design of pri sub division,tanuku

ANALAYSIS & DESIGN

Repairs&Additional accomodation to PRI Sub division at Tanuku

Est.Cost.Rs.12.00 lakhs

Design Parametres:-

Concrete mix : M20

Steel : Fe415

Cover to Reinforcement : 40mm

Characteristic compressive strength of concrete = 20N/sqmm

Yield strength of steel = 415N/sqmm

Item

Piles(10,14,1

5)

Piles(1,2,3,4,5,

6,7,8,9,11,12,13

,16)

Max.Load 'P' in KN 678.0066667 444.1066667

Dia.of pile proposed in 'mm' 500 375

No.of Under Reams proposed 2 2

Dia.of under reamed in 'm' 1.25 0.94

Depth of the pile proposed in 'm' 5.00 3.75

Bearing capacity of the pile in KN 771.75 441

Main Reinforcement 9-12mm 5-12mm

Stirrups 8mm@300 c/c 8mm@300 c/c

(Note:-The above design is as per clause B-1.5 of IS 2911(PartIII)-1973 duly increasing the bearing

resistence by 25% for stiff clays with N>8)

CHECK FOR PILES

(Note:-The above design is as per clause B-1.5 of IS 2911(PartIII)-1973 duly increasing the bearing

CHECK FOR PILES

Design Parametres:-

Concrete mix :

Steel :

Cover to Reinforcement :

Characteristic compressive strength of concrete =

Yield strength of steel =

Item

Distance from node at start(Node 52) 0.00m

Width of beam 'b' in 'm' 0.23

Depth of beam 'D' in 'm' 0.41

Dia.of bars assumed 16mm

Bending Moment Mu in KN-m 75.5

Shear force Vu in KN 77.5

Torsional Moment 'T' in KN-m 1.57

Equivalent bending moment Mt in KN-m 2.57

Design Moment Me1 in KN-m 78.07

Effective depth for balanced section in 'mm' 350.69

Effective depth provided 'd' in 'mm' 377

Actual depth of neutral axis 'xu' in 'mm' 150.174233

Maximum depth of neutral axis 'xumax' in

'mm'

180.96

Singly Reinforced or Doubly reinforced Singly

reinforced

Area of steel required Ast in 'mm2' 688.79

Main Steel provided 2-12mm+2-

16mm

Side face reinforcement required in mm2 on

each face

0

Side face reinforcement provided on

each face

Nil

Side face reinforcement provided in mm2

on each face

0

Total Area of steel provided in 'mm2' 628.00

Percentage of steel provided pt 0.72

Equivalent shear force Ve in KN 88.42

Equivalent shear stress tve in N/sqmm 1.02

Max.shear strength of section tcmax in

N/sqmm

2.8

Design shear strength of section tc in

N/sqmm

0.55

Shear force Vus for which stirrups required

in KN

40.7295

Dia of Vertical two legged stirrups

assumed

8mm

Area of two legged vertical stirrups Asv in

mm2

100.48

Spacing required S v in mm 307.59

CHECK FOR GF&FF ROOF BEAMS

All roof beams except beam 55---63---95

At Top

Design Bond stress tbd in N/sqmm 1.92

Development length Ld in mm 752.19

(M1/V)+Lo 1296.126

Note:-Considering moment distribution etc.,the reinforcement provided is safe.

Design Parametres:-

Concrete mix :

Steel :




Item





Bending Moment Mu in KN-m 92









'mm'

180.96

Singly Reinforced or Doubly reinforced Doubly

reinforced

Area of steel required Ast in 'mm2'

Main Steel provided


each face


each face


on each face

Total Area of steel provided in 'mm2'

Percentage of steel provided pt

Equivalent shear force Ve in KN

Equivalent shear stress tve in N/sqmm


N/sqmm


N/sqmm


Beam 55--63---95(Including cantilever projection)

At Top


in KN


assumed


mm2

Spacing required S v in mm

Design Bond stress tbd in N/sqmm

Development length Ld in mm

(M1/V)+Lo

Design Parametres:-

Concrete mix : M20

Steel : Fe415




Item

Cantilever





Bending Moment Mu in KN-m 92






'mm'

