Large span timber structures - LTH...Large span timber structures Roberto Crocetti Division of...
Transcript of Large span timber structures - LTH...Large span timber structures Roberto Crocetti Division of...
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Large span timber structures
Roberto CrocettiDivision of Structural Engineering
Lund University
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Table of contents
- Material efficiency
- Shape efficiency
- Common shapes
- Trusses
- Arches
- Bracing
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Buckling due to only self-weight
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Trees can reach considerable heights
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How tall can we build a column before it buckles? (due to its ownweight)
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Critical buckling length due to self-weight
3
2
25,1
rELcr
E: column’s E-modulr: radius of column’s cross section: column specific weight(r*g)
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Specific strength and stiffness and material efficiency
(1) In case of compression, the values are usable only for members restrained against buckling
(2) Applies only for members in compression
(3) Applies only for member in tension
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It is not a coincidence that among the largest spans, for roof
structures, are made by timber
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Geodetisk kupol
Arena i Northern Michigan
University, Michigan, USA.
Diameter: 163 m
Pilhöjd: 49 m
Byggår: 1995
The superior dome
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Two geodesic domes (coal power supply)Brindisi, Italy Diameter: 143 m (largest in Europe)Rise: 44 mBuilt in: 2014
The domes in Brindisi
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Efficient shapes
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Efficient shapes
Arch action Cable action
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Efficient shapes
W
d
C
T
The efficiency of the beam is not too high because:- The parts of the beam close to neutral axis are almost unstressed- The lever arm is small (depth of the beam is approx. 1/20 of span)
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Structural efficiency – Planar structures
In
cre
asin
g s
tructu
ral e
fficie
ncy
Beam
Truss
Arch
Suspension system
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Structural efficiency – Spatial structures
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3D-system
2D-system
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If structural efficiency is the goal, one should avoid
bending and choose forms where members work
only in tension or in compression
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Show an example of bending stress vs axial stress
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Suppose that a force “F” acts in between the two supports
L/2
F
Support 1Support 2
L/2
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Suppose that the force can be taken by means of the 2 structures below
L
f
F
b
h1
L
F b
h21 2
Hypothesis:- Bending strength = compression strength = f- Disregard bending in structure (1) (immovable
supports) and assume that buckling is not an issue- For the beam case, assume L/(h2)=20
Determine :1. The ratio of (Volume 1)/ (Volume 2) as a function of the slope a2. What is the value of that ratio when f/L=0,15?
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Efficient shapes: observe this
Structural Engineering - Lund University 23
The shape of a hanging cable subjected to a set o load is similar to the shape of
the bending moment of a corresponding beam subjected to the same set of loads.
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Efficient shapes: observe this
Structural Engineering - Lund University 24
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Cable shape vs bending moment diagram
Structural Engineering - Lund University 25
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Structural Engineering - Lund University 26
The shape of a hanging cable subjected to a set o load is
similar to the shape of the bending moment of a corresponding
beam subjected to the same set of loads.
OK, so what?
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Structural Engineering - Lund University 27
If we give the structure the same shape as the hanging cable (or the same shape as the
bending moment of the corresponding beam), then we will have only tension in the
structure! (Or only compression if we turn the structure upside down)
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Hanging rope subjected to “uniformly” distributed load
Thrust exerts a “pull” in the hands
This shape gives no bending moments!
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Upside down rope (arch) subjected to “uniformly” distributed load
Thrust exerts a “push” in the hands
This shape gives no bending momentseither!
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Structural efficiency – Spatial structures
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Pedestrian bridge, Essing, Germany
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Grandview Heights Aquatic, BC, Canada
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Attachment to the
concrete supports
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Parabola-shaped trusses
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Beams with ”constant stress”
Structural Engineering - Lund University 36
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Parabola-shaped trusses
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Parabola-shaped trusses
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A few example from Nature…
(On Growth and Form, by Sir D’arcy Thompson, 1917)
Structural Engineering - Lund University 39
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40
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Structural Engineering - Lund University 41
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Trusses
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Typical shapes –truss with parallel chords
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Typical shapes –pitched trusses
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Typical shapes –curved trusses
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Forces in the members
Ratio of:
lq
membertheinForce
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Preliminary design
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Preliminary design
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Preliminary design
In preliminary design, consider a reduced area of the cross section of the members:
Ared 0,7 A
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Preliminary design
Choose:• Relatively wide cross sections (to allocate connection)• Relatively shallow cross section of lower and upper chord (to reduce bending
stiffness and thus to reduce magnitude of bending moments)
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Preliminary design
Avoid eccentricity at the nodes
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Structural Engineering - Lund University 52
Clamps or hinges?
