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Session 2016-17

at all centre of MADE EASY

Beam Design

Beam Data

width depth clear coer to main

200 mm 600 mm 15 mm

d' eff depth

31 mm 569 mm

Mud2 xumax Mulim Mulimd2

2.36 273 179 2.76

.= cc+ sdia + mdia/2 .= d - d'

Material Grades

Concrete Steel

20 MPa 415 MPa

Moment

153 KN-m

.= (700/(1100 * (0.87 * fy)) * d .= 0.36*fck*b*xumax*(d-(0.42*xumax))

Beam i dei!ned a Sin!l" #einforced Beam Area of Steel

$enion %&t

Compr %&c

(ercenta!e &rea of Steel

).7*2 +

,,,,,,,

Rf! "ab# 2 $% 16 & 48

*9) -mm

ension !einfor"ement

$"pe /a"er 1 /a"er 2 /a"er 3

Bar dia

o

16 mm 20 mm 20 mm

2 2 2

&rea of Steel 0)2 -mm 62* -mm 62* -mm

S$a"ing

1)) cc

Steel Calculation rade Chec8 7.1 S#B a  c ,p &t

).75 ,3.611 2.363 ).7*2 *9)

.=(0.8743/100) * (fy/fck)2 .=(0.87/100) * (fy) .=u/bd 2 .=-(b±√(b2-4ac))/2a .=(&*b*d)/100

).)505 ).1

4#B a  c ,p &tlim

).75 ,3.611 2.762 ).955 1)*7

Mu2 &t2 &t

,26 ,133 950

.=u - u#im .=u2/((0.87*fy)*(d-d')) .=s#im+s2

d'd fc fcc

).1) 353 * 92

Rf! "ab#  $% 16 & 13 .=0.466*fck

.=(0.8743/100) * (fy/fck)2 .=(0.87/100) * (fy) .=u#im/bd 2 .=-(b±√(b2-4ac))/2a .=(&*b*d)/100

Sla Design

Sla thic8ne t Concrete Steel

125 mm 2) M(a 015 M(a

fc8 f"

Sun8en 4epth

oading

Sla /oad 4ead /oad /ie /oad ;inihe /oad $otal /oad ;actored /oad

Sla 4ata Sla $"pe /oad /on!er Span %l" Shorter Span %lx

4/ // =/ = =u

#e!ular 11 m *.2) m 0.)) m

3.125 m 3.))) m 1.))) m 7.125 m 11 m

Sun8en Sla /oad 4/ 4ead /oad ;/ ;iller /oad // /ie /oad ;inihe /oad =/ =8 $otal /oad ;actored /oad =8u

l"lx ratio Sla t"pe

2.)5

-

325 mm

Design Calculations 3.125 m 5 m 3.) m 1.) m 11.70 m 1* m

ON !A" a  cx ,px &t

Min Ast

).75 ,3.611 1.939 ).616 607

+ $%&2

.=(0.8743/100) * (fy/fck) .=(0.87/100) * (fy) .=u/bd 2 .=-(b±√(b2-4ac))/2a .=(&*b*d)/100

2

#!O !A" a ).75  ,3.611 c" ).))) ,p" ).))) &t )

mm2 &'$ nter$olation

l"lx lower alue ) ))

?x upper alue ) ))

exact alue 2 )5

lower alue >&

?" upper alue >&

interptn. alue >&

) )6

.=(0.8743/100) * (fy/fck) 2 .=(0.87/100) * (fy) .=u/bd 2 .=-(b±√(b2-4ac))/2a .=(&*b*d)/100

g 0 * ' 4 / ) & *

1 1.1

).)6 ).)6

1.2 13

).)7 ) )*

#ol)mn Design 4ei!n /oad /oad Moment

(u Mu

Column 4ata width depth len!th

 d l

rade Concrete Steel

fc8 f"

(u%fc8d Mu%fc8d2 d'd

2.5) ).)1 ).)5

2)))  2) ,m 2)) mm 2)) mm 3.)) meter 2) M(a 015 M(a

#efer Chart 31 of S( 16@ (a!e noA 116

Minimum eccentricit" ex 1.27 mm  e" 1.27 mm 

5))

).)5 ).1 ).15 ).2

Chart 35 Chart 36 Chart 37 Chart 3*

25) 015 5))

Chart 27 Chart 31 Chart 35

Chart o. Chart 31

(a!e o 116

12) 121 122 123

A# G!78P A!#9#S 'P* td: &rchitect  Conultin!
" 2 7.2m ## aim >. ?&a!i 18-$&-200

Sla thic8ne

t fc8 f"

