Application nr. 6 (Connections) Strength of welded connections to EN (Eurocode 3, Part 1.8)
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1 Application nr. 6 (Connections) Strength of welded connections to EN (Eurocode 3, Part 1.8)
2 PART 1: Design of a fillet weld connection in shear
3 Initial data of the problem: Given two overlapping plates with the following dimensions: Plate 1: width = b 1 =40 mm; thickness=t 1 =15 mm Plate : width = b = 300 mm; thickness = t = 1 mm Steel grade of the plates: S35 An overlapping welded connection is required between plates under axial force N = 70 kn
4 Geometry of the proposed connection and loading:
5 Comment on problem required result: Two fillet welds are required, connecting Plate 1 to Plate (see previous drawing) and resisting the axial force N; A shear effect is produced between the two plates which tend to move in opposite directions under the effect of axial load; The unknown elements in this phase (to be found out as a result) are the weld effective length (l) and throat thickness (a) for the fillet weld.
6 Design resistance of the fillet weld: simplified method of EN According to the code, the design resistance of a fillet weld may be assumed to be adequate if, at every point along its length, the resultant of all the forces per unit length transmitted by the weld, satisfy the following criterion: F w,ed F w,rd
7 In the previous formula: F w,ed = is the design value of the weld force per unit length (from load action); F w,rd = is the design weld resistance per unit length;
8 a) Sizing of the weld (finding weld length and weld throat thickness): The following equation of equilibrium is used (from eq.4.): Where, in our case: F Total F Total w, Ed w, Rd Total wed F N 70kN, (total weld force)
9 Weld resistance: According to the simplified code method (ch ), the weld resistance is given by the formula: F Total f a l w, Rd vw. d Number of welds in our case and (f vw.d ) is the design strength of the weld
10 Design strength of the weld (eq. 4.4): with: f vw. d fu 3 w M f u = 340 N/mm (ultimate strength for S35 steel of the plates) w = 0,8 (correction factor for fillet welds, table 4.1) M = 1,5
11 Previous formula gives: 340 f N / mm vw. d 0,8 1, 5 3
12 In the weld resistance formula: (a) = throat thickness of the weld; (l) = effective length of the weld These two elements are both unknown. They appear simultaneously in a single equation, which normally makes impossible any solution!
13 This is a typical engineer problem! The solution is obtained by imposing one of this two unknown values, based on the previous experience of the designer Usually we impose the (a) value, i.e. the throat thickness of the weld; As required by the code, this value should be: a > 3,0 mm
14 Imposing (a) value and calculation of the weld resistance: Let s impose: a = 5,0 mm In this case, using previously determined data, we get: F, l Total wrd And consequently: A [mm] l l 367 mm 196.3
15 Comment on the obtained result: As the code does not prescribe a superior limit for the weld effective length, we will adopt the following value as actual value of the length: l act = 370 mm As required by the code, the effective length value should be larger than the prescribed minimum limit: l act > l min =30 mm (l min =6a =30 mm) OK!
16 b) Checking of the weld: The obtained welding has now the geometry (dimensions) presented in the next figure
17 Geometry of the fillet weld (to be shown on technical drawing):
18 Comment on the weld symbol: The weld symbol for a fillet weld includes: - an arrow showing the weld seam position on the connection drawing; - number 5 which indicates the weld throat thickness in [mm] -a triangle indicating a single side fillet weld (type of weld) - number 370 indicating the length of the fillet weld in [mm]
19 The design throat area of the weld: A al mm w The design value of the weld force per unit length becomes: N FwEd, N / mm A 3700 w
20 The design resistance per unit length of the weld: F w,rd = 1963 dan/cm (calculated before) Obviously: F w,ed < F w,rd This concludes the checking procedure.
21 PART : Design of a fillet weld connection in bending and shear (using directional method, ch )
22 Cantilever plate under shear and axial force applied at its end V l 1 N L [m] a l 1 (double side fillet weld)
23 Initial data: Cantilever span: L=1, m Loading at cantilever end: V = 150 kn N = 100 kn Steel grade (of the plate): S355 Plate cross-section = 0 X 500 mm Welded connection using a double side fillet weld
24 Required: Checking of the fillet weld connection under bending and shear for a weld throat thickness: a = 10 mm Two such fillet welds are used to connect the cantilever onto the support (Effective length of the weld: l 1 = 500 mm)
25 Resulting data: For S355 steel: f y = 355 N/mm f u = 50 N/mm
26 Diagrams of internal efforts: 150 T [kn] N [kn] M [knm]
27 0 Welding geometry: Steel plate Geometrical characteristics of the fillet weld (two 1,0 x 50,0 rectangles): Weld area: A w = = mm Section modulus of the two weld rectangles (fillet weld): W 3 = (10 x 500 / 6) x = mm 3 Weld (rectangle) 10
28 Correspondence between internal efforts and weld stresses: The resistance of the weld has to be checked under a complex state of internal efforts (N,T,M) generating different types of stresses, i.e. N = generating ( N ); T = generating ( II ); M = generating ( M ): variable; Observation: = 0!
