUBEIN CASE OF ACT R28=(Ra*1.64)+8.09 WHERE R28 IS
EXPECTED STRENGTH AFTER 28 DAYS, Ra IS STRENGTH RECEIVED AFTER 24
HOURS WITH ACT.LOADING RATE = 14 N\mm2 \Minute.FOR ACT: BY BOILING
WATER:: SAMPLE AT 27 +/- 2OC AT 90% HUMIDITY FOR 23 HOURS +/- 15
MINUTES FROM TIME OF ADDING WATER. THEN IN BOILING WATER FOR 3.5
HOURS +/- 5 MINUTES. REMOVE FROM MOULD. IN COOLING TANK AT 27 +/-
2OC. AGE 28 HOURS +/- 20 MINUTES.1Mpa=10Kg/cm2
-
AIR CONTENT TESTIS:1199 PARA 8FILL CONCRETE IN 3 LAYERS EACH
COMPACTED 25 TIMES OR BY VIBRATING. ALSO TAP THE SIDES WITH MALLET.
REMOVE EXCESS CONC. IF ANYASSEMBLE THE APPARATUS TIGHTLY & ADD
WATER TILL HALF WAY IN THE STAND PIPE. TILT WHOLE ASSEMBLY AT 300
& ROTATE TO REMOVE ENTRAPPED AIR IF ANY.FILL WATER TO BRING
LEVEL TO ZERO AT TOP OF PIPE.APPLY PRESSURE 'P'(.8Kg/cm2). TAP.
TAKE READING OF WATER COLUMN IN STAND PIPE i.e. h1. RELEASE AIR
PRESSURE THROUGH VENT AT TOP OF WATER COLUMN & TAKE READING
h2.APPARENT AIR CONTENT IS h1-h2. REPEAT FOR 2nd TIME & TAKE
AVERAGE OF TWO APPARENT AIR CONTENT VALUES, A1AIR CONTENT =A= A1-G,
WHERE G IS AGGREGATE CORRECTION FACTOR (& G IS h1-h2 WHEN THERE
IS COARSE AGGREGATE INSTEAD OF CONCRETE IN THE BOWL.)
-
WORKABILITYIS:1199 PARA 5SLUMP TESTIN 4 EQUAL HEIGHT LAYERS IN
SLUMP CONE EACH LAYER COMPACTED WITH ROD FOR 25 TIMES.IN 1st LAYER
ROD TO GO UPTO FULL DEPTH & IN 2nd, 3rd & 4th LAYERS ROD TO
GO AT LEAST UPTO NEXT LAYER.SLUMP TAKEN AFTER REMOVING CONE.
COMPACTING FACTOR TEST: More accurate but in lab only.
VEE-BEE TEST: Preferred for stiff concrete with low & very
low workability, not so accurate.
-
TRIAL MIXCLEAN THE MIXER WITH WATER & CEMENT
SLURRY(BUTTERING)PUT COARSE AGGREGATE 20MM, THEN 10MM50% OF FINE
AGGREGATE (SAND & STONE DUST ETC)ADD 50% WATER. MIX.ADD 100%
CEMENT, BALANCE SAND & STONE DUSTADD 40% MORE WATER. MIX. ADD
SOME WATER TO ADMIXTURE & ADD TO CONCRETEADD BALANCE WATER TO
ADMIXTURE EMPTIED CYLINDER & ADD TO CONCRETEORPUT COARSE
AGGREGATE 20mm, 10mm, SAND, STONE DUST IN THE MIXER. ROTATE FOR
SOME TIME. ADD 99% WATER. MIX.TAKE CONTROLLED SLUMP. ADD ADMIXTURE.
ADD BALANCE WATER TO EMPTIED JAR OF ADMIXTURE & PUT IN
MIXTURE.MIX FOR 3 MINUTESTAKE SLUMP AFTER 10 MINUTES, 30 MINUTES,
1hr., 1.5 hr., 2hrs.SLUMP SHOULD BE AS PER REQUIREMENTSFILL UP
CUBES
-
PILE TESTING:IS:2911 Pt. 4VERT. LOAD TEST (PARA 6)LATERAL LOAD
TEST (PARA 7)PULL OUT TEST (PARA 8)INITIAL: ONE (TWO WHEN SOIL
STRATA NOT KNOWN)ROUTINE: % (MAY BE INCREASED TO 2%MAY BE ON A
SINGLE OR A GROUP OF PILESGENERALLY TESTED AT C.O.L.
-
VERT. LOAD TEST(COMPRESSION):PILE HEAD CHIPPED TO SOUND CONC.
REINF BENT OR CUT. SMOOTH FINISH BY P.O.P. BEARING PLATE AT TOP OF
PILELOAD APPLICATION: EACH INCREMENT ABOUT 20% OF SAFE DESIGNED
LOADFOR RAKER PILE LOAD ALONG AXISLOAD APPLICATION: (LOAD SHOULD BE
25% EXCESS OF LOAD TO BE APPLIED):(A) KENTLEDGE, (B) ANCHOR PILE
ROCK ANCHORSETTLEMENT:MINIMUM TWO DIAL GAUGES, 4 FOR GROUP OF
PILESDATUM BAR SUPPORT AT 3D(SUBJECT TO A MINIMUM OF 1.5m) FROM
PILE EDGE, WHERE D IS DIA OF CIRCULAR PILE OR DIA OF CIRCUMSCRIBIBG
CIRCLE FOR A RECT OR SQUARE PILESAFE LOAD: FOR INITIAL TEST PILE:
LEAST OF 2/3 OF FINAL LOAD AT WHICH DISPLACEMENT IS 12mm(UNLESS
OTHERWISE MENTIONED IN DESIGN DEPENDING ON NATURE OF SOIL &
STRUCTURE) OR 50% OF FINAL LOAD AT WHICH DISPLACEMENT IS 10% OF DIA
OF PILE(7.5% OF BULB DIA FOR UNDER REAMED PILES.FOR ROUTINE TEST
PILE: TESTED FOR 1.5 TIMES OF WORKING LOAD, THE SETTLEMENT NOT MORE
THAN 12mmFOR GROUP OF PILES FINAL LOAD AT WHICH DISPLACEMENT IS NOT
MORE THAN 25mm(UNLESS OTHERWISE MENTIONED IN DESIGN) OR 2/3 OF
FINAL LOAD AT WHICH DISPLACEMENT IS NOT MORE THAN 40mmIN ROUTINE
LOAD TEST SETTLEMENT SHOULD NOT EXCEED 25mm.