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Hinges or clamps?
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Structural Engineering - Lund University 54
Model 1: Diagonals hinged to chords
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Model 1: Diagonals hinged to chords
In this case the bending moment in the diagonals is obviously zero
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Model 2: Diagonals clamped to chords
In this case the bending moment in the diagonals is ≠ 0
N M
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Model 2: Diagonals clamped to chords
Note
1. The ratio above is not influenced by the width of the diagonal members
2. In timber structures the diagonals will never be completely clamped, thus bending
moment (and thus bending stresses) will be lower in practice
0,0
5,0
10,0
15,0
20,0
25,0
30,0
0 100 200 300 400 500 600 700
Depth of the diagonal h [mm]
100 MN
M
h
F
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Structural Engineering - Lund University 58
How do we design the truss in practice?
- Model the truss with continuous upper and lower chords and hinged web members
- Determine the Axial forces and the bending moments
- The nodes can be designed by considering pure axial force increase by approx. 15-20% in order to take into
consideration the presence of moment and shear
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Buckling of trusses
In-plane
Out-of-plane (a)
Out-of-plane (b)
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Buckling of trusses
In-plane
Out-of-plane (a)
Out-of-plane (b)
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Structural Engineering - Lund University 61
Buckling
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Structural Engineering - Lund University 62
How to increase stiffness and lateral stability
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Structural Engineering - Lund University 63
How to increase stiffness and lateral stability
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Structural Engineering - Lund University 64
Nodes
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Structural Engineering - Lund University 65
Nodes
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Structural Engineering - Lund University 66
Nodes
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Olympic hall in Hamar, 1994 L=71m
Courtesy Moelven Limtre A/SFd7000 kN!
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Lintel truss beam
Courtesy Moelven Töreboda AB
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The Perkolo bridge
47.5 m
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The Perkolo bridge –the failure
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The Perkolo bridge – the critical joint
47.5 m
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Truss node and force polygon
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The design force assumed by the designer for the
dimensioning of the node in the lower chord
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The actual design force in the lower chord
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Ductile failure mode
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Glulam GL30c
Dowel: fy=900 MPa
Report:
Kollapsen av Perkolo bru – hva gikk galt?
Bell, K. 2016
Cross section of the lower chord
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Arches
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Preliminary design
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Support conditions – tied arch
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2 M30, 8.8
Support conditions – tied arch
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Support conditions: directely on fundation
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Support conditions: directely on fundation
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Statical systems
Three-hinged
Two-hinged
Zero-hinged
In general:- Concrete arches are usually “zero-hinged”
- Steel arches are usually “two or three-hinged”- Timber arches are usually “three-hinged” (when they are massive)
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Three-hinged arch
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Bridge over railway, Haninge
Three-hinged arch, Span: 35 m
Erection: 25 march 2017
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Two-hinged trussed arch
(span: 71m) for road traffic
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Tynset bridge
pre- assembling of the
arches in the factory
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Fixed (zero-hinged)
Skubbergsenga bridge, Norway
Total length 40 m
Arch span 32 m
Bridge width 4 m
Building year 1997
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Geometry considerations
Common rise to span ratio:
f/L=0,15 (up to 0,20)
circular arches
2
2
41 x
lfzEquation of parabola,
origin in the middle
2
3
81
l
fls
l
f4arctan
180
a
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Forces in the cross section
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Effect of symmetric and non-symmetric loading
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Effect of non- uniformly distributed loads
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How can we reduce the effect of bending moment in three-hinged arches?
