BEAM DESIGN CALCULATION
Project Name	:	Unassigned
Client Name	:	Unassigned
Engineer Name	:	Unassigned
Design File	:	D:\Bentley\Common data\Bentley Communities\ACI\ACI_M_Validation Sheets\2014_Metric\Beam_Coupling\STAAD file\Coupling beam-testing-model-2-Beam-1-15 m.rcdx
Analysis File	:	D:\Bentley\Common data\Bentley Communities\ACI\ACI_M_Validation Sheets\2014_Metric\Beam_Coupling\STAAD file\Coupling beam-testing-model-2.std
Analysis Last Modified	:	3/1/2023 8:39:43 PM
Level Designed	:	15 m

Sr.No.	Symbol		Definitions
1	α	=	Angle formed with horizontal line along length of Beam
2	Ach	=	Cross sectional area of structural member measures to the outside edge of transverse reinforcement in 'sqmm'
3	Ag	=	Cross sectional area of concrete in 'sqmm'
4	Ash	=	Total cross sectional area transverse reinforcement (including cross ties) within spacing S in 'sqmm'
5	Avd	=	Area of diagonal reinforcement in coupler beam in 'sqmm'
6	As	=	Area of Tension reinforcement required in 'sqmm'
7	As,min	=	Minimum area of flexural reinforcement in 'sqmm'
8	As,nominal	=	Nominal area of reinforcement in 'sqmm'
9	Al	=	Area of longitudinal reinforcement required to resist torsion in 'sqmm'
10	Al,face	=	Area of longitudinal reinforcement required on each face to resist torsion in 'sqmm'
11	At Torsion	=	Area of closed stirrups resisting torsion in 'sqmm'
12	AstPrv	=	Area of longitudinal reinforcement provided at given section in 'sqmm'
13	Av	=	Area of shear reinforcement required per meter length in 'sqmm'
14	Av,min	=	Minimum area of shear reinforcement in as per clause 11.4.6.1 in 'sqmm'
15	Al,min	=	Minimum area of longitudinal torsional reinforcement as per clause 11.5.5.3 in 'sqmm'
16	Av Total Reqd	=	Total area of shear reinforcement required, including that for torsion in 'sqmm'
17	Av Total Prv	=	Total area of shear reinforcement provided, including that for torsion in 'sqmm'
18	Ao	=	Gross area enclosed by shear flow path in 'sqmm'
19	Aoh	=	Area enclosed by centerline of the outermost closed transverse torsional reinforcement as per clause 11.5.3.1 in 'sqmm'
20	Ast	=	Total area of longitudinal reinforcement calculated at a given section in 'sqmm'
21	Asr	=	Area of Skin reinforcement calculated for given section in 'sqmm'
22	Asc	=	Area of Compression reinforcement required for doubly reinforced section or if torsion exists in 'sqmm'
23	Asv Reqd Sway	=	Area of shear reinforcement required for sway condition in 'sqmm'
24	b	=	Width of the Beam in 'mm'
25	bw	=	Width of Web ( For flanged Beam ) in 'mm'
26	b'	=	C/C distance between longitudinal reinforcement along B in 'mm'
27	bc	=	Oustside dimension of transverse reinforcement in 'mm'
28	Cc	=	Effective Cover to tension reinforcement in 'mm'
29	Cmin	=	Clear cover to top and bottom reinforcement in 'mm'
30	Cside	=	Clear cover to side reinforcement in 'mm'
31	c'	=	Effective cover to reinforcement at compression face in 'mm'
32	d	=	Effective depth of Beam in 'mm'
33	d'	=	C/C distance between longitudinal reinforcement along D in 'mm'
34	D	=	Depth of Beam in 'mm'
35	Es	=	Modulus of elasticity of steel in 'N/sqmm'
36	f'c	=	Specified compressive strength of concrete in cylinder in 'N/sqmm'
37	fs	=	Calculated tensile stress in reinforcement at service loads, 'N/sqmm'
38	Hf	=	Thickness of Flange in 'mm'
39	hx	=	Maximum C/C horizontal spacing of hoops legs on all faces in 'mm'
40	Icr	=	Moment Of Inertia Of concrete crack section
41	l	=	Effective Length Of Beam (Clear Span) in 'mm'
42	Legs	=	Number Of legs Of the shear reinforcement
43	Mcr	=	Cracking Moment
44	Mh	=	Hogging moments of resistance of member at the joint faces in 'kNm'
45	Mpr1	=	Hogging moments Of resistance Of member at the joint faces in 'kNm'
46	Mpr2	=	Sagging moments Of resistance Of member at the joint faces in 'kNm'
47	Ms	=	Sagging moments Of resistance Of member at the joint faces in 'kNm'
48	Mu	=	Factored Bending Moment at a section in 'kNm'
49	Mubal	=	Nominal flexural strength Of Singly Reinforced Section At Balance Neutral Axis in 'kNm'
50	Ptmin	=	Minimum percentage steel As per clause 10.5
51	PtPrv	=	Provided percentage steel
52	Stirrup	=	Bar mark representing shear stirrup
53	S	=	spacing Of confining links in 'mm'
54	SCalc	=	Stirrup spacing calculated As per Asv in 'mm'
55	Sprv	=	Stirrup spacing provided in 'mm'
56	Tcr	=	Cracking torque under pure Torsion in 'kNm'
57	Tu	=	Factored Torsional Moment at a section in 'kNm'
58	V^D+L	=	Shear due to Dead and Live load in Simply supported beam in 'kN'
59	Ve	=	Earthquake induced shear in 'kNm'
60	φVc	=	Reduced Shear strength provided by concrete in 'kN'
61	φVc sway	=	Reduced Shear strength provided by concrete for sway condition in 'kN'
62	Vu	=	Factored Shear Force at a section in 'kN'
63	Vu-A1(sway Left)	=	V^D+L_left - (Mpr1_left + Mpr2_right / L ) in 'kN'
64	Vu-A2(sway Left)	=	V^D+L_left + (Mpr2_left + Mpr1_right / L ) in 'kN'
65	Vu-B1(sway Right)	=	V^DL_Right - (Mpr1_left + Mpr2_right / L ) in 'kN'
66	Vu-B2(sway Right)	=	V^DL_Right + (Mpr2_left + Mpr1_right / L ) in 'kN'
67	Vud	=	Design Shear Force due to sway in 'kN'
68	Vs	=	Nominal shear strength provided by shear reinforcement in 'kN'
69	Vs Sway	=	Nominal shear strength provided by shear reinforcement for sway condition in 'kN'
70	Vu sway	=	Max (Vu-A1,Vu-A2) & (Vu-B1,Vu-B2) in 'kN'
71	y	=	Neutral axis depth.
72	Φ	=	Strength reduction factor