15) mm 2) M(a 015 M(a

4/ // / =/ = =u

3.75 m 2.)) m 7.2) m 1.)) m 13.95 m 21 m

Concrete Steel

oading

Sla /oad 4ead /oad /ie /oad arden /oad =ater (roofin! /oad $otal /oad ;actored /oad

4ei!n  #einforcement 4etail of Sla Sla 4ata Sl.o

Sl. Dd

/on!er /oad Span $hic8ne =u  =8u l"

Shorter Span lx

l"lx

1

Sun8

15) mm

21 

5.2) m

5.)) m

1.)0

2

#e!ular

15) mm

21 

5.2) m

2.5) m

2.)*

3

#e!ular

15) mm

21 

6.5) m

5.*) m

1.12

3&

#e!ular

15) mm

21 

2.)) m

1.1) m

1.*2

3B

#e!ular

15) mm

21 

5.3) m

0.3) m

1.23

0

#e!ular

15) mm

21 

35.)) m

2.6) m

13.06

5

#e!ular

15) mm

21 

9.2) m

0.1) m

2.20

6

#e!ular

15) mm

21 

9.2) m

0.)) m

2.3)

7

#e!ular

15) mm

21 

*.)) m

3.2) m

2.5)

e p " t  a l S

1 1 1 1 -

S$a"ing re)ired in mm

/oadin! on ed!e =lon!er

=horter

36 KNm

35 KNm

Moment Mx

$hic8ne Chec8

My

&rea of Steel

*>

1)>

Astx

Asty

x

"

 06 s mm

6 " "

 1 " "

x

S$a"ing $ro,ided in mm ""

12> "

x

"

31 ,m 29 ,m



 53 s mm

16 ,m



32 smm

135 ""

06 ,m 0) ,m



1231 s mm 1005 s mm

41 ""

3 ,m



1/0 smm

1/0 smm

2; "" 2; "" 436 "" 436 "" 62/ "" 62/ ""

29 ,m 22 ,m



6;1 smm

504 smm

3 "" 100 "" 114 "" 156 "" 164 "" 224 ""

2 KNm

1* ,m



404 smm

124 ""

1;4 ""

2/0 ""

43 KNm

00 ,m



1154 smm

44 ""

6/ ""

;/ ""

42 KNm

02 ,m



10/3 smm

46 ""

3 ""

104 ""

34 KNm

27 ,m



63/ smm

; ""

123 ""

1 ""

26 KNm 45 KNm

41 KNm

1 0 K N m

/ KN m

35 KNm

30 KNm

1 ,m

1 04 " " 1 11 " " 1 50 " " 1 60 " " 211 ""

50 ""

64 " "

304 "" / ""

;2 "" 113 ""

x

"

e p " t  a l S

1 1 1 1 -

e m a   a l S

& g 0 * ' 4 / ) * 2 e l b a #

ON !A" a



#!O !A"

,px

&t

c"

,p"

).)6

1.1 1.2 1.3 1.0 1.5 1.75 2

).)6 ).)7 ).)* ).)9 ).)9 ).1 ).11

nter$olation

Min Ast cx

1

&t +

mm2

?x

l"lx

?"

lower alue pper alueexact aluelower alue pper alueintpt. alue

Mulim

uli/b32xuax/3 xuax Mux/b3 2 Muy/b32





m

).75

,3.611

1.*39

).579

753

1.70)

).503

7)6

$%&2

&$

1.))

1.1)

1.)0

).)6

).)6

).)59

).)6

07 ,m

2.76

$%4

2

1.*0

1.70



2%&-$4

).75

,3.611

).971

).2*6

372

).)))

).)))

)

$%&2

&$

).))

).))

2.)*

>&

>&

>&

).)6

07 ,m

2.76

$%4

2

).97

).))



2%&-$4

).75

,3.611

2.700

).907

1231

2.301

).773

1))5

$%&2

&$

1.1)

1.2)

1.12

).)6

).)7

).)66

).)6

07 ,m

2.76

$%4

2

2.70

2.30



2%&-$4

).75

,3.611

).153

).)03

56

).)*0

).)23

3)

$%&2

&$

1.75

2.))

1.*2

).1

).11

).1)2

).)6

07 ,m

2.76

$%4

2

).15

).)*



2%&-$4

).75

,3.611

1.7)7

).532

691

1.2*7

).3**

5)0

$%&2

&$

1.2)

1.3)

1.23

).)7

).)*

).)70

).)6

07 ,m

2.76

$%4

2

1.71

1.29



2%&-$4

).75

,3.611

1.)5)

).311

0)0

).)))

).)))

)

$%&2

&$

).))

).))