180

Mu.lim without compression steel in KN-m 89.25

Area of tension steel required Ast1 in 'mm2' 825.64

Strain esc in compression steel 0.00301

Stress fsc in compression steel

corresponding to above strain

355.04

Area of compression steel required Asc in

'mm2'

133.02

Additional area of tension steel required

Ast2 in 'mm2'

130.81

Total area of tension steel (Ast1+Ast2) in

mm2

956.45

Tension Steel provided 2-20mm+2-

16mm

Compression Steel provided 2-12mm

DESIGN OF BEAMS

Beam Description


each face

0


each face

1-10mm


on each face

0

Area of tension steel provided in 'mm2' 1029.92

Area of compression steel provided in

'mm2'

226.08





N/sqmm

2.8


N/sqmm

0.66


in KN

67.345


assumed

8mm


mm2

100.48




(M1/V)+Lo 890.82

M20

Fe415

25mm

20N/sqmm

415N/sqmm

1.14m

0.23

0.41

16mm

33.4

39

1.57

2.57

35.97

238.04

377

61.8815105

180.96

Singly

reinforced

283.83

2-12mm+2-

16mm0

Nil

0

628.00

0.72

49.92

0.58

2.8

0.55

2.2295

8mm

100.48

495.76


All roof beams except beam 55---63---95

At bottom

1.92

752.19

2322.203

M20

Fe415

25mm

20N/sqmm

415N/sqmm

Max

0.23

0.41

16mm

40.8

38

2.12

3.47

44.27

264.08

377

77.6225492

180.96

Singly

reinforced

356.03

2-16mm+2-

16mm

crank

0

Nil

0

803.84

0.93

52.75

0.61

2.8

0.61


Beam 55--63---95(Including cantilever projection)

At Top At bottom

-0.1431

8mm

100.48

443.7

1.92

752.19

2712.905

DESIGN OF BEAMS

Beam Description

Design Parametres:-

Concrete mix :

Steel :




Item







Torsional Moment 'T' in KN-m 2







'mm'

180.96


reinforced



12mm


each face

0


each face

Nil


on each face

0






N/sqmm

2.8


N/sqmm

0.46


in KN

12.6234


assumed

8mm

DESIGN OF 2nd FLOOR ROOF BEAMS

All L- Beams

At Top


mm2

100.48




(M1/V)+Lo 1475.331

Design Parametres:-

Concrete mix :

Steel :




Item







Torsional Moment 'T' in KN-m 2







'mm'

180.96


reinforced



16mm

crank


each face

0


each face

Nil


on each face

0



All T-Beams including cantilever projections

At Top





N/sqmm

2.8


N/sqmm

0.61


in KN

20.5169


assumed

8mm


mm2

100.48




(M1/V)+Lo 1816.126

M20

Fe415

25mm

20N/sqmm

415N/sqmm

1.14m

0.23

0.41

16mm

21.4

20

2

3.27

24.67

197.14

377

41.4274864

180.96

Singly

reinforced

190.01

2-10mm+2-

12mm

0

Nil

0

383.08

0.44

33.91

0.39

2.8

0.46

-5.9766

8mm


All L- Beams

At bottom

100.48

617.96

1.92

752.19

2156.349

M20

Fe415

25mm

20N/sqmm

415N/sqmm

Max

0.23

0.41

16mm

18.4

30

2

3.27

21.67

184.76

377

36.167495

180.96

Singly

reinforced

165.89

2-16mm+2-

16mm

crank

0

Nil

0

803.84


All T-Beams including cantilever projections

At Top At bottom

0.93

43.91

0.51

2.8

0.61

-8.9831

8mm

100.48

515.8

1.92

752.19

3358.433

Design Parametres:-

Unit weight of RCC = 25KN/cum

Concrete mix : M20

Steel : Fe415




Item

S1

Length of slab panel ly in m 4.12

Width of slab panel lx in m 4.03

ly/lx 1.02

Overall depth required in mm 112

Width of slab panel considered 'b' in

'm'

1.00

Depth provided 'D' in 'm' 0.11


Dead load in KN/sqm 2.75

Live load in KN/sqm 1.50

Floor finishes in KN/sqm 0.80

Total Load in KN/sqm 5.05

Short span(-) moment at continuous

edge

4.67

Short span(+) moment at mid span 3.53

Long span(-) moment at continuous

edge

3.53

Long span(+) moment at mid span 4.92

Design Moment Me1(-)ve in KN-m 7.01

Effective depth for balanced section in

'mm'