-
LATERAL LOAD TEST:INCREMENT OF ABOUT 20%DISPLACEMENT AT
C.O.L.SAFE LATERAL LOAD: 50% OF FINAL LOAD AT WHICH DEFLECTION IS
12mm OR FINAL LOAD AT WHICH DISPLACEMENT IS 5mm OR AS PER
DESIGN.PULL OUT TEST: LOAD APPLIED BY REINF. OR SPECIALLY DESIGNED
BOLT(S) EMBEDDED IN PILE AT TIME OF CASTINGLOAD INCREMENT ABOUT
20%SAFE LOAD: 2/3 OF FINAL LOAD AT WHICH DEFLECTION IS 12mm OR
FINAL LOAD AT WHICH DISPLACEMENT CURVE SHOWS A BREAKINITIAL LOAD AT
2.5 TIMES OF WORKING LOAD & ROUTINE TEST AT 1.5 TIMES WORKING
LOAD(OR 12mm DEFLECTION WHICHEVER IS EARLIER)
- BENTONITE SOLUTION:IS:2911(Pt. 1/Sec 2 APPENDIX - A, PARA A.3)
LIQUID LIMIT 300-450%SAND CONTENT
-
CEMENT TESTSCONSISTENCY OF CEMENT (VICAT APPARATUS) IS:4031
Pt.4CEMENT 500gm + 24% WATER. MIX PASTE.IN MOULD. SHAKE MOULD.USE
PLUNGER. FREE FALLING FROM TOP OF MOULD.READING SHOULD BE 5-7mm
i.e. 33-35mm PENETRATION.IF NOT TRY 25%, 26%TILL READING IS 5-7mm
i.e. 33-35mm PENETRATION. THIS IS P THE CONSISTENCY OF CEMENT i.e.
0.24, 0.25.etc.
-
INITIAL & FINAL SETTING TIME:IS:4031 Pt.5CEMENT 500gm +
WATER(Px0.85x500). MIX PASTE. THIS IS STARTING TIME.IN MOULD.
SHAKE. USE 1mm NEEDLE. FREE FALLING OF NEEDLE FROM TOP OF
MOULD.TAKE READING. READING SHOULD BE 5-7mm i.e. 33-35mm
PENETRATION.IF NOT WAIT FOR 10 MINUTES. FREE FALLING OF NEEDLE FROM
TOP OF MOULD. REPEAT TILL READING IS 33-35mm. THIS WILL BE THE
INITIAL SETTING TIME(>30 MINUTES)REPLACE NEEDLE WITH ATTACHMENT
FOR F.S.T. WITH A PIN AT END & A CIRCULAR CUTTING EDGETAKE
READING AT INTERVALS TILL THE NEEDLE LEAVES A MARK ON CEMENT TOP
BUT CUTTING EDGE DOES NOT LEAVE A MARK. THIS TIME IS FINAL SETTING
TIME.(< 600 MINUTES)
-
FINENESS OF CEMENT:90 MICRONE SIEVE. 15 MINUTES SHAKING
HORRIZONTAL & VERTICAL BY HAND OR SHAKER.RETENTION NOT MORE
THAN 10%
-
DRYING & SHRINKAGE OF CEMENTIS 4031 Pt10
CONCRETE PERMEABILITY TESTIS:3085 & MOST PARA 1716.5ONE BAR
48 HOURSTHREE BARS 24 HOURSSEVEN BARS 24 HOURS. (TOTAL 96
HOURS)BREAKING CUBE DIAGONALLY. DEPTH OF MOISTURE AT COENERS &
MIDDLE.AVERAGE OF THREE READINGS NOT MORE THAN 25mm.
-
COMPRESSIVE STRENGTH OF CEMENT:IS:4031 Pt.6SAND(IS:650-1960)
555gm. CEMENT 185gmWATER (P/4)+3% OF COMBINED WEIGHT OF CEMENT
& SAND. MIX FOR 3-4 MINUTES.CURE FOR 24 HOURS IN 90% HUMIDITY
AT 27 plus/minus 20C. IMMERSE IN WATER.3 DAYS 160Kg/cm2 . 7 DAYS
220Kg/ cm2
-
SOUNDNESS TEST: IS:4031 Pt.??????UNSOUND DUE TO EXCESSIVE LIME,
MAGNESIA, CALCIUM SULPHATE, GYPSUM(2-3% DEPENDING UPON C3A).CALCIUM
SULPHATE IS USED TO PREVENT FLASH SET.LE-CHATELIER TEST (TESTS FREE
LIME ONLY):ADD 0.78xP WATER. FILL MOULD AND KEEP IT ON GLASS. COVER
WITH ANOTHER GLASS PLATE.IMMERSE ASSEMBLY IN WATER AT 27-32 OC FOR
24 HOURS. MEASURE DISTANCE BETWEEN INDICATOR POINTS.SUBMERGE MOULD
IN BOILING WATER. WATER FOR 3 HOURS. ALLOW TO COOL.MEASURE AGAIN.