29 Weld 3D state of stress in the code (fig. 4.5):
30 Stress diagrams on fillet weld: Point 1 II V A w N N A w M M W 3
31 Checking =performed in point 1 using the following stresses: ( =0!) = in the weld plan, perpendicular to weld and constant all over the height ( II ) = in the weld plan, parallel to the weld and constant all over the height ( ) = perpendicular to welding plan and variable all over the height (maximum value in point 1)
32 Calculation of stress values: 3 / / / , / , cm dan cm dan W M cm dan A N cm dan A V M w N w II
33 Checking formula for the fillet weld, according to EN (eq. 4.1): 0,5 3 M u M w u II f f Where w = 0,9 (correlation factor from Table 4.1)
34 Application of the checking relations: 500 0,9 1,5 0, daN / cm 46daN / cm daN / cm 1,5 Checking OK! Checking OK! Conclusion: Fillet weld too strong! Diminishing weld throat thickness to 6 8 mm would be recommendable (beneficial for welding procedure)!
35 PART 3: Design of the fillet weld connection for a double angle section
36 Geometry and initial data: Fillet weld x N=400 kn Fillet weld x L 80 x 80 x 8 Gusset plate (t=1 mm)
37 Initial data: Member cross section = L 80x80x8 Angle leg b = 80 mm Steel grade: S35 Gusset thickness: t=1 mm Axial force on member: N = 300 kn f y = 35 N/mm f u = 370 N/mm
38 Member cross-section geometry: x Fillet weld L 80 x 80 x 8 80 mm e =57,4 e 1 =,6 Gusset plate Centre of gravity of the member cross-section x Fillet weld
39 Effect of weld eccentricity: Fillet weld C W e 1 =,6 1 N Fillet weld Centre of gravity of the welding
40 Explanation of eccentricity: The axial force N is acting at the level of the centre of gravity of the member (i.e. at distance e 1 =,6 mm from angle corner) If a symmetric welding is used (the bottom and the upper fillet weld are identical) then the centre of gravity of the welding, will be located at angle leg mid height (40 mm from angle corner).
41 Eccentricity (): The distance 1 =40mm-,6mm between the centre of gravity of the welding and the direction of the force is called eccentricity The force N is an eccentric force with respect to the centre of gravity of the welding; Because of this eccentricity, a supplementary bending moment (M w ) appears in the plan of the welding, i.e. M w = N 1
42 Reduction of the force N in the centre of gravity of the welding C w Upper seam N 1 C 1 C W N b=80 M w Bottom seam N 1 C 1
43 Distribution of the shear forces on the weld seams The axial force N and the bending moment M w generate shear forces into the weld seams: The axial force N is equally distributed on both seams, i.e. N 1 = N/; The bending moment generates a couple of forces: M w = C 1 b C 1 = M w /b
44 The maximum shear effect appears in the upper seam: In the upper seam both components (N 1 and C 1 ) have the same sense: their resultant (F R ) is maximum: N N F N C 1 R 1 1 b In the bottom seam the components are opposite and the shear force is lower!
45 Simplified method to check the resistance of the upper weld: Checking relation: F w,ed F w,rd in which: F w,ed = design value of the weld force per unit length F w,rd = design weld resistance per unit length
46 Weld dimensions are imposed: Weld throat thickness: a = 5 mm > a min =3mm Weld length: l 1 = 10 mm
47 Calculation of the weld force per unit length: F F R w, ED ,6 15kN 80 FR ,8 N / mm l N
48 Calculation of the design shear strength of the weld: F f w, Rd vw. d f vw. d f a u 3 w M Where: a= 5 mm =weld throat thickness (imposed) w = 0,8 (from Table 4.1 of the code, for S35 steel) M = 1,5
49 Calculation (): f F vw. d w, Rd a ,6 N / mm 0,8 1,5 f vw. d 5 13, N / mm F w, ED Checking OK OBSERVATION: If the relation does not check as required, the dimensions of the weld should be increased (higher value for the weld throat thickness a or higher value for the seam length l 1 ). The procedure is repeated until checking OK.