All Forces are in 'kN', 'kNm', Stress in 'N/sqmm' & Dimension are in 'mm'.

Code References
Sr.No.	Item		Clause / Table
1.	Ptmax	:	7.3.3.1, 8.3.3.1, 9.3.3.1
2.	As,min (flex) (B)	:	9.6.1.1, 9.6.1.2
3.	As,min	:	9.6.1.3
4.	Vc	:	22.5
5.	Asv	:	22.5.10.5 & 22.6.7
6.	Min Shear Reinf	:	9.6.3.1
7.	Max Stirrup Spacing	:	9.7.62
8.	Shear Reinf - Torsion	:	22.7.3.1
9.	Side Face Reinforcement	:	9.7.2.3
10.	Tcr	:	9.5.4.1
11.	fs,perm	:	10.6.4
12.	fc,perm	:	10.2.7.1
13.	Wcr	:	Eq 4.2(a)
14.	Ptmin	:	18.6.3.1
15.	Asmin	:	18.6.3.1
16.	Sclc	:	18.6.4.1 & 18.6.4.4

Group	:	G2
Beam No	:	B2
Analysis Reference (Member)	:	1304 (15 m)
Beam Length	:	1000	mm
Breadth (B)	:	300	mm
Depth (D)	:	550	mm
Effective Depth (d)	:	480	mm
Design Code	:	ACI 318M - 14
Beam Type	:	Coupling Beam
Grade Of Concrete (f'c)	:	C20	N/sqmm
Grade Of Steel (Main)	:	Fy420	N/sqmm
Grade Of Steel (Shear)	:	Fy420	N/sqmm
Grade Of Steel - Flexural Design	:	Fy420	N/sqmm
Grade Of Steel - Shear Design	:	Fy420	N/sqmm
Grade Of Steel - Torsion Design	:	Fy420	N/sqmm
Top/Bottom Clear Cover (Cmin)	:	40	mm
Side Clear Cover	:	40	mm
Es	:	2x10^5	N/sqmm
Mubal	:	350.08	kNm
As,min (flex) (B)	:	480	sqmm
As,nominal (Bn)	:	187.2	sqmm
As,min(user input)(B')	:	187.2	sqmm
Strength Reduction Factor φ (Shear)	:	0.6

Check for coupling action
Design of diagonal reinforcement
Clear Span of Beam, Ln	=	1000	mm
Beam Depth, D	=	550	mm
Effective Depth, deff	=	480	mm
Angle with horizontal, (α)	=	25.174	deg
Shear for EQ case, Vu	=	457.8	kN
λ	=	1
Φ	=	0.85
Criteria
1.	=	Ln/D
	=	1000/550
	=	1.82 < 2, Hence coupling beam is applicable
2. Vc	=	0.33 x λ x sqrt(fck) x B x D
	=	243.51	kN
	=	Vc < Vu
	=	Hence, Beam Is coupling beam
Vn	=	0.83 x sqrt(fck) x B x Deff
	=	534.51	kN
Vu	<	Vn	Hence Ok
Avd	=	(Vu x 1000 / (2 x Fy x sinα)) / Φ
	=	1507.36	sqmm
Reinforcement provided	=	4-#16 4-#16 Both diagonals