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Bandy hall in Nässjö (75m)
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Bandy hall in Nässjö: Erection
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Buckling of arches
• In plane buckling
• Out-of-plane buckling
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Buckling modes
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Different types of buckling analysis
The buckling load can be determined by 2nd- order analysis, by giving the arch initial
imperfection and increasing the load stepwise until instability is reached
By using simplified formulas to determine the buckling load. In this case the arch is
considered as a compressed strut with an appropriate buckling length
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Buckling factor (according to Timoshenko)
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&
for = 32, the buckling length factor becomes: b 1,17
Buckling Load at ¼ of the span
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Inclined suspenders increase both in plane buckling
(and they also reduce bending moments in the arch)
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After: Kolbein Bell
Bending in the arch with different hanger configuration
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Buckling of the arch with different hanger configuration
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Non-linear analysis
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Out-of-plane buckling
Students at LTH getting acquainted with 1. lateral buckling and 2. bracing of arches
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Out-of-plane buckling
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Out-of-plane buckling
Buckling analysis is conducted as for a compressed bar with relevant buckling lengths
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Bridge in Hägernäs, total length: 42m, arch span: 34m
Out-of-plane buckling
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Bracing of the bottom part of the arch
Extra compression strut
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Bracing
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Improper bracing during construction
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Conversion of an unstable structure into a stable structure Unstable configuration Stable configurations
or(a)
(b)
(c)
(d)
(e)
(d’)
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Bracing system’s main functions
• Transmission of horizontal loads
• Reduction of lateral deformations
• Enhancing buckling strength
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Complete bracing
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Bracing system for heavy timber structures
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Bracing elements
• Longitudinal wall bracing (A)
• Transversal roof bracing (B)
• End wall bracing (C)
• Longitudinal roof bracing (D)
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Stable or unstable?
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Stable or unstable?
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Stable or unstable?
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Stable or unstable?
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Stable or unstable?
Equilibrium?
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Stable or unstable?
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Stable or unstable?
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Prerequisites for stability
• Wall bracings must be able to resist horizontal forces along three different directions in the plane
• The three directions shall not converge in the same point
• At least two of the three directions shall not be parallel one to another
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Brace stiffness
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Brace stiffness
Hp: Neglect the axial
deformation of beam and
column
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Bracing of high walls
System (b) is in general more efficient than system (a), due to ab < aa
40o<a<55 o is a good compromise between economy and efficiency
System (b) is however more expensive than system (a)
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Strength and stiffness requirements for bracing systems
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Perfectly straight column
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Perfectly straight column
Equilibrium about “C”:
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Equilibrium about “C”:
This tends to
unstabilise- Munst
This tends to
stabilise- Mst
Perfectly straight column
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Critical stiffness “CE”
The maximum axial load that the column can resist cannot be larger than the buckling load of the column
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Column with several braces
a
PC E
E 4,3
(for 3 brace points)
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Column with several braces
(for more than 4 braces)
a
PC E
E 4
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Beam bracing
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Beam bracing
H
MN d
d
3
2
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Lateral forces in beams -modelR
qNd
Rq
Nd
Rq
LH
R
NqdRqdN d
rrd aa
Nd
R
Nd
qr
dadl=R·da
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What is “R”
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Assumed initial deformation: parabolic shape
DT
x
yL
R
2
4
D
L
xy T
Assumed shape
2
21
dx
yd
R
2
2
2
2
2
2 84
1
LL
x
dx
d
dx
yd
R
TT
D
D
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Lateral forces
Nd
Rq
Nd
Rq
R
Nq d
r 2
81
LR
TD
T
dr
LNq
D
8
2
&
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Estimation of lateral loads for glulam structures
• Initial out-of-straightness: D0=L/500
• Additional deformation D (e.g. due to wind load) shall not exceed L/500.
• This means that the final deformation shall be (maximum value)
250)( 0
LT DDD
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Lateral forces
Nd
Rq
Nd
Rq
T
dr
LNq
D
8
2
H
MN d
d
3
2
HL
Mq d
r
20
250
LT D
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Brace forces for a series of bent members
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EC5 approach
crit
f
dh k
LHk
Mnq
1
3,
Md= design moment in the beam
H = depth of beam
L= span of the beam
n= number of laterally braced beams
kf,3= modification factor (kf,3=30-80)
kcrit= reduction factor for lateral buckling when the beam is unbraced
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Erection of timber structures
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Timber struts as bracing system
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Erection: pair of fully braced trusses
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Bracing by diaphragm action