13.06

>&

>&

>&

).)6

07 ,m

2.76

$%4

2

1.)5

).))



2%&-$4

).75

,3.611

2.611

).**7

1150

).)))

).)))

)

$%&2

&$

).))

).))

2.20

>&

>&

>&

).)6

07 ,m

2.76

$%4

2

2.61

).))



2%&-$4

).75

,3.611

2.0*5

).*33

1)*3

).)))

).)))

)

$%&2

&$

).))

).))

2.3)

>&

>&

>&

).)6

07 ,m

2.76

$%4

2

2.09

).))



2%&-$4

).75

,3.611

1.591

).091

63*

).)))

).)))

)

$%&2

&$

).))

).))

2.5)

>&

>&

>&

).)6

07 ,m

2.76

$%4

2

1.59

).))



2%&-$4

De,l

+&%. &%.$ ..%& $%.$ +4%+& &% &2%2 &&%&+ 4%'

Project Date

NCC 18-Sep-09

Grid &loor Anal.sis < Design

/en!th of eam umer of eam Spacin! of ri 4epth of eam =idth of eam =idth of flan!e $hic8ne of flan!e rade of Concrete rade of Steel

x direction /x E 10.)) meter x E 6 no a1 E 2.)) meter 4 E 9)) mm w E 2)) mm f E 2))) mm 4f E 15) mm f c8 E 2) M(a f " E 015 M(a

Modula of
< E2.2
Data

" direction /" E 10.)) meter " E 6 no 1 E 2.)) meter

f 4f 4

w a1

oads

/ie /oad ;loor ;inih ther

3.))  1.))  ).)) 

oading #al")lation

w E 735.))  $otal wei!ht of la wx E 37*.))  $otal wei!ht of eam in x direction w" E 305.6)  $otal wei!ht of eam in " direction wll E 5**.))  $otal wei!ht of /ie load wff E 196.))  $otal wei!ht of ;loor ;inih wol E ther load wFwxFw"FwllFwff Fwol E 2202.6)  $otal /oad $otal /oad-m - E 11.00 -m $otal ;actored /oad-m G E 1:16 KNsm

/"

Design Parameters

#atio 4f 4 E ).167 f w E 1).))) Moment of Dnertia < = (k x *b5 *@3 )/12

8x E 2.3 D E 2.79<,)2

!f! a! 88 ,f $% 16 & 21

1

/x

5.2 7.2 9.2 11.2 12.0 ) 1.2 3.2 5.2 7.2 9.2 11.2 12 0

) ) ) ) ) 1.2 1.2 1.2 1.2 1.2 1.2 1.2 12

) ) ) ) ) ) 15 36 5) 55 0* 32 19

) ) ) ) ) ) 15 36 5) 55 0* 32 19

3 ) ,3 ,5 ,6 6 6 5 3 ) ,3 ,5 6

) ) ) ) ) 13 12 1) 5 ,1 ,6 ,1) 12

00 0* 02 2* 17 ) 12 3) 02 06 0) 27 16

).92 1.)) ).** ).59 ).35 ).)) ).27 ).66 ).92 1.)) ).** ).59 )3

).39 ,).)0 ,).07 ,).*1 ,).90 1.)) ).96 ).75 ).39 ,).)0 ,).07 ,).*1 ) 90

).)) ).)) ).)) ).)) ).)) ).27 ).27 ).27 ).27 ).27 ).27 ).27 )2

1.)) 1.)) 1.)) 1.)) 1.)) ).96 ).96 ).96 ).96 ).96 ).96 ).96 ) 96

Proje Footi Date Footi

DPS Indoor Sports F7 18-Sep-09 F2

Stair"ase Design

Data

5.)) mm 15) mm 3)) mm 15) mm 15 mm 135 mm

%!,dd ai $#H

Area of Distri)tion Steel

&t

1/0 smm

S$a"ing @iam! ,f ba! $&aci ac!,ss y %!,idd @is!idui, $#H

*K 279 cc

1)K 036 cc

Seimic one Seimic Dntenit"

"ab# 2 <$ 183 2002 & 16

N

DD ).1

Dmportance factor

D

1.5

"ab# 6 <$ 183 2002 & 18

#epone #eduction ;actor

#

3

"ab# 7 <$ 183 2002 & 23

/ateral 4imenion of Buildin! Hei!ht of the of Buildin!

d h

65.6 5).0

meter meter

;undamental atural (eriod

with ric8 infill $a ).56)

$"pe of Soil

Medium Soil

Spectral &cceleration Coefficient

Sa!

).)))

4ei!n HoriNontal Seimic Coefficient &h

)

Seimic =ei!ht of Buildin!