EXPANSION SHOULD NOT BE MORE THAN 10mm.MAGNESIA SHOULD NOT BE MORE
THAN 3%. IF MORE, TESTED FOR SOUNDNESS BY AUTOCLAVE TESTNO STANDARD
TEST AVAILABLE FOR UNSOUNDNESS DUE TO CALCIUM SULPHATE
-
HEAT OF HYDRATION:IS:4031 Pt.9REACTION OF CEMENT IS EXOTHERMIC
WITH WATER.120 Cal./gmTEMP. RISE MAY BE UPTO 50% OCCOOLING CREATES
SHRINKAGE & CRACKSTEST BY VACUUM FLASK METHOD OR BY ADIABATIC
CALORIMETER (FOR ONLY LOW HEAT PORTLAND CEMENT)
-
CHEMICAL COMPOSITION OF CEMENT:
OPC & RAPID HARDENINGLOW HEAT PORTLANDPORTLAND BLST FURNACE
SLAGHIGH ALUMINASUPER SULPHATEDINSOLUBLE RESIDUE2%2%2.5%-4%MAGNESIA
(MgO)6%5%8%-10%SULPHUR AS SO32.75%2.75%3%-6%AS SULPHIDE
(S)--2%-1.5%MANGANESE OXIDE MnO2-----LOSS ON IGNITION5%4%4%-5%
-
INHIBITOR SOLUTION:CLEANING OF STEEL BY WIRE BRUSH FOR DUST
& RUSTAPPLY ONE COAT OF CEMENT SLURRY (1 KG CEMENT: 600cc OF
INHIBITOR SOLUTION (PATENT NO. 109784/67)). ALLOW TO DRY FOR 24
HOURS IN SHADE. WATER IS NOT TO BE USED AS INHIBITOR SOLUTION IS
PREPARED IN IONISED WATER.
-
STORAGE OF CEMENT:IS:4082 Pt.4.2BAGSCEMENT OLDER THAN 3 MONTHS
NOT TO BE USED.CEMENT HAVING LUMPS TO BE REJECTED.MINIMUM NO. OF
WINDOWS IN THE STORE. CLOSE FITTING DOORS. KEPT CLOSED. BUILDING
SHOULD BE DRY, LEAKPROOF, MOISTURE PROOF, DAMP PROOF.600mm FROM
WALL.PLANKS OVER WOODEN BATTENS. BATTENS OVER 15mm CC OR BRICKS IN
2 LAYERS. CC/BRICKS OVER 150mm CONSOLIDATED EARTH.STACK WIDTH NOT
MORE THAN 4 BAGS LENGTH.STACKS HEIGHT NOT MORE THAN 10 BAGS(TO
PREVENT LUMPING). IF HEIGHT MORE THAN 8 BAGS, BAGS SHOULD BE
INTERLOCKED.DRUMS:DRUMS ON LEVEL GROUND. NEAR BATCHING PLANTLID
SECURILY TIED AFTER USE TO PREVENT MOISTURESILOS:NEAR BATCHING
PLANTS. PROPER ACCESS TO REPLACE SILOS.DIFFERENT TYPES (GRADES,
WEEK, BATCH) OF CEMENT SEPARATLY.
-
CALIBRATION OF BATCHING PLANTDONE MONTHLYADMIXTURE:QUANTITIES OF
1.0 LTRS, 1.5 LTRS, 2.0 LTRS, 2.5 LTRS, 3.0 LTRS OF ADMIXTURE ARE
DRAWN ONE BY ONE FROM THE BATCHING PLANT & MEASURED ACCURATLY
BY USING GRADUATED BOROSIL GLASS CYLINDERS.WATER:QUANTITY OF 125
LTRS OR 100 LTRS OF WATER IS DRAWN FROM THE BATCHING PLANT &
MEASURED ACCURATLY BY USING CORRECTLY GRADUATED JARS AND
CYLINDERS.CEMENT:IN SOME OF THE BATCHING PLANTS CEMET & WATER
ARE FED JOINTLY. IN SUCH CASES CALIBRATION OF WATER CAN NOT BE
CHECKED SEPARATLY & IS DONE ALONGWITH CEMENT ONLY.WEIGHTS ARE
PUT ONE BY ONE ON THE CEMENT CONTAINER & THE CORRESPONDING
READING AFTER EACH INCREMENT NOTED FROM THE METER. 1ST OF ALL A 50
Kg WEIGHT IS PLACED & ITS CORRESPONDING READING TAKEN.
INCREMENT OF 50 Kg IS REPEATED TILL 250 Kg. AFTER THAT 20 Kg, 20 Kg
& 10 Kg. AFTER REACHING AT 300 Kg UNLOADING IS DONE IN THE SAME
SEQUENCE & CORRESPONDING READINGS AT 290, 270, 250, 200, 150
& 0 Kg WEIGHT ARE TAKEN.
