concrete mix design.pdf
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Transcript of concrete mix design.pdf
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DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
CEL 774 CONSTRUCTION PRACTISESCONSTRUCTION PRACTISES
Mix design of Concrete: IS method
B. Bhattacharjee
CIVIL ENGINEERING DEPARTMENTIIT DELHI
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General Outline
• The IS 10262 method • Example
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
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IS METHOD
Step 1: f m =f ck + 1.65σ
The standard deviations are:M10-M15: 3.5 MPaM20-M25: 4.0 MPaM30-M50: 5.0 MPa
DETERMINE FROM SITE DATA, 30 CUBES
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
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IS METHOD
Step 2 : selection of w/c from curves
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
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IS METHODStep 2 :
selection of w/c from curves
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
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Step 3: Estimate water content & sand contents for concrete grades up to M35up to M35/ above M35
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
m.s.a (mm) W kg/m3 p=Fagg Vol(%of Total)
10 208 40
35
30
20 186
40 165
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Step 3: Estimate water content & sand contents for concrete grades up to M35/ above M35above M35
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
m.s.a (mm) W kg/m3 p=Fagg vol(%of Total)
10 200 28
2520 180
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Step 3: Estimate water content & sand contents for concrete grades up to M35/ above M35
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
The Tables are for:Crushed CAFine aggregate Zone IIw/c =0.6(up to M35) & 0.35 (>M35)Compaction factor =0.8
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Step 3: Estimate water content & sand contents for concrete grades up to M35/ above M35 (Adjustments)
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
AdjusmentsConditionΔW Δp (%)
Rounded agg -15 -7
Sand ZoneI,III,IV 0 -1.5% /zone (+ for I)
CF(±) 0.1 3%(±) 0±1%w/c (±) 0.05 0
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Step 4: Calculate cement content, Aggregate contents,
w/cw/c*= Min (w/c*= Min (w/ccurvecurve, w/c, w/cdurabilitydurability) ) ..C=Max(W/ w/c*, Cdurability).
IS METHOD
100011
×⎥⎥⎦
⎤
⎢⎢⎣
⎡×++=
Fagg
agg
C SF
pSCWV
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
10001
)1(1
×⎥⎥⎦
⎤
⎢⎢⎣
⎡×
−++=
Cagg
agg
C SC
pSCWV
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V=1-air content
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
m.s.a (mm) Air content (%)
10 3.0
20 2.0
40 1.0
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IS METHOD (Example)M25 concrete
Cement 43 grade Moderate exposureZone III sandCompaction factor 0.920 mm m.s.a rounded aggregate
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
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IS METHOD (Example)
Step 1: f m =f ck + 1.65σσ=4
31.6
TMS
25
Grade
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
4
SD
f m = 32 MPa
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IS METHODStep 2 :
selection of w/c from curves
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
w/c =0.43
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IS requirements (RCC)IS requirements (RCC)
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
Exposure Min C Max w/c Min Grade
Mild 300 0.55
0.500.450.450.40
M 20
Moderate 300 M 25Severe 320 M 30Very severe 340 M 35Extreme 360 M40
Step 2: w/c*=0.43,
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Step 3: Estimate water content & sand contents for concrete grades up to M35up to M35/ above M35
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
m.s.a (mm) W kg/m3 p=Fagg(%ofTotal)
10 208 40
35
30
20 186
40 165
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Step 3: Adjustments ΔW=(0.9-0.8)/0.1×0.03*186-15=-9.2 kg/m3
Δ p (%)=-1.5+(0.43-0.6)×0.01/0.05-7=-11.9
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
AdjusmentsCondition
ΔW Δp (%)
Rounded agg -15 -7
Sand ZoneI,III,IV 0 -1.5% /zone(+ for I)
CF(±) 0.1 3%(±) 0±1%w/c (±) 0.05 0
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Step 4: w/cw/c*= Min (0.43, 0.50)=0.43 .*= Min (0.43, 0.50)=0.43 . W=186-9.2≈177kg/m3
C=Max(177/ 0.43, 300). =411.6≈412 kg/m3
IS METHOD
10001
7.2231.01
15.3412177)02.01( ×⎥
⎦
⎤⎢⎣
⎡×++=− aggF
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
10001
6.2)231.01(1
15.341217798.0 ×⎥
⎦
⎤⎢⎣
⎡×
−++= aggC
p= 35p= 35--11.9=23.111.9=23.1FFaggagg=419.25 kg/m=419.25 kg/m33
CCaggagg= 1344.0kg/m= 1344.0kg/m33
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W=186-9.2≈177kg/m3
C=Max(177/ 0.43, 300). =411.6≈412 kg/m3
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
FFaggagg=419.25 kg/m=419.25 kg/m33
CCaggagg= 1344.0kg/m= 1344.0kg/m33
Total= 2352 kg/mTotal= 2352 kg/m33
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Actual water to be added =177-water (present –absorption) in aggregate in kg/m3
Actual quantity of aggregate in the mix shall be Aggregate content + extra due to (moisture content- absorption)
IS METHOD
B. Bhattacharjee
DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
Trial mix and final adjustment
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DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
SummaryIS method
Example
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DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI
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