=

6*))30



4ei!n Seimic Bae Shear

:B

)



Project DPS Indoor Sports Footing No. F7 Date 18-Sep-09 Footing No. F2

1

&ooting SiCe Design

/oad 1 /oad 2 Comine load 4ei!n /oad

(u1 (u2 (cu (c

2)))  1*5)  3*5)  2*23 

Moment in x dir Moment in " dir

Mux Mu"

0) ,m 0) ,m

cc dit w col in x dir cc dit w col in " dir

2.725 meter ).))) meter

2

Beam Design

$otal /oad ;actored /oad 1.691 meter

= =u

151 m2 725 m2 2.725 meter

1.5*0 meter

3.2) meter

6.)) meter

725 m2

1.69 meter

2.73 meter

1.5* meter

3

Sla Design

et upward preure

up l

151 m2 1.3) meter

Bendin! Moment ;actored Moment

M Mu

12* ,m 191 ,m

Concrete Steel

fc8 f"

2) M(a 015 M(a

dmin

260

4 c d' d'

600 mm

Minimum 4epth #e-uired 4epth (roided Clear Coer
12> 112 cc

/=5id ,f f,,i f!,m c,# fac =Iu&*# 2 /2 1.*s

d=s9!(s/Rumax*1000*b)

5) mm 56 mm 500 mm Spacin! cc in mm 16> 19* cc

12 mm dia  100 mm "" / mm dia  15 mm ""

2)> 31) cc 1131 smm 2/ smm

5 6.)) meter

3.2) meter

6)) mm

1.7 meter

2.73 meter

1.6 meter

6)) mm 6 , 25 mm dia 6 , 2) mm dia m m )

6 , 25 mm dia 6 , 25 mm dia

width Mulimd2 2.76

1))) mm Mulim *17 ,m

xumaxd ).0*

xumax 261

S#B a  c ,p &t

).7529 ,3.61)5 ).6069 ).1*60 1)10

Min teel + &t

).2)5 1)10

Min Steel Max Steel

653 2176)

#umax ).13*

Section Chec8 7.1

4ei!n f Dolated ;ootin!

Project Footing No. Date Footing No.

1

DPS Indoor Sports F7 18-Sep-09 F2

&ooting SiCe Design

/oad 4ei!n /oad

(u (

15))  11)) 

Moment in x dir Moment in " dir

Mux Mu"

3) ,m 3) ,m

Column iNe

cx c"

05) mm 05) mm

SBC

-

15) -m

& re-

7.33 -mm

/

3:30 meters

;ootin! SiNe re-uired

3) of 69

4ei!n f Dolated ;ootin! &t acro x direction &t acro " direction

16 mm dia  125 mm "" 16 mm dia  125 mm ""

31 of 69 160/ smm 160/ smm

4ei!n f Dolated ;ootin! 3

7ne Ea. S%ear along  dire"tion

:u1 O

009  ).316 M(a

Oc :c1

).317 M(a 051 

ne =a" Shear Chec8  0

7ne Ea. S%ear along . dire"tion

:u1 O

2*0  ).105 M(a

Oc :c1

).26) M(a 5)* 

ne =a" Shear Chec8  5

>o Ea. S%ear

:u2 O

1536  ).622 M(a

8LOc :c1

1.11* M(a 2759 

$wo =a" Shear Chec8 

32 of 69


33 of 69

/E 3.3) meter

05)

BE 2.0) meter

) 5 0

m


30 of 69

&t

1111

(t proided

).1*76 12.376



4ei!n f Dolated ;ootin! &t (t proided



71) ).12)) 19.352

35 of 69

4ei!n f Dolated ;ootin! 8 trial 8

1.5 1

8 trial 8

36 of 69 1.5 1


37 of 69

Dimensions of Dome

4iameter Hei!ht $hic8ne

dE hE tE

126)) mm 3))) mm 15) mm

#adiu of Sphere r E

*115 mm 5).93 ) to 5).93

56 76

m ) ) . 3 E h

d E 12.6) m

oading

4ead /oad /ie /oad =ind /oad $otal /oad ;actored /oad

4/ E // E =/ E =E =u E

3.75 m ).1) m ).1) m 3.95 m 5.93 m

Meridional Stre

5).93

r E *.12 m m .) ) 5 * 1 1 r E

Hoop Stre 7

Mt

7

Mt

5).93 05.)) 0).)) 35.)) 3).)) 25.)) 2).)) 15.)) 5.)) ).))