-
AGGREGATE:WEIGHTS ARE PUT ONE BY ONE ON THE AGGREGATE CONTAINER
& THE CORRESPONDING READING AFTER EACH INCREMENT NOTED FROM THE
METER. 1ST OF ALL A 50 Kg WEIGHT IS PLACED & ITS CORRESPONDING
READING TAKEN. INCREMENT OF 50 Kg IS REPEATED TILL 1000 Kg. AFTER
REACHING AT 1000 Kg UNLOADING IS DONE IN THE SAME SEQUENCE &
CORRESPONDING READINGS AT 950, 900, 850,., 250, 200, 150 & 0 Kg
WEIGHT ARE TAKEN.IN CASE WHERE 1000 Kg WEIGHT IS NOT AVAILABLE,
ABOVE EXERCISE IS DONE FOR 500 Kg. THEREAFTER 500 Kg AGGREGATE IS
LOADED & EXERCISE FROM 500 Kg TO 1000 Kg & UNLOADING BACK
TO 500 Kg IS DONE.AVERAGE ERROR FOR EACH OF ABOVE IS CALCULATED
-
SHEATHING TESTS: MOST CHAPTER - 1800AT LEAST THREE SAMPLES FOR
EACH LOT NOT MORE THAN 7000MWORKABILITY:1100mm LONG SAMPLE SOLDERED
TO A FIXED PLATE AT ONE END WITH A SOFT SOLDER. BENT TO A RADIUS OF
1800mm ALTERNATLY ON EITHER SIDE TO COMPLETE THREE CYCLES AS SHOWN
BELOW.SEALING JOINTS INSPECTED TO VERIFY THAT THERE IS NO FAILURE.
81800mm dia
-
TRANSVERSE LOAD RATING TEST:TO ENSURE STIFFNESS OF SHEATHING IS
ENOUGH TO PREVENT PERMANENT DISTORTION.SAMPLE PLACED ON A
HORRIZONTAL SUPPORT OF 500mm LENGTH SUCH AS SAMPLE IS SUPPORTED AT
ALL POINTS OF OUTWARD CORRUGATION.A LOAD APPLIED AS BELOW AT CENTRE
OF THE SUPPORTED PORTION THROUGH A CONTACT SURFACE OF 12mm
LENGTH(LOAD AT CENTRE OF CORRUGATION.LOAD500mm12mm
-
TENSION LOAD TEST:1100mm LONG SAMPLE SOLDERED TO A FIXED PLATE
AT ONE END WITH A SOFT SOLDER. FILLED WITH A WOODEN PIECE HAVING A
DIA OF 95% OF INNER DIA OF SAMPLE. ON THE OTHER END A COUPLER IS
SCREWED. LOAD INCREMENT IN WEIGHT PAN.NO DEFORMATION OF JOINTS. NO
SLIPPING OF COUPLER.COUPLERWEIGHT PAN
-
WATER LOSS TEST:SEALED AT ONE END. FILLED WITH WATER. OUTLET
SEALED. PRESSURE OF 0.05 MPa MAINTAINED FOR 5 MINUTES. LOSS OF HEAD
NOT MORE THAN 1.5%TO MAINTAIN A PRESSURE OF 0.05MPaOUT LET
-
POST TENSIONING:POST TENSIONING SYSTEM IS GENERALLY APPLIED IN
CAST IN SITU COMPONENTS & IN PARABOLIC PROFILING IN BOTH
DIRECTIONS.HT STRANDS ARE CUT BY CUTTING WHEELS TO THE REQUIRED
LENGTHSHEATHING DUCTS OF APPROPRIATE SIZE ARE INSERTED IN
REINFORCEMENT CAGE AND PROFILED AFTER PROVIDING TUBE UNITS AT
ENDSHDPE PIPE OF SMALLER SIZE IS INSERTED IN SHEATHING DUCT TO
PROTECT FROM SLURRY LEAKAGE AND MOVEMENT TO AND FRO IS DONE AND IS
TAKEN OUT AFTER INITIAL SETTING OF CONCRETE.HT STRANDS ARE THREADED
BOTH ENDS ARE CLEANED BY PETROL BEARING PLATES AND WEDGES ARE FIXED
AFTER SERIAL NUMBERING AND WELL CLEANED. WEDGES ARE WASHED ON OUTER
SURFACE.SINGLE PULL/ MULTIPLE JACKS ARE USED AT ACTIVE END. MARKING
ON PASSIVE END TENDONS ARE RECORDED AFTER ATTAINING 80% STRENGTH OF
CONCRETE CUBES FIRST STAGE /FINAL STAGE STRESSING IS DONE.STRESSING
CAN BE DON AT ONE END / BOTH ENDS AS SPECIFIED.INITIALLY SLACKNESS
SHALL BE REMOVED AT ZERO LOAD.
-
ELONGATION OF STRANDS/ CABLES SHALL BE RECORDED AT EVERY
INCREMENT LOAD AT THE RATE OF 20% UP TO 75% OF DESIGNED UTS
LOAD.LOCK THE WEDGES BY SELF-LOCKING DEVICE AVAILABLE IN
PRESTRESSING JACK. RELEASE THE PRESSURE GRADUALLY AND NOTE THE SLIP
AT BOTH ENDS.FILL UP THE STRESSING RECORD AND CHECK AS PER DESIGN
ELONGATION AND UTSTHE MODIFIED ELONGATION SHALL BE CALCULATED AS
PER ACTUAL LENGTH OF TENDON, AREA OF STRAND AND VALUE OF MODULUS OF
ELASTICITY.PROVISION FOR JACK EFFICIENCY SHALL BE ALSO BE
RECORDED.THE ACTUAL FORCE SHALL NOT BE GIVEN LESS THAN DESIGNED
FORCE, 5%-INCREASED LOAD IS PERMISSIBLE LIMIT FOR ACHIEVING
REQUIRED ELONGATION.IF THE ELONGATION HAS NOT BEEN ACHIEVED AFTER
GIVING 1.05% OF DESIGN LOAD THE MATTER SHALL BE FORWARDED TO
ENGINEER IN CHARGE.TRANSFER SLIP SHALL BE CHECKED FOR 24 HRS AND
THE STRANDS SHALL BE CUT BEYOND 40MM OF WEDGESEPOXY COATING SHALL
BE APPLIED ON STRANDS, WEDGES AND BEARING PLATES.