50.41


Actual depth of neutral axis 'xu' in

'mm'

12.88

Maximum depth of neutral axis 'xumax'

in 'mm'

38.88


Main Steel provided at continuous

edge

8mm@200

mm c/c

Area of steel provided in mm2 251.2

Design Moment Me1(+)ve in KN-m 5.29


'mm'

43.78


'mm'

9.54


in 'mm'

38.88


DESIGN OF TWO WAY SLAB:-

Slab panel Description

Main Steel provided at mid span

8mm@200

mm c/c


Design Moment Me1(-)ve in KN-m(Long

span)

5.29


'mm'

43.78


'mm'

9.54


in 'mm'

38.88


Dist. Steel provided at continuous

edge

8mm@220

mm c/c


Dist.steel at mid span

8mm@220

mm c/c

DESIGN OF TWO WAY SLAB:-

Slab panel Description

Design Parametres:-

Concrete mix : M20

Steel : Fe415

Cover to Reinforcement d' : 40mm




Item

Member in STADD Analysis 89 90 91 92 113 114

Axial load Pu (KN) 408.17 289.34 175.77 54.65 666.17 481.6

Moment about 'y' axis My(KN-

m)

22.76 12.1 10.73 7.03 24.61 11.06

Moment about 'z' axis Mz(KN-

m)

13.55 9.66 11.12 9.98 0.07 0.49

Eccentricity about 'y' axis in

'mm'

55.76 41.82 61.05 128.64 36.94 22.97

Eccentricity about 'z' axis in

'mm'

33.2 33.39 63.26 182.62 0.11 1.02


m) for Min.Eccentricity

22.76 12.1 10.73 7.03 24.61 11.06



13.55 9.66 11.12 9.98 13.32 9.63

Un supported length about 'y'

axis in 'm'

1.65 3.85 3.25 3.25 1.65 3.85

Un supported length about 'z'

axis in 'mm'

1.65 3.85 3.25 3.25 1.65 3.85

Depth about 'y' axis in 'm' 0.23 0.23 0.23 0.23 0.23 0.23

Depth about 'z' axis in 'm' 0.3 0.3 0.3 0.3 0.3 0.3

Effective length about 'y' axis

ley in 'm'

1.485 3.465 2.925 2.925 1.485 3.465

Effective length about 'z' axis

lez in 'm'

1.485 3.465 2.925 2.925 1.485 3.465

Slenderness ratio about 'y'

axis

6.46 15.07 12.72 12.72 6.46 15.07

Slenderness ratio about 'z'

axis

4.95 11.55 9.75 9.75 4.95 11.55

Percentage of steel 'p' 1.82 1.82 1.82 1.82 1.82 1.82

Moment due to slenderness

about 'y' axis May in KN-m

0 7.55 3.27 1.02 0 12.57


about 'z' axis Maz in KN-m

0 0 0 0 0 0

Design moment Muy in KN-m 22.76 19.65 14 8.05 24.61 23.63

Design moment Muz in KN-m 13.55 9.66 11.12 9.98 13.32 9.63

d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.13 0.13 0.13 0.13 0.13 0.13

CHECK FOR COLUMNS

Rear end column Rear column No.7

Pu/fckbD 0.296 0.21 0.127 0.04 0.483 0.349

p/fck 0.091 0.091 0.091 0.091 0.091 0.091

Muy1/fckbd2 from SP-16 0.115 0.12 0.13 0.11 0.09 0.115

Muz1/fckbd2 from SP-16 0.105 0.11 0.12 0.1 0.08 0.105

Max.moment carrying

capacity for uniaxial bending

about 'y' axis Muy1

36.5 38.09 41.26 34.91 28.57 36.5

Max.moment carrying


about 'z' axis Muz1

43.47 45.54 49.68 41.4 33.12 43.47

Max.axial load capacity Puz 1000.57 1000.57 1000.57 1000.57 1000.57 1000.57

Pu/Puz 0.41 0.29 0.18 0.05 0.67 0.48

an 1.35 1.15 1.00 1.00 1.78 1.47

(Muy/Muy1)an

+ (Muz/Muz1)an 0.74 0.64 0.56 0.47 0.96 0.64

Area of steel Required in mm2 1255.80 1255.80 1255.80 1255.80 1255.80 1255.80

Spacing of 8mm ties in 'mm' 190 190 190 190 190 190

Reinforcement provided 4-16+ 4-12 4-16+ 4-12 4-16+ 4-12 4-16+ 4-12 4-16+ 4-12 4-16+ 4-12