0:1; MPa 0:1// MPa 0:1/2 MPa 0:16 MPa 0:12 MPa 0:16/ MPa 0:165 MPa 0:163 MPa 0:161 MPa 0:160 MPa

5).93 05.)) 0).)) 35.)) 3).)) 25.)) 2).)) 15.)) 5.)) ).))

0:003 MPa 0:025 MPa 0:041 MPa 0:055 MPa 0:06 MPa 0:0 MPa 0:0/6 MPa 0:0;3 MPa 0:100 MPa 0:101 MPa

).2 ).19 ).1* ).1* ).17 ).17 ).17 ).16 ).16 ).16

) ).)2 ).)0 ).)5 ).)7 ).)* ).)9 ).)9 ).1 ).1

A# G!78P A!#9#S 'P* td: &rchitect  Conultin!
 B-?#,ck 18-$&-200 aim >. ?&a!i

4ei!n  #einforcement 4etail of Column Sl rid Col o. o. o

Col Col t"pe Shape

/oad

Moment

Column 4ata

rade

ei!n(aramenter

4ei!n Contant

&t #e-

(u%fc8dl Mu%fc8dl2 d'd

#emar8  than min &

1

,

,

C1

#

15) ) 

3 ) , m

3) , m 2) ) mm 7 5) mm

50 mm

5) mm 3.6) m 2) M(a 015 M(a

0:50

0:01

0:1

).)2

0 :4 0F

6 00 s  mm

&inal Ast !e)ired

&rea of Steel $"pe 1

$"pe 2

$otal #einf (roided

. 1200 smm

Chec8

l $ro,ided N7 7K

0 12 mm

452 smm

2 12 mm 226 smm

6

6; smm

;i!

19.7 m2 Dimensions of Dome

4iameter Hei!ht

dE hE

126)) mm 5))) mm

#adiu of Sphere

rE

6069 mm 76.*7 ) to 76.*7

56 76

oading

4ead /oad /ie /oad ther /oad $otal /oad ;actored /oad

:ertical #eaction HoriNontal #eaction

4/ E // E / E =E =u E

3.)) m ).1) m 1).)) m 13 m 2) m

:& E :B E H& E HB E

123.*  230.) 

7

m ) ) . 5 E h

d E 12.6) m r E 6.07 m

76.*7

m .) ) 9 6 6 0 r E

S

)

6

1

A# G!78P A!#9#S 'P* td:

&rchitect  Conultin!
aa ikas "!!ac #,,! aim >. ?&a!i 18-$&-200

Beam A

CB11

Dimensions of !ing Beam

#adiu o of upport

#onstants

rE nE

6:30 mts / nos

76 5 6

23 de! 9 12

C1 E C2 E C3 E

).)7 ).)3 ).)1

=u E

10 KNm

oading

).3927 radian ).165* radian

o of upport 0 5 6 7 * 9 1) 12

27 de!ree 9) 72 6) 51 37 05 0) 36 3)

C1 ).10 ).11 ).)9 ).)* ).)7 ).)6 ).)5 ).)5

Co,efficient C2 C3 ).)7 ).)2 ).)5 ).)1 ).)5 ).)1 ).)0 ).)1 ).)3 ).)1 ).)3 ).)0 ).)2 ) ).)2 )

Qm 19 10 15 10 12 30 1) 30 9 12 * 12 7 10 6 10

& Moment Bottom $op

/oad x,dir

27)) ",dir 29 137

) 6 Col $"pe

#ectan!ular Column %reinf. on 2 ide x,dir

Jnupported /en!th Col SiNe d'4 d' Concrete Steel

",dir *25) *25) 2)) 9)) ).)5 ).2) 0) 2) 015

4



<

).*) from DS Code ).9) manual Calculation
ex e" Moment due to ecc

06.5 23.2 Mux Mu"

125.55 62.55

Mux1 Mu"1

6*) 1)*

MuxMux1 Mu"Mu"1

).1* ).*0

(u(uN

).95

αn

2.))

%MuxMux1?n F %Mu"Mu"1 ?n

).75

(roided Steel i  1 + of lon!itudinal #einforceme

1.))