50 SECOND METHOD to connect the angle section member to the gusset plate: (Improved system which avoids the eccentricity of axial force N)
51 How to avoid N eccentricity towards the centre of gravity of the weld? The centre of gravity of the weld should be moved upwards and located on member longitudinal axis (thus 1 = 0!) The longitudinal axis of the member passes through the centre of gravity of the L80x80x8 section; Unequal weld seams are used to that purpose (the upper weld seam larger than the bottom weld seam)
52 Unequal weld connection: Fillet weld 1 (A s1 ;l 1 ;a 1 ) e =b-e 1 e 1 C W N 1 e 1 =,6 b N Fillet weld (A s ;l ;a ) N Centre of gravity of the welding
53 Condition for the two unequal welds to have the centre of gravity on member axis: The static moment of the welds with respect to member axis should be identical (equal): Static moment of weld 1: S w1 =A s1 x e 1 Static moment of weld : S w =A s x e CONDITION: S w1 = S w
54 Notations: In previous drawing and relations: A s1 ; A s = areas of the unequal welding l 1 ; l =effective lengths of unequal welding a 1 ; a =weld throat thickness of each welding
55 Total area of the weld (A s ): If the axial force N is acting centrically, no bending moment occurs in the connection (M w = 0); Under axial force (N) only, a simple sizing of the weld is possible: i.e. calculation of the overall area of the welding (A s )
56 To calculate the overall area of the weld (A s ), the following equation of equilibrium is used: N A s f A vw. d s f N vw. d Where: f f 370 u vw. d 13,6 N / 3 w M 3 0,8 1,5 mm
57 The overall (total) area of the weld results: A s f N vw. d ,6 1404mm This is the sum of unequal areas for the upper and bottom welds: A s A A s1 s
58 However, the problem is not yet solved! The final purpose of the designer is to find the effective length (l) and the throat thickness (a) for each of the two unequal fillet welds; Therefore, the unknown elements in this stage of the problem are: -l 1 and a 1 for weld 1 (and A s1 =x l 1 x a 1 ); -l and a for weld (and A s =x l x a );.
59 To find the unknown dimensions, we will use the previously established relations, as a system of equations: s s s s s A A A e A e A Equal static moments Overall area of welding In upper system, A s1 and A s are the unknown
60 By solving the system, the unknown values of area result: b e A e e e A A b e b A e e e A A s s s s s s In which b is the length of angle leg and e 1 is the distance from angle corner to angle centre of gravity. Both these values are known (found in profile tables for angle section)!
61 In our particular case: A A s1 s 80, mm 80, mm 80 To find weld unknown dimensions, we write: A A s1 s 1007 l 397 l 1 a a 1
62 Again, this is a typical engineer problem: two equations and four unknown! To solve the problem, the values of the throat thickness a 1 and a are imposed It is also recommended that a 1 =a +1mm (in order to avoid excessive length l 1 of upper weld seam) Imposing: a =4mm > a min =3mm, then a 1 results: a 1 =4mm+1mm = 5 mm
63 The unknown effective length for the unequal welding result: A A s1 s l l 1 5 l 4 l 1 100mm 50mm Checking of the code minimum length condition for each weld: l 1 > 6 a 1 = 6 x 5,0 = 30 mm; l > 6 a = 6 x 4,0 = 4 mm; l > 30 mm
64 The real length of the welding: The real length of the welding (written on the weld symbol on the technical drawings of the project) should include the end returns of the weld seam: l 1R =l 1 + a 1 (rounding to an increased value multiple of 5 mm!) l R =l + a (rounding to an increased value multiple of 5 mm!)
65 In our particular case: l R1 = l 1 + a 1 = = 110 mm l R = l + a = = 58 mm 60 mm
66 Symbols for the welding:
67 Final checking of the unequal welding: The axial force N is distributed in unequal parts to each welding, using the same principle (in fact proportional to the area of each weld): N N 1 b e1 80,6 N b 80 e1,6 N N b 80 N
68 To check the welding the simplified procedure will be used: Checking relation: in which: F w,ed F w,rd F F w, Ed1 w, Ed N l N 1 1 l N 50 N / mm / mm
69 The design weld resistance per unit length: F F w, Rd1 w, Rd a a 1 f vw. d f vw. d 5,0 13, N / mm 4,0 13,6 854,4 N / mm F w. ED1 F w. ED Checking OK!
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