-
GROUTING THE PURPOSE OF GROUTING IS TO KEEP THE TENDONS FREE
FROM RUST AND MAKING HOMOGENEOUS TO CONCRETE COMPONENTS FOR BEARING
LOAD.ALL THE CABLES ARE FIXED WITH GROUT CAP AND WATER IS FILLED
MIXED WITH 1% LIME FOR ABOUT 24HRS BEFORE GROUTING.THE WATER IS
CLEANED BY AIR JETTING AND VALVE NIPPLE RUBBER PRESSURE PIPE. IT IS
CONNECTED THROUGH GROUT HOLE IN BEARING PLATE.RECIPROCATING
POSITIVE DISPLACEMENT GROUT PUMP WITH AGITATOR IS USED FOR MAKING
GROUT BY CEMENT AND WATER CEMENT RATION .4 WITH ADMIXTURE
COMBEX-100 FOR SHRINKAGE FOR 5 MINUTES AND SCREENED BY 1.18 MM IS
SIEVE AND THEN OPERATE THE PUMPING. AS SOON AS THIS GROUT MORTAR IS
SEEN ON THE OTHER END THE VALVE SHALL BE CLOSED AND THE GROUT SHALL
BE CONTINUED TILL PRESSURE IS ACHIEVED FOR 0.7MPA AND MAINTAINED
FOR ONE MINUTE. CLOSE THE ACTIVE END VALVE. RELEASE THE PRESSURE
AND PROCEED FOR NEXT CABLE.GROUT CUBE OF L OR XL SHALL BE FILLED AT
LEAST 12 NOS FOR ONE DAY WORKING.THE GROUT CAP, NOZZLE ETC SHALL BE
TAKEN OUT AFTER INITIAL SET AND TOP PORTION OF GROUT CAP AND GROUT
HOLE SHALL BE FILLED PROPERLY NEXT DAY.
-
PRE TENSIONINGPRE TENSIONING SYSTEM IS APPLIED FOR THE CABLE
ELEMENTS WHERE NOS OF COMPONENTS ARE SUFFICIENT AND SPACE IS
AVAILABLE FOR MAKING BONDS AND THERE IS LITTLE BIT DEVIATION IN
CABLE PROFILING TO HORIZONTAL PLANE.ANCHOR HEAD AT BOTH STRESSING
AND DEAD END ARE MADE FOR RESISTING THE FORCE OF STRANDS DESIGNED
FOR ELEMENTS.SUITABLE NOS OF CASTING BED ARE MADE AND ROLLING
SHUTTERS ARE MADE FOR EASY WORKING. STEAM CURING CAN ALSO BE DONE
FOR FASTENING THE CYCLE.TENDONS ARE THREADED THROUGH REINFORCEMENT
CAGE AND REQUIRED HOPE DEBONDING TUBES ARE PROVIDED WHEREVER
NECESSARY.QUICK RELEASE BARRELS AND WEDGES (MASTER WAGES) ARE FIXED
AFTER CLEANING STRANDS AND WEDGES.INITIAL PULL IS GIVEN FOR
REMOVING SLACKNESS OF STRAND.
-
STRESSING CAN BE DONE BY SIMPLE PULL JACK/HYDRAULICALLY OPERATED
MULTIPULL JACKS UP TO REQUIRED ELONGATION AND FORCE.THE LOAD AND
ELONGATION AND MODIFIED ELONGATION SHALL BE CALCULATED AND APPLIED
AS PER POST-TENSIONED PARA 9 AND 16.THE CONCRETING SHALL BE DONE AS
EARLY AS POSSIBLE AFTER STRESSING.AFTER ACHIEVING 80% STRENGTH OF
DESIGNED MIX, DISTRESSING SHALL BE DONE.DISTRESSING CAN BE DONE FOR
INDIVIDUAL TENDONS FROM BOTH ENDS AND CUTTING WIRE BETWEEN ELEMENT
BEDS, PROVIDING U CLAMPS FOR HOLDING WIRE OR BY MULTI PULL JACK
ARRANGEMENT AT A SINGLE OPERATION SLOWLY.AFTER CHECKING TRANSFER
SLIPS AND DEBONDING TUBE SLACKNESS, CUT DOWN THE STRANDS FROM FACE
OF CONCRETE SURFACE.SEAL THE STRANDS AND DEBONDING TUBE GAP WITH
EPOXY COATING AND MORTAR.
-
SP-24
-
Cement 4.1Rapid Hardening cement More Finely Ground(Strength
same at 28 days)Portland Slag Cement Resistant to Sulphates attacks
& marine environmentPortland Pozzolana cement Less heat of
hydration, Greater resistance to aggressive water. Useful for
marine works & mass construction. May be used as OPC. Some time
fly ash included in manufacture.High strength OPC For PSC etc.
(Increased Tricalcium Silicate)Hydrophobic Cement: -OPC with
certain hydrophobic contents i.e. some acids which make the cement
water repellant & cement can be stored for more longer periods.
Needs longer Mixing.
-
Fly Ash :IS 3812 Physical Chemical Properties for use as
PozzolanaWaterOils 2% by weight of cement may reduce strength by
20% (4.3).Sugar content upto 500 ppm is Ok.Organic material
dangerous, Sea water not good, May cause efflorescence &
rusting. But may be used under water experiment in salt
water.Solids upto 2000 ppm of solids ok.Setting time affected by
sugar, carbonates & bicarbonates of sodium & potassium,
salts of Na, Zn, Cu & Pb. Sodium hydroxide may quick set.For
PCC sea Water upto 35000 PPM of Salt is ok.