Steel proided i 

(roect A Bloc8 A 4ate A 4ei!ner A Column A

@#i %ub#ic $c,,# <d,,! $&,!s ?#,ck 18-$&-200 aim >. ?&a!i 6a

Design Loads

(u E 20))  Mux E 192 ,m Mu" E 517 ,m Co Data

E 4E d' E d'4 E d' E

6)) mm 75) mm 0).) mm ).1) ).1)

!ateria "rades

fc8 E 2) M(a f" E 015 M(a Design Constants

Steel + pt E 1.2 ptfc8 E ).)6

#st $ %&00 s'(( !in #st $ )*00 s'((

Simpl" upported eam with J4/ = 3) m l 5.6) m

/oad /en!th
Simpl" upported eam with (oint /oad 1) m 5.)) m

22)))))) M(a

22)))))) M(a

).2) m ).05 m 126.02 m 9).3) m

).2) m ).6) m 0).63 m 32.5) m

).))15 mm0

).))36 mm0

11:5 mm

0:3 mm

5=l 3*0
=l 30*
0

Cantileer eam with J4/ 10)) m 3.*) m

Cantileer eam with (oint /oad 1) m 5.)) m

22)))))) M(a

22)))))) M(a

1.5) m 1.1) m 26)1.06 m 273*.3* m

).2) m ).6) m 0).63 m 32.5) m

).1660 mm0

).))36 mm0

10:0 mm

5:3 mm

=l *
=l 33
0

125 mm Span

Moment Mud2 %m

&t %mm2

15) mm Spacin!


&t %mm2

12> P 203 cc 3

16

1.05

065

1.)1

3*6

2

669

1.36

2.50

*99

).75

16> P 220 cc

1.)0

2.25

956

369 16> P 506 cc 12> P 269 cc

26

).*

021 16> P 079 cc

12> P 1*1 cc 1.33

620

16> P 27* cc 3*

).59

16> P 05) cc 32

12> P 2)2 cc 30

1.)5

559

16> P 322 cc

16> P 36) cc

12> P 137 cc 01

1.71

*20

16> P 21) cc

12> P 153 cc 00

1.36

701

16> P 200 cc

16> P 271 cc

12> P 1)9 cc 5

5)

2.)*

1)39

12> P 121 cc 50

1.67

931

16> P 190 cc

16> P 216 cc

12> P *5 cc 5.5

61

2.50

1327

Spacin! 12> P 3)6 cc

19

007

12> P 11* cc 0.5

&t %mm2

12> P 253 cc 25

723


16> P 597 cc

12> P 156 cc 1.7*

Spacin!

337

16> P 375 cc 3)

2)) mm

12> P 336 cc 1*

536

12> P 126 cc 2*

&t %mm2

12> P 211 cc 23

16> P 3)1 cc 0


16> P 521 cc

12> P 169 cc 22

Spacin! 12> P 293 cc

17 16> P 032 cc

3.5

175 mm

12> P 9* cc 65

2.)1

1155

16> P 152 cc

16> P 170 cc 12> P *) cc

6

77

2.3*

101* 16> P 102 cc

Span

15) mm

175 mm

2)) mm

12  2;3 "" 12  336 "" 12  306 ""

3 16  521 "" 16  5; "" 16  546 "" 12  211 "" 12  253 "" 12  26; ""

3.5 16  35 "" 16  450 "" 16  4; "" 12  156 "" 12  1/1 "" 12  202 ""

0 16  2/ "" 16  322 "" 16  360 "" 12  11/ "" 12  13 "" 12  153 ""

0.5 16  210 "" 16  244 "" 16  21 "" 12  10; "" 12  121 ""

5 16  1;4 "" 16  216 "" 12  /5 ""

12  ;/ ""

5.5 16  152 "" 16  14 ""

DSGN 7& !ANNG EA 1

2

Preliminar. Data

i Hei!ht of #= ii Soil 4enit" iii SBC

?s

i &n!le of repoe

:

 Surchar!e &n!le

;

i Coefficient of friction ii Surchar!e /oad

=

3.)) meter 1* cum 25) -m 3) de!ree ).520 radian ) de!ree ).))) radian ).5 0 -m

Ca

).333

Cp

3.))

h -o

<

Press)re #oeffi"ients

&ctie (reure Coefficient i E%coU,%co2U,co2RLcoU  %coUF%co2U, co2R (aie (reure Coefficient ii E %1FSinR  %1FSinR 3

Preliminar. Dimensions

(ropoed , ).20 meter 1.61 meter 2.)9 meter

t t E ).)* L %h F h / E 1.5 L %Ca3 L %h F h / E ).6h to ).65h

i $hic8ne of Stem ii $hic8ne of footin! ae la /en!th of ae la iii or i
2.)) meter

h E =T H E hFh

).22 meter 3.22 meter

hi E %/,tL tan; Hi E hFhi

).)) meter 3.)) meter

iii 4ei!n Hei!ht of #= conidered H E Max of H1  H2

4

&dopted ).2) meter ).3) meter

3.22 meter

Stailit. against 7,ert)rning

i &ctie preure due Surchar!e /oad ii &ctie preure due Bac8fill /oad iii $otal /oad on tem