Area of steel provideded in

mm2

1256.00 1256.00 1256.00 1256.00 1256.00 1256.00

Design Parametres:-

Concrete mix : M20

Steel : Fe415





Item


Axial load Pu (KN) 624.44 512.89 315.43 116.86 1017.01 842.69


m)

21 15.48 11.47 8.22 21.79 11.67


m)

13.44 11.36 17.71 16.92 0.32 0.39


'mm'

33.63 30.18 36.36 70.34 21.43 13.85


'mm'

21.52 22.15 56.15 144.79 0.31 0.46



21 15.48 11.47 8.22 21.79 16.85



13.44 11.36 17.71 16.92 20.34 16.85


axis in 'm'

1.65 3.85 3.25 3.25 1.65 3.85

CHECK FOR COLUMNS

Front end column Front column Nos.10,14,15


axis in 'mm'

1.65 3.85 3.25 3.25 1.65 3.85




ley in 'm'

1.485 3.465 2.925 2.925 1.485 3.465


lez in 'm'

1.485 3.465 2.925 2.925 1.485 3.465


axis

6.46 15.07 12.72 12.72 6.46 15.07


axis

4.95 11.55 9.75 9.75 4.95 11.55




0 13.39 5.87 2.17 0 21.99



0 0 0 0 0 0

Design moment Muy in KN-m 21 28.87 17.34 10.39 21.79 38.84


d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.13 0.13 0.13 0.13 0.13 0.13

Pu/fckbD 0.452 0.372 0.229 0.085 0.737 0.611

p/fck 0.091 0.091 0.091 0.091 0.1495 0.1495

Muy1/fckbd2 from SP-16 0.09 0.115 0.12 0.11 0.07 0.12

Muz1/fckbd2 from SP-16 0.08 0.105 0.11 0.1 0.07 0.11

Max.moment carrying


about 'y' axis Muy1

28.57 36.5 38.09 34.91 22.22 38.09

Max.moment carrying


about 'z' axis Muz1

33.12 43.47 45.54 41.4 28.98 45.54


Pu/Puz 0.62 0.51 0.32 0.12 0.82 0.68

an 1.70 1.52 1.20 1.00 2.03 1.80

(Muy/Muy1)an

+ (Muz/Muz1)an 0.81 0.83 0.71 0.71 1.45 1.2



Reinforcement provided 4-16+ 4-12 4-16+ 4-12 4-16+ 4-12 4-16+ 4-12 4-20+4-16 4-20+4-16


mm2

1256.00 1256.00 1256.00 1256.00 2059.84 2059.84

Note:-Considering uni axial moment only for the columns 10,14, 15,the reinforcement provided is safe

Design Parametres:-

Concrete mix : M20

Steel : Fe415





Item


Axial load Pu (KN) 372.58 242.83 244.16 244.16 148.25 46.85


m)

7.1 10.6 15 15 13.12 13.04


m)

1.07 0.89 8.53 8.53 6.69 6.3


'mm'

19.06 43.65 61.44 61.44 88.5 278.34


'mm'

2.87 3.67 34.94 34.94 45.13 134.47



7.45 10.6 15 15 13.12 13.04



7.45 4.86 8.53 8.53 6.69 6.3


axis in 'm'

1.65 3.51 3.2 1.65 3.51 3.2


axis in 'mm'

1.65 3.51 3.2 1.65 3.51 3.2




ley in 'm'

1.32 2.808 2.56 1.32 2.808 2.56

DESIGN OF COLUMNS

Column 4 Column 5


lez in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


axis

5.74 12.21 11.13 5.74 12.21 11.13


axis

4.4 9.36 8.53 4.4 9.36 8.53




0 4.16 0 0 2.54 0



0 0 0 0 0 0

Design moment Muy in KN-m 7.45 14.76 15 15 15.66 13.04


d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.13 0.13 0.13 0.13 0.13 0.13