-
Admixture Accelerating - Adding Calcium, Flrosilicates &
triatholomineRetarding: Useful in hot weather, Common Type are
starches & cellulose, sugar, hydroxic - Carboxylic acid &
their salts.Water Reducing or Plasticizing :Contain Lignosulphate
salts or Polyhydroxy compounds.Air Entraining admixtures:To
intentionally entrain a controlled quantity of air into the
concrete in form of discrete minutes bubbles. Are generally organic
compounds like animal & Veg Oils, resins, alkali, Salts of
sulphates.
-
POZZOLANAS:Used in four Ways.As Ingredient of Pozzolana
cement.As a Part replacement OPC (While Manufacturing)As a fine
aggregate (While mixing for concrete)As an admixture. (While mixing
for concrete)Generally 20% to 30% for replacement of cement. This
may reduce strength of concrete at early age.Fly ash as Pozzolana
increase workability if used as FINE AGGREGATE As admixture. it
also may decrease bleeding in mix.Pozzolana IS : 3812Burnt clay
PozzolanaIS ; 1344
-
Reinforcement: -IS : 432Plain BarsIS : 1786 High strength
Deformed bars.High strength deformed bar have strength > 40% of
Plain bars.IS: 1786Strength of 250N/mm2 (M.S.), 415 N/mm2 &
500N/mm2 (Cold worked deformed high strength)IS : 1139 Deformed
bars, hot rolled.Hard drawn steel wires IS: 1566.IS: 226 Rolled
steel section.Rust in normal amount increase bond with concrete.IS
: 4082 for storage of Materials.
-
Durability of Concrete (7.1) (Page 3)Absence of Durability may
be due to Internal agencies like harmful alkali aggregates,
sulphates & chlorides in the ingredients, change in Volume
charge in cement & aggregates paste due to their
properties.External agencies like weathering, industrial gases
& liquids, bacterial growth etc.Requirement for Durability:
-Choice of Materials QualityDense & impermeable concreteCover
Design Cracks > 0.3mm1N= 9.81 Kg.M1 = 1N/mm2=1 x 9.81 Kg/mm2=1 x
9.81 x 100kg/cm2=981 x 15 x 15 Kg for cube of 15x15cm=220725
kg=220.725 t M30=6621 tCube
-
AGGREGATES (4.2) Fine < 4.75 mmAggregate Coarse >=
4.75mmZone II is Good, Zone IV only in design mixes. Zone - I not
in lean concrete.Testing AggregatesIS : 2386Should be free from
deleterious materials such as iron, Pyrites, coal, mica, shale,
clay, alkali, soft fragments, sea shells & organic matters (IS:
383).Inadequate washing may leave clay film over fine & coarse
aggregates.For high compressive strength, adopt lower maximum
size.Using Plums? (P-14)Spacing of bars to be based upon nominal
maximum size of aggregate.Batching of FA & CA is essential for
mix.
-
PRESTRESSED CONCRETE (MOST - Chapter-1800)
-
Cement: C3S (Tricalcium Silicate) & C2S (Bicalcium
Silicate)Minimum cement content 400 Kg/cumMax W/C ratio0.40Min.
strength: M35Max nominal size of COARSE AGGREGATE 20mm (10mm less
than cover or clear distance between reinforcements)Prestressing
Steel: IS: 1785(Pt.1 &2), IS: 6003, IS: 6006, IS: 2090Water:
free from oils, acids, alkalis, salts, sugar, organic matters
etc.Prestressing materials: prestressing steel, sheathing,
anchorages, sleeves /couplings (all these to be protected from
rain/ dampness)Tendons:Stored 300 mm above ground in covered and
closed space. Away from high temperature, dampness and humidity. No
heat treatment like welding, galvanizing etc will be done. Stored
in large diameter coils & no kinks, no notches. (5-mm dia wires
2 m dia). Protective wrapping should be chemically neutral.
-
Anchorage components:No mechanically damage, no corrosion, use
correct oil/greases (guaranteed by manufacturer). No C3S
(Tricalcium Silicate ) windows, only one door in room. No humidity
(instrument installed for meaning humidity). Steel used within 3
months of manufacture.Sheathing:Spiral corrugated type. Cold
rolled. Cold ammeaded (CRCA). MS Steel to IS: 513. No quench
hardening or tempering. Bright finish for normal environment.
Thickness not less than 0.3 mm, 0.4 mm, 0.5 mm for ducts internal
diameter 50 mm, 75 mm & 90 mm respectively. 3 samples per lot (
not exceeding 7000m)Workability test:1100 mm long sample soldered
to a fixed plate bent to a radius of 1800 mm alternately or either
side to complete 3 cycles. Sheathing joints should be
o.k.Transverse load rating test:To insure stiffness deformation
should be less than 5 %Tension load test:No deformation of
joint.
-
Water loss test:Water at 5-mpa pressure for 5 minutes. Loss of
head is not more than 1.5 % of volume. Sheathing should perfectly
be manufactured at site for big projects. Joints if unavoidable,
corrugated threaded with coupler should be used to make it slurry
tight. Length of sleeve coupler should at least be 150 mm. Joints
provided with adhesive sealing tape.Anchorage:(BS: 4447) To be
procured for approved manufacturers only. Test certificates of
approved labs not more than 12 months. No damage. Protect from
corrosion. Threads greased. Holes if any, protected. Free from
mortar at all times. Swages bottom heads where provided shall
develop strength of 95% of safe bearing load.