MoE %(a1 L h2 F%% (a2LCoUL h3

i erturnin! Moment



(a1 E CaL=Lh (a2 E CaLTLh2  2 (a E (a1 F (a2

oad

e,er arm from end of stem

0  27  31  33 KNm

Moment



Eor=ing Stress Met%od Design #onstants

2) M(a 015 M(a

i rade of concrete ii rade of teel iii i  i ii iii

Compr tre in concrete $enile tre in teel Modular ratio eutral axi depth factor /eer arm ;actor

c t m E 2*)3c 8Emc%mcFt  E 1 , 83 #E c8  2

7.) 23) 13.33 ).2*9 ).9)0 ).913

Design i Stem

a

&or"e

i ;orce due to urchar!e ii 4orce due to ac8fill

e,er arm from ottom of stem

E %CaL=L%h,t E %CaLTL%h,tW22 =!s

dre-E√%M%#L t

iii $hic8ne re-uired i $hic8ne proided

0 m 22 m

%h,t  2 %h,t  3

1.35 meter ).9) meter =Ms

25 KNm

).)1 meter ).2) meter

%i"=ness of Stem is 7K

 &t re-uired i &t proided ii (ercenta!e of Steel

&t E M%tLLte 12 mm dia P 125 mm cc pt E &t%Ld

*03 -mm 9)5 -mm ).6) +

Steel 7K

Shear ;orce due to urchar!e Shear ;orce due to ac8fill x Shear Stre xi Shear Stre &llowale ix

i a i ii iii

E %CaL=L%h,t,6) E %CaLTL%h,t,6)22 G E S; %Ld #efer DS,056 2))) $ale 23 p! *0

3  2)  ).16 -mm ).32 -mm

Base Sla &or"e

;orce due to ac8fillFurchar!e E TL%H2,t E ? L hi2 ;orce due to inclined ac8fill Self =ei!ht of ae la E t L25

52.6) ).)) 7.5) V=

i et upward oil preure  Bea Eoce Fen3ing Moent

i Shear Stre E O E S; %Ld ii Shear Stre &llowale

60:10

,27.7) 30.** :1 2/:03

).)3 -mm ).1* -mm

#efer DS,056 2))) $ale 23 p! *0

Moment

5 m 2) m 25 KNm

DSGN 7&  S%a$ed #antile,er !ANNG EA 1

Preliminar. Data

i ii iii i

2

Hei!ht of #etainin! =all Soil 4enit" SBC &n!le of repoe

h ?s

-o :

 Surchar!e &n!le

;

i Coefficient of friction ii Surchar!e /oad

=

<

3.)) meter 1* cum 25) -m 3) de!ree ).520 radian ) de!ree ).))) radian ).5 0 -m


i &ctie (reure Coefficient E%coU,%co2U,co2RLcoU  %coUF%co2U,co2R ii (aie (reure Coefficient E %1FSinR  %1FSinR 3

Ca

).333

Cp

3.))


i $hic8ne of Stem ii $hic8ne of footin! ae la iii /en!th of ae la 

t t E ).)* L %h F h  / E 1.5 L %Ca3 L %h F h / E ).6h to ).65h

(ropoed min 2))mm ).20 meter 1.61 meter 2.)9 meter

i


i
hi E %/,tL tan; Hi E hFhi

).)) meter 3.)) meter

iii 4ei!n Hei!ht of #= conidered H E Max of H 1  H2

3.22 meter

&dopted ).2) meter ).3) meter 2.2) meter



#onstants for Eor=ing Stress Met%od Design #onstants

2) M(a 015 M(a

i rade of concrete ii rade of teel iii i  i ii iii /

Compr tre in concrete $enile tre in teel Modular ratio eutral axi depth factor /eer arm ;actor

c t m E 2*)3c 8Emc%mcFt  E 1 , 83 #E c8  2

7.) 23) 13.33 ).2*9 ).9)0 ).913

ab# 21 &a 81 <$ 46

Design A* Stem

i Beandin! Moment at ae of tem M E M4/ F MD/

0) m

dre-E√%M%#L t

ii $hic 8ne re-uired iii $hic8ne proided



&t E M%tLLte

i &t re-uired  &t proided i (ercenta!e of Steel

16 mm dia P 125 mm cc pt E &t%Ld

13*7 -mm 16)* -mm ).99 +

Steel 7K B* Base Sla &or"e


i ;orce due to ac8fillFurchar!e ii ;orce due to inclined ac8fill iii Self =ei!ht of ae la i Jpward oil preure