Pu/fckbD 0.27 0.176 0.177 0.177 0.107 0.034

p/fck 0.058 0.058 0.058 0.058 0.058 0.058

Muy1/fckbd2 from SP-16 0.09 0.09 0.08 0.09 0.085 0.08

Muz1/fckbd2 from SP-16 0.095 0.095 0.09 0.095 0.09 0.085

Max.moment carrying


about 'y' axis Muy1

28.57 28.57 25.39 28.57 26.98 25.39

Max.moment carrying


about 'z' axis Muz1

39.33 39.33 37.26 39.33 37.26 35.19


Pu/Puz 0.43 0.28 0.28 0.28 0.17 0.05

an 1.38 1.13 1.13 1.13 1.00 1.00

(Muy/Muy1)an

+ (Muz/Muz1)an 0.26 0.57 0.74 0.66 0.76 0.69



Reinforcement provided 4-16 4-16 4-16 4-16 4-16 4-16


mm2

803.84 803.84 803.84 803.84 803.84 803.84

Design Parametres:-

Concrete mix : M20

Steel : Fe415





Item

DESIGN OF COLUMNS

Column 7 Column 8


Axial load Pu (KN) 438.14 328.2 125.17 359.56 292.77 109.43


m)

1.26 2.62 3.43 6.35 3.62 2.53


m)

3.7 4.83 5.64 2.93 2.03 2.23


'mm'

2.88 7.98 27.4 17.66 12.36 23.12


'mm'

8.44 14.72 45.06 8.15 6.93 20.38



8.76 6.56 3.43 7.19 5.86 2.53



8.76 6.56 5.64 7.19 5.86 2.23


axis in 'm'

1.65 3.51 3.2 1.65 3.51 3.2


axis in 'mm'

1.65 3.51 3.2 1.65 3.51 3.2




ley in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


lez in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


axis

5.74 12.21 11.13 5.74 12.21 11.13


axis

4.4 9.36 8.53 4.4 9.36 8.53




0 5.63 0 0 5.02 0



0 0 0 0 0 0

Design moment Muy in KN-m 8.76 12.19 3.43 7.19 10.88 2.53


d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.13 0.13 0.13 0.13 0.13 0.13

Pu/fckbD 0.317 0.238 0.091 0.261 0.212 0.079

p/fck 0.058 0.058 0.058 0.058 0.058 0.058

Muy1/fckbd2 from SP-16 0.08 0.085 0.08 0.09 0.09 0.08

Muz1/fckbd2 from SP-16 0.085 0.09 0.085 0.095 0.095 0.09

Max.moment carrying


about 'y' axis Muy1

25.39 26.98 25.39 28.57 28.57 25.39

Max.moment carrying


about 'z' axis Muz1

35.19 37.26 35.19 39.33 39.33 37.26


Pu/Puz 0.51 0.38 0.15 0.42 0.34 0.13

an 1.52 1.30 1.00 1.37 1.23 1.00

(Muy/Muy1)an

+ (Muz/Muz1)an 0.32 0.46 0.3 0.25 0.4 0.16





mm2

803.84 803.84 803.84 803.84 803.84 803.84

Design Parametres:-

Concrete mix : M20

Steel : Fe415





Item


Axial load Pu (KN) 334.02 225.97 69.07 254.66 151.88 47.46


m)

3.24 3.07 2.76 11.1 9.44 9.44


m)

0.65 2.65 5.29 13.88 10.76 10.82


'mm'

9.7 13.59 39.96 43.59 62.15 198.9


'mm'

1.95 11.73 76.59 54.5 70.85 227.98



6.68 4.52 2.76 11.1 9.44 9.44



6.68 4.52 5.29 13.88 10.76 10.82


axis in 'm'

1.65 3.51 3.2 1.65 3.51 3.2


axis in 'mm'

1.65 3.51 3.2 1.65 3.51 3.2




ley in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


lez in 'm'

1.32 2.808 2.56 1.32 2.808 2.56

DESIGN OF COLUMNS

Column 10 Column 11


axis

5.74 12.21 11.13 5.74 12.21 11.13


axis

4.4 9.36 8.53 4.4 9.36 8.53




0 3.87 0 0 2.6 0



0 0 0 0 0 0



d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.13 0.13 0.13 0.13 0.13 0.13