-
Tendons:Shall be free from Rust, Oil, Grease, Tar, Paint, Mud,
etc. Shall be straight on unwinding coils. (If kinks, bends it has
to be rejected). Patching of strands should be removed just before
use. On stands for uncoiling. High capacity tendons to be used to
reduce No of cables thereby eliminating necessity of grouping.Any
two cables horizontal or vertical should not be less than 100 mm.
In case of pre-cast segments it shall be 150 mm.Profile of
sheathing by providing suitable ladders & spacers at about 1.0
m. Sheathing should be tied to ladders or spacers.Profile of
sheathing should not be disturbed during concreting.Tendons if
possible shall be placed just before sheathing. Till than may be
some temporary tendons inserted.Anchorage Devices:Cleaned.To be set
square in the line of action of the Prestressing Tendons
-
Cutting of wire or Strands:Mechanical or flame cutting.In case
of flame cutting other tendons do not come in touch of flame.Flame
must be at least 75 mm from where tendon is gripped by anchorage /
jacks.In Post-tensioning ends of tendons cut after grout has
set.Protection of steel:Done until grouted. The corrosion
protection shall not effect, concrete or bond strength of the
two.Sheathing:Joints should be tight especially at ends where
sheathing must fit on protruding trumpet end of anchorage &
made waterproof by using heat shrink tapes (tape is supplied in
form of bandages rolls that can be used for all diameters. With a
soft flame this bandage material shrinks on sheathing ducts &
makes it waterproof. Sheathing weighing machine can be positioned
at site for large works. Sheathing shall be water tight to prevent
mortar, dust, water etc.
-
Grout Vents:20 mm diameter, at both ends of Sheathing and
valleys & crest along length and not more than 20 mm apart.
Plugged to withstand a pressure of 20 mm.Anchorage's:Cleaned before
concreting and tensioning.Anchor cones, blocks & plates
positioned & maintained such that center line of duct passes
axially through anchorage assembly.Recessed from concrete surface
at least by 100 mm.After Prestressing wires cut, surface painted
with two coats of epoxy of 80 micron finer and entire area filled
with concrete or non Shrink mortar or epoxy concrete.Supervision:In
the presence of representative of supplier of pretensioning system
who shall certify their correctness.
-
Tensioning Equipment:Hydraulic jacks power driven, unless
otherwise approved by the Engineer.Safe.Where more than one wires
constitute a tendon, a single multiple stressing jack shall be
used. Facility for attaching & handling the multiple jack to
the tendons shall be provided.Can apply controlled total force
gradually.Means to directly measure force by dynamometer or gauges.
Also for linear measurement of extension of steel to nearest mm
& any slip of gripping devices at transfer. All meters &
gauges calibrated after every 3 months from approved
Laboratory.Minimum nominal size of gauges 100 mm. Gauges such that
at 75% of breaking load, Gauge reading is between 50-80% of its
full capacity.Pressure gauges can withstand sudden release of
pressure.Master gauge can be attached to be used as a check
wherever desired.
-
Post Tensioning:Done only after concrete attain required
strength or as per stipulated by the prestressing system supplier,
which ever is late.Release of pressure shall be graduated to avoid
shocks to steel or anchorage.Calculated elongation shall be
adjudged w.r.t. modulus of elasticity of steel for particular lot
as given by the manufacturer
-
Important:If calculated elongation is reached before final
pressure, continue till 1.05 times of the calculated elongation. If
still calculated pressure is not reached inform Engineer.If
calculated pressure is reached before calculated elongation,
continue till 1.05 times of the calculated pressure If still
calculated elongation not reached thenCheck correct functioning of
the jack.Determine the cable, slide it in the duct to check for any
blockage in the sheathing. Retention if cable is free.Re-establish
modulus of elasticity from lot.If still the elongation is not
obtained, inform Engineer.Appropriate allowances for any slip at
not jacking end.No. of stages prestressing & grouting shall be
reduced to a minimum, preferably to two in case of simply supported
girders
-
PRE-TENSIONING:Stressing Bed:Notice showing maximum tensioning
from permitted.In long line method, sufficient location plates
should be distributed throughout the bed to ensure proper
positioning of wires. Moulds shall be free to slide in the
direction of their length to permit the transfer of prestressing
force to all the concrete elements along the whole
line.Deflections, which are in contact with tendons, shall have a
diameter not less than tendon subject to a maximum of 15 mm.Desired
force should be available in tendon after anchorage slips etc.Trail
stressing to establish the frictional resistance & slip during
anchoring.Contractor shall submit the calculation showing that the
holding downs have been designed to withstand concentrated loads
resulting from application of prestressing force.
-
Tensioning Procedure:Tensioning of wires/strands not too much in
advance of concreting.Tensioning applied gradually and uniformly.An
initial force to lift wires off the bed floor. This taken into
account while calculating elongation.Tendons marked for elongation
after initial force applied. Marked at both the jacking end &
dead end, also at couplers if used to measure slip and draw in.
Where defected Tendons specified elongation or strain gauges at
various positions along the tendons to determine force in tendons
at those points.
-
Transfer of Prestress:Hydraulic jacks can accomplish process of
Prestress, some mechanical means shall be provided to maintain the
tension during the entire period between tensioning and transfer of
prestressing force to the concrete.Tendons should be released
gradually and perfectly simultaneously.Tendons shall in no case to
be cut while in tension.No eccentricity of prestressing force in
vertical or horizontal directly during releasing the tension.Cubes
should be cured in same environment as the concrete element.Maximum
slip of any tendon during transfer shall not exceed 3 mm.Protection
of ends:Two coats of epoxy tar paint to give a dry film of
80-micron (second layer before drying of first) on tendons (&
concrete within 50 mm of tendons).