E %H2,tL%/,tLT E hi2L%/,tLT E/ LtLT conc

V= up E %%- hF-min2L%/,t 4ownward (reure i !reater

1)5 ) 17

%/,t   2 %/,t  3 /2

122

110

 Bendin! Moment

MsB 6 Mu-M3

5/

i $hic 8ne re-uired

dre-E√%M%#L

).25 meter

%%-hF%2L-min%-hF-min  %%/,t3


1.)) meter ).67 meter 1.1) meter Md 1.59 meter Mu

Moment

1)5 m ) m 1* m 123 KNm

1*1 m 1/1 KNm

DSGN 7& !e,erse  S%a$ed #antile,er !ANNG EA 1

Preliminar. Data

i ii iii i

Hei!ht of #etainin! =all Hei!ht of (linth ;ill Soil 4enit" SBC &n!le of repoe

h hp

Surchar!e &n!le

;

ii Coefficient of friction ii Surchar!e /oad

=

 i

2

3.)) meter ).5) meter 1* cum 25) -m 3) de!ree ).520 radian ) de!ree ).))) radian ).5 0 -m

?s

-o :

<


i &ctie (reure Coefficient E%coU,%co2U,co2RLcoU  %coUF%co2U,co2R ii (aie (reure Coefficient E %1FSinR  %1FSinR 3

Ca

).333

Cp

3.)))

t t E ).)* L %h F h  α E 1 , %- )2.7LTLH / E HL-rt%%CaLco H%%1,αL%1F3α α E 1 , %- )2.2LTLH / E ).95LHL-rt%%Ca%%1, αL%1F3α / E ).6h to ).65h

(ropoed min 2))mm ).20 meter ,).6) meter ).)) meter ,).96 meter ).)) meter 2.)9 meter

i


i
hi E %/,tL tan;

).)) meter


i $hic8ne of Stem ii $hic8ne of footin! ae la iii /en!th of ae la

if s#,&d backfi## if ,!iJ,a# backfi##

&dopted ).2) meter ).05 meter

2.05 meter

6

Soil Soil Press) Press)res res at foot footing ing ase ase

Mn 6 M@ - (MO1MOD) i et Moment at toe ii (oint of application of #eultant # x E Mn= iii
2*  ).65 meter ).5* meter

eH6 ""entri"it. lies o)tside t%e middle t%ird of t%e ase: ! e,ise t%e ase dimensions

i (reure (reure 4itridut 4itridution ion on oil oil

-max E =/ L %1F%6Le/ -min E =/ L %1,%6Le/

03 -m ,7 -m

Ma Press)re ma?SB# %en"e $ress)re on ase is 7K



reu eure re a unc unc on o  em an heel

sB6ax-((ax -in)/)*t

39 -m

/6E).01



#onstants #onstants for Eor=ing Eor=ing Stress Stress Met%o Met%od d Design #onstants

i rad radee of conc concre rete te ii ii rad radee of tee teell iii i  i ii iii /

Compr tre in concrete $enile tre in teel Modular ratio eutral ax axi depth factor /e / eer arm ;actor

2) M(a 015 M(a c t m E 2*)3c 8Emc%mcFt  E 1 , 83 #E c8  2

7.) 23) 13.33 ).2*9 ).9)0 ).913

ab# 21 &a 81 <$ 46

Design A* Stem

i Beandi Beandin! n ! Momen Momentt at ae ae of tem tem M E M4/ F MD/ ii $hic8n $hic8ne e re-uir re-uired ed iii $hic8ne proided

0) m

dre-E√%M%#L t



i i &t &t re-u re-uir ired ed  &t &t pro proi ide dedd i (ercen (ercenta! ta!ee of Steel Steel

&t E M%tLLte

13*7 -mm 1676 -mm ).99 +

16 mm dia P 12) mm cc cc pt E &t%Ld Steel 7K

B* Bas Base Sla Sla  &or"e

i ;orc ;orcee due due to ;ro ;ront ntfifillll iii iii Self Self =ei!ht =ei!ht of of ae ae la la V= i Jpward Jpward oil oil pre preur uree


E %/,tL%hp,tLT %/,tL%hp,tLT  E /L t L T conc

2 2*

%/,t  2 /2

30

up E %%-hF-min2L%/,t Jpward (reure i !reater

35

 Bend Bendin in!! Mome Moment nt

MsB 6 Mu-M3

0

i $hic8n $hic8ne e re-uir re-uired ed ii $hic8ne proided

dre-E√%M%#L t

).)1 meter ).05 meter

%%-hF%2L-min%-hF-min  %%/,t3


1.13 meter 1.23 meter Md 1.)3 meter Mu

,).)9 ,3.6*

Moment

2 m 30 m 36 KNm

36 m 36 KNm

Answerkey 2016

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