Flexure Design (For Vertical Load Only)
	Beam Bottom			Beam Top
	Left	Mid	Right	Left	Mid	Right
Critical L/C - Analysis	-	13	-	13	13	13
Critical L/C - RCDC	-	3	-	3	3	3
Mu (kNm)	-	0.54	-	4.54	0.76	4.54
As (flex) (sqmm) (C)	-	2.95	-	25.07	4.18	25.07
Asc (flex) (sqmm) (A)	-	-	-	-	-	-
Tu (kNm)	-	-	-	-	-	-
Tcr/4 (kNm)	-	-	-	-	-	-
Al, min(sqmm)(Tor.) (D)	-	-	-	-	-	-
Al (sqmm) (Tor.) (E)	-	-	-	-	-	-
Al (Dist) (sqmm) (D)	-	-	-	-	-	-
Ast (sqmm)	187.2	187.2	187.2	187.2	187.2	187.2
AstPrv (sqmm)	212.64	212.64	212.64	212.64	212.64	212.64
Reinforcement Provided	3-#10	3-#10	3-#10	3-#10	3-#10	3-#10

Note: Calculation of Ast

Ast	=	Max {B, C+D, A+D} (for Mu > 0 and C x 1.33 > B)
Ast	=	Max{B', C x 1.33 + D, A+D} (for Mu > 0 and C x 1.33 < B)
Ast	=	Bn (for Mu = 0)
Where,
A	=	Asc (flex)	=	Compression reinforcement required for bending moment
B	=	As,min (flex)	=	Min area of flexural reinforcement
Bn	=	As,nominal	=	Nominal area of reinforcement
C	=	As (flex)	=	Total area of longitudinal reinforcement calculated at a given section
D	=	Al (Dist)	=	Distributed longitudinal torsional reinforcement at section considered
E	=	A _s,reqd Crack	=	Area of reinforcement required for Crack Width
Ast (Dist) (sqmm)			=	Max(Al,min (Tor), Al (Tor)) x ((2B) / (2B + 2D))

Shear Design (For Vertical Load Only)
	Left	Mid	Right
Critical L/C - RCDC	3	3	3
PtPrv (%)	0.148	0.148	0.148
Vu (kN)	19.92	7.34	19.92
Mu-Sect (kNm)	4.54	0.04	4.54
Φ Vc (kN)	79.99	79.99	79.99
Vs (kN)	-	-	-
Aoh (sqmm)	-	-	-
At (sqmm/m)	-	-	-
Av (sqmm/m)	250	250	250
Tu (kNm)	0	0	0
At Torsion (sqmm/m)	-	-	-
Av Total Reqd (sqmm/m)	250	250	250
Asv Reqd (sqmm/m)	250	250	250
Legs	2	2	2
Stirrup Rebar	10	10	10
SCalc (mm)	240	240	240
SPrv (mm)	240	240	240
Av Total Prv (sqmm/m)	590.67	590.67	590.67

Hoop link for diagonal bars as per ACI 318M - 14
Spacing Criteria:
Effective Width, (B")	=	196	mm
Effective Depth, (D")	=	396	mm
6 X diameter of longitudinal bar (d_b)	=	95.4	mm
Maximum Spacing	=	150	mm
Minimum Spacing	=	100	mm
Hence Link spacing, S	=	Maximum (Minimum Spacing, Minimum (6d_b, Maximum Spacing))
	=	100	mm
Hoop dimension, bc	=	141.3	mm
Gross area of column, Ag	=	B" x D"
	=	77556.81	sqmm
Core area of column, Ach	=	(B" - 2 x Cside + 2 x Outer Link Rebar) x (D" - 2 x Cmin + 2 x Outer Link Rebar)
	=	48225.69	sqmm
Hoop Link Criteria:
Ash1	=	0.3 x S x bc x (Fck/Fy) x (Ag/Ach-1)
	=	122.77	sqmm
Ash2	=	0.09 x S x bc x (Fck/Fy)
	=	60.56	sqmm
Ash	=	Maximum (Ash1, Ash2)
	=	122.77	sqmm
Link Rebar (Outer)	=	13
Link Rebar (Internal)	=	10

Maximum Spacing Criteria

Basic

0.33 Sqrt(f'c)Bd

212.52

	Left	Mid	Right
Vs (kN)	0	0	0
Check	Vs <= 0.33 Sqrt(f'c)Bd	Vs <= 0.33 Sqrt(f'c)Bd	Vs <= 0.33 Sqrt(f'c)Bd
Spc1 (mm)	d/2=240	d/2=240	d/2=240
Spc2 (mm)	600	600	600

Skin reinforcement

Beam Width	=	300	mm
Beam Depth	=	550	mm
Depth	=	550 <= 900, Hence Skin Reinforcement is not required.