Pu/fckbD 0.242 0.164 0.05 0.185 0.11 0.034

p/fck 0.058 0.058 0.058 0.058 0.058 0.058

Muy1/fckbd2 from SP-16 0.09 0.09 0.08 0.09 0.085 0.08

Muz1/fckbd2 from SP-16 0.095 0.095 0.09 0.095 0.09 0.085

Max.moment carrying


about 'y' axis Muy1

28.57 28.57 25.39 28.57 26.98 25.39

Max.moment carrying


about 'z' axis Muz1

39.33 39.33 37.26 39.33 37.26 35.19


Pu/Puz 0.39 0.26 0.08 0.3 0.18 0.05

an 1.32 1.10 1.00 1.17 1.00 1.00

(Muy/Muy1)an

+ (Muz/Muz1)an 0.24 0.35 0.25 0.63 0.74 0.68





mm2

803.84 803.84 803.84 803.84 803.84 803.84

Design Parametres:-

Concrete mix : M20

Steel : Fe415





Item

DESIGN OF COLUMNS

Column 13 Column 14


Axial load Pu (KN) 345.83 229.63 83.41 378.58 251.89 80.8


m)

7.18 5.21 6.72 5.14 6.64 8.08


m)

8.28 5.57 4.14 1.58 1.97 2.12


'mm'

20.76 22.69 80.57 13.58 26.36 100


'mm'

23.94 24.26 49.63 4.17 7.82 26.24



7.18 5.21 6.72 7.57 6.64 8.08



8.28 5.57 4.14 7.57 5.04 2.12


axis in 'm'

1.65 3.51 3.2 1.65 3.51 3.2


axis in 'mm'

1.65 3.51 3.2 1.65 3.51 3.2




ley in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


lez in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


axis

5.74 12.21 11.13 5.74 12.21 11.13


axis

4.4 9.36 8.53 4.4 9.36 8.53




0 3.94 0 0 4.32 0



0 0 0 0 0 0



d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.13 0.13 0.13 0.13 0.13 0.13

Pu/fckbD 0.251 0.166 0.06 0.274 0.183 0.059

p/fck 0.058 0.058 0.058 0.058 0.058 0.058

Muy1/fckbd2 from SP-16 0.09 0.09 0.08 0.09 0.085 0.08

Muz1/fckbd2 from SP-16 0.095 0.095 0.09 0.095 0.09 0.085

Max.moment carrying


about 'y' axis Muy1

28.57 28.57 25.39 28.57 26.98 25.39

Max.moment carrying


about 'z' axis Muz1

39.33 39.33 37.26 39.33 37.26 35.19


Pu/Puz 0.4 0.27 0.1 0.44 0.29 0.09

an 1.33 1.12 1.00 1.40 1.15 1.00

(Muy/Muy1)an

+ (Muz/Muz1)an 0.28 0.39 0.38 0.26 0.46 0.38





mm2

803.84 803.84 803.84 803.84 803.84 803.84

Design Parametres:-

Concrete mix : M20

Steel : Fe415





Item


Axial load Pu (KN) 66.62 53.54 26.36 112.8 91.87 43.12


m)

0.78 1.85 2.88 0.28 0.96 2.36


m)

0.16 0.365 1.24 0.26 0.78 1.22


'mm'

11.71 34.55 109.26 2.48 10.45 54.73


'mm'

2.4 6.82 47.04 2.3 8.49 28.29



1.33 1.85 2.88 2.26 1.84 2.36



1.33 1.07 1.24 2.26 1.84 1.22


axis in 'm'

1.65 3.51 3.2 1.65 3.51 3.2


axis in 'mm'

1.65 3.51 3.2 1.65 3.51 3.2




ley in 'm'

1.32 2.808 2.56 1.32 2.808 2.56

DESIGN OF COLUMNS

Column 16 Column 17


lez in 'm'