-
Safety:Jacks should be secured tightly.No person behind the jack
or close to line of tendons.Safety barrier at both ends to prevent
any tendon that might become loose from recoiling.Warning signs
displayed.No chipping, drilling or cutting of any concrete after
prestressing without approval of the Engineer.No heating or welding
near tendon is permitted, if so the affected tendons to be
rejected.
-
Transfer & storage of PSC units:In upright position points
of support & direction of reaction w. r. t girder approximately
same during transportation & storage.During stacking lateral
movements & instability be avoided by using inclined side
supports all around.Tolerances:Variation from horizontal profile,
vertical profile & specified position of member shall be
limited to 5 mm.Payments:ONLY CONCRETE & STEEL BY WEIGHT,
TENDONS BY WEIGHT SHALL BE PAID.
-
DEFORMED STEEL BARS & WIRES FOR CONCRETE REIFORCEMENTHYSD:
HIGH YIELD STRENGTH DEFORMED BARSTMT: THERMO MECH. TREATED BARS.IS
: 1786Deformed BarsHot Rolled Hot Rolling followed by cold
TwistingFe 415m Fe 500, Fe 550 Min. 0.2% Proof Stress or yield
stress in N/mm2Chemical Composition
-
FOR WELDING IS : 9417RIB AREA ABOVE THE CORE-:0.12 dia for dia
10mm0.15 dia for dia 10mm < 16mm0.17 for > 16mm
Size (mm)681012161820Area
mm228.350.378.6113.1201.2254.6314.3Wt.0.2220.3950.6170.8881.582.002.47
Size (mm)252832364045Area
mm2491.1616.0804.61018.31257.21591.1Wt.3.854.836.317.999.8512.50
-
Gross x-Sectional are in mm2= W/0.00785 LWhere W =Mass in Kg
L=Length in metersTOLERANCESLength + 75 - 25mm (+50 -0 if minimum
length specified)Mass Upto 10mm -(-) 8% +7Over 10 upto 16(-)6%
+5>16(-)4%+3
-
BOND TEST:If surface area is ok it is ok.TEST PIECES:IS
:226TENSILE TEST:IS : 1608 - 1972, IS : 226BEND TEST:No transverse
cracks in bent position REBEND TEST Keep in 1000C Water for 30
Minutes & then cool.
-
CUBE MARKING & NO. OF CUBES TO BE TAKEN:Sequential Transit
mixer numberD - 1/5 RW Pile 30-12-04T4 1/6
-
FOR R.C.C WORKS(IS: 456-2000 Para 15.2 & 15.3) No of Cubes:
- (Generally 6 cubes from each transit mixer)For 1m3 to 5m3 9
cubes
-
1
2
3
4
5
6
7
8
9
10
11
12
6 m3 to 15 m3 12 cubes7 days
28days
ExtraSIMILARLY FOR: - 16 m3 to 30m3 18 cubes including 3 extra
31 m3 to 50 m3 24 cubes including 3 extra 51 m3 to 100 m3 30 cubes
including 3 extra101 m3 to 150 m3 36 cubes including 3 extra151 m3
to 200 m3 42 cubes including 3 extra
-
FOR PSC WORK: -12 cubes
-
AGGREGATES:-IS : 383 - 1970/1993SPECIFICATIONS FOR COARSE
AGGREGATE & FINE AGGREGATE FOR CONCRETE ZONE I,II,III,IV.
COARSER FINERSAMPLING:IS : 2430 - 69IS : 2- 1960(Rounding off
values)FINE AGGREGATE : Passing through 4.75 mm sieve.COARSE
AGGREGATE: Retaining on 4.75 mm sieve.AGGREGATES:Uncrushed from
natural disintegration of Rock.Crushed from Rocks/Gravels/
Stones.Combination of above two.
-
COARESE AGGREGATEShall be hard, strong, dense, durable, clear,
free from veins & adherent coating, free from disintegrated
pieces like Alkali, Organic matter and other deleterious matter. If
possible, flakiness & elongation should be avoided.Deleterious
Materials:Pyrites, Coal, Ignite, Mica, Shale, Clay, Alkali, Soft
fragments, Seashells & Organic impurities.AGGREGATE CRUSHING
VALUE:Not more than 30% for wearing surfaces i.e. Roads, Runways,
Pavements etc.Not more than 45% for others.
-
IMPACT VALUE:Not more than 30% for wearing surfaces i.e. Roads,
Runways, Pavements etc.Not more than 45% for others.ABRASION
VALUE:Not more than 30% for wearing surfaces i.e. Roads, Runways,
Pavements etc.Not more than 50% for others.SOUNDNESS:When exposed
to action of FROST.
-
TABLE-1 :LIMITS OF DELE TERIOUS MATERIALS
DELETA-RIOUS SUBSTA-NCETEST METHODF.A. % BY WEIGHT MAX.C.A. % BY
WEIGHT MAX.UNCRUSHEDCRUSHEDUNCRUSHEDCRUSHEDi)coal &
igniteIs:2386 Pt-II1111Clay lumpsIs:2386 Pt-I1111Material finer
than 75 micronIs:2386 Pt-II31533Soft fragmentsIs:2386
Pt-II--3-shale-1---Total52(except for finer materials)55
-
TABLE-2,3,4,5(GIST) :COARSE AGGREGATESCOMPLETE INFORMATION ABOUT
THE PHYSICAL & CHEMICAL PROPERTIES OF AGGREGATES CAN BE HAD
FROM THE SUPPLIER IN PROPER FORMATS