1.32 2.808 2.56 1.32 2.808 2.56


axis

5.74 12.21 11.13 5.74 12.21 11.13


axis

5.74 12.21 11.13 5.74 12.21 11.13




0 0.92 0 0 1.57 0



0 0.92 0 0 1.57 0



d'/D about 'y' axis 0.17 0.17 0.17 0.17 0.17 0.17

d'/D about 'z' axis 0.17 0.17 0.17 0.17 0.17 0.17

Pu/fckbD 0.063 0.051 0.025 0.107 0.087 0.041

p/fck 0.0425 0.0425 0.0425 0.0425 0.0425 0.0425

Muy1/fckbd2 from SP-16 0.065 0.065 0.065 0.065 0.065 0.065

Muz1/fckbd2 from SP-16 0.065 0.065 0.065 0.065 0.065 0.065

Max.moment carrying


about 'y' axis Muy1

15.82 15.82 15.82 15.82 15.82 15.82

Max.moment carrying


about 'z' axis Muz1

15.82 15.82 15.82 15.82 15.82 15.82


Pu/Puz 0.11 0.09 0.04 0.18 0.15 0.07

an 1.00 1.00 1.00 1.00 1.00 1.00

(Muy/Muy1)an

+ (Muz/Muz1)an 0.17 0.3 0.26 0.29 0.43 0.23





mm2

452.16 452.16 452.16 452.16 452.16 452.16

115 116

283.71 94.79

6.99 3.48

0.51 0.87

24.64 36.71

1.8 9.18

6.99 3.48

5.67 1.9

3.25 3.25

3.25 3.25

0.23 0.23

0.3 0.3

2.925 2.925

2.925 2.925

12.72 12.72

9.75 9.75

1.82 1.82

5.28 1.76

0 0

12.27 5.24

5.67 1.9

0.17 0.17

0.13 0.13

CHECK FOR COLUMNS

Rear column No.7

0.206 0.069

0.091 0.091

0.12 0.12

0.11 0.11

38.09 38.09

45.54 45.54

1000.57 1000.57

0.28 0.09

1.13 1.00

0.37 0.18

1255.80 1255.80

190 190

4-16+ 4-12 4-16+ 4-12

1256.00 1256.00

147 148

515.89 191.25

1.41 6.87

0.02 1.13

2.73 35.92

0.04 5.91

10.32 6.87

10.32 3.83

3.25 3.25

CHECK FOR COLUMNS

Front column Nos.10,14,15

3.25 3.25

0.23 0.23

0.3 0.3

2.925 2.925

2.925 2.925

12.72 12.72

9.75 9.75

2.99 2.99

9.6 3.56

0 0

19.92 10.43

10.32 3.83

0.17 0.17

0.13 0.13

0.374 0.139

0.1495 0.1495

0.16 0.175

0.15 0.165

50.78 55.55

62.1 68.31

1244.57 1244.57

0.41 0.15

1.35 1.00

0.37 0.24

2063.10 2063.10

190 190

4-20+4-16 4-20+4-16

2059.84 2059.84

Note:-Considering uni axial moment only for the columns 10,14, 15,the reinforcement provided is safe

30 75 117

396.63 263.65 85.65

3.14 3.03 3.27

7.41 8.67 10.46

7.92 11.49 38.18

18.68 32.88 122.12

7.93 5.27 3.27

7.93 8.67 10.46

1.65 3.51 3.2

1.65 3.51 3.2

0.23 0.23 0.23

0.3 0.3 0.3

1.32 2.808 2.56

DESIGN OF COLUMNS

Column 6

1.32 2.808 2.56

5.74 12.21 11.13

4.4 9.36 8.53

1.16 1.16 1.16

0 4.52 0

3.88 3.89

0 0 0

2.74 3.58

7.93 9.79 3.27

3.58 3.05

7.93 8.67 10.46

3.28

0.17 0.17 0.17 13.48 10.52

0.13 0.13 0.13

0.287 0.191 0.062

0.058 0.058 0.058

0.09 0.09 0.07

0.095 0.095 0.075

28.57 28.57 22.22

39.33 39.33 31.05

862.92 862.92 862.92

0.46 0.31 0.1

1.43 1.18 1.00

0.26 0.45 0.48

800.40 800.40 800.40

190 190 190

4-16 4-16 4-16

803.84 803.84 803.84

DESIGN OF COLUMNS

Column 9

33 78 120

408.23 332.94 131.11

1.17 2.502 3.08

5.69 3.09 1.85

2.87 7.51 23.49

13.94 9.28 14.11

8.16 6.66 3.08

8.16 6.66 2.62

1.65 3.51 3.2

1.65 3.51 3.2

0.23 0.23 0.23

0.3 0.3 0.3

1.32 2.808 2.56

1.32 2.808 2.56

5.74 12.21 11.13

4.4 9.36 8.53

1.16 1.16 1.16

0 5.71 0

0 0 0

8.16 12.37 3.08

8.16 6.66 2.62

0.17 0.17 0.17

0.13 0.13 0.13

0.296 0.241 0.095

0.058 0.058 0.058

0.08 0.085 0.08

0.085 0.09 0.085

25.39 26.98 25.39

35.19 37.26 35.19

862.92 862.92 862.92

0.47 0.39 0.15

1.45 1.32 1.00

0.31 0.46 0.2

800.40 800.40 800.40

190 190 190

4-16 4-16 4-16

803.84 803.84 803.84

36 81 123

337.41 250.43 93.84

4.55 3.67 8.21

10.95 6.51 5.09

13.49 14.65 87.49

32.45 26 54.24

6.75 5.01 8.21

10.95 6.51 5.09

1.65 3.51 3.2

1.65 3.51 3.2

0.23 0.23 0.23

0.3 0.3 0.3

1.32 2.808 2.56

1.32 2.808 2.56

DESIGN OF COLUMNS

Column 12

5.74 12.21 11.13

4.4 9.36 8.53

1.16 1.16 1.16

0 4.29 0

0 0 0

6.75 9.3 8.21

10.95 6.51 5.09

0.17 0.17 0.17

0.13 0.13 0.13

0.245 0.181 0.068

0.058 0.058 0.058

0.09 0.09 0.08

0.095 0.095 0.09

28.57 28.57 25.39

39.33 39.33 37.26

862.92 862.92 862.92

0.39 0.29 0.11

1.32 1.15 1.00

0.34 0.4 0.46

800.40 800.40 800.40

190 190 190

4-16 4-16 4-16

803.84 803.84 803.84

DESIGN OF COLUMNS

Column 15

33 78 120

220.96 140.59 41.89

11.02 8.93 9.14

8.52 6.45 6.09

49.87 63.52 218.19

38.56 45.88 145.38

11.02 8.93 9.14

8.52 6.45 6.09

1.65 3.51 3.2

1.65 3.51 3.2

0.23 0.23 0.23

0.3 0.3 0.3

1.32 2.808 2.56

1.32 2.808 2.56

5.74 12.21 11.13

4.4 9.36 8.53

1.16 1.16 1.16

0 2.41 0

0 0 0

11.02 11.34 9.14

8.52 6.45 6.09

0.17 0.17 0.17

0.13 0.13 0.13

0.16 0.102 0.03

0.058 0.058 0.058

0.09 0.09 0.07

0.095 0.095 0.075

28.57 28.57 22.22

39.33 39.33 31.05

862.92 862.92 862.92

0.26 0.16 0.05

1.10 1.00 1.00

0.54 0.56 0.61

800.40 800.40 800.40

190 190 190

4-16 4-16 4-16

803.84 803.84 803.84

42 131 132

81.25 68.66 27.47

1.02 2.25 3.66

1.65 2.42 3.32

12.55 32.77 133.24

20.31 35.25 120.86

1.63 2.25 3.66

1.65 2.42 3.32

1.65 3.51 3.2

1.65 3.51 3.2

0.23 0.23 0.23

0.23 0.23 0.23

1.32 2.808 2.56

DESIGN OF COLUMNS

Column 18

1.32 2.808 2.56

5.74 12.21 11.13

5.74 12.21 11.13

0.85 0.85 0.85

0 1.18 0

0 1.18 0

1.63 3.43 3.66

1.65 3.6 3.32

0.17 0.17 0.17

0.17 0.17 0.17

0.077 0.065 0.026

0.0425 0.0425 0.0425

0.065 0.065 0.065

0.065 0.065 0.065

15.82 15.82 15.82

15.82 15.82 15.82

612.01 612.01 612.01

0.13 0.11 0.04 0.15

1.00 1.00 1.00 -0.115

0.21 0.44 0.44

449.65 449.65 449.65

190 190 190

4-12 4-12 4-12

452.16 452.16 452.16

design of pri sub division,tanuku

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