Design of external timber cladding
Transcript of Design of external timber cladding
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Design of external timber cladding to the BS 8605 series
Dr Ivor Davies
Wood Knowledge Wales, 28/11/17
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External timber claddingPart 2: Code of practice for design and installation
BS 8605-2: 201X
External timber claddingPart 1: Method of specifying
BS 8605-1: 2014
[1] [2]
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External timber claddingPart 1: Method of specifying
BS 8605-1: 2014 Moisture contentDurabilitySpeciesGradeGeometrical characteristicsWarpFixing resistanceDimensional stabilityReaction to fire
Etc.
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External timber claddingPart 2: Code of practice for design and installation
BS 8605-2: 201X
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Oxidization
Leaching
Photo-degradation
Fungal staining
Erosion …
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EHCN
EHCF
EVON
EHCF
3025201510
Moisture content of
external timber cladding
Moisture content (%)
[6]
Mean: 16 to 18%
Range: 10% up to the fibre saturation point for the species
MC specification in BS 8605-1: (16 ±4)%
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Massive wall
Types of external wall
[3]
Face sealed wall
Screened &drained wall
SidingRainscreen
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[4]
Photos: National M
useum of W
ales
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Timber rainscreen cladding
Open jointed Closed jointed
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Framed substrate Masonry substrate
Timber rainscreen cladding
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Rigid insulation Flexible insulation within a frame
Timber rainscreen cladding
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Interior functional
layers
Room lining
Services void (optional)
Air & vapour control layer
Exterior functional layers
Wet zone
Timber cladding
Cavity (drained & ventilated)
Breather layer
Core
Timber rainscreen cladding
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Minimum gap?
Timber rainscreen cladding
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Drainage gap at cavity base: ≥ 10 mm
Ventilation gap within cavity & at cavity head:
≥ 5 mm
Splashzone: ≥ 200 mm
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Avoid water traps
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Seal between breather layer
and window
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Durability If wetting is persistent, ensure timber is decay resistant, taking account of cost of failure & ease of replacement
Deflection Minimize wetting
Drainage Allow rainwater to escape
Drying Ventilation for drying
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Heartwood
Sapwood
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Natural durability classes (fungi)
1Very
durable
2Durable
3Moderately
durable
4Slightly durable
5Not
durableJarrah
Western red cedarEuropean oak
UK larchBirch
Sapwood
BS EN 350
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Use classes
Use Moisture Wood destroying class condition organisms in UK
1 Dry interior Minor beetle risk
2 Damp interior Dry rot + beetles
3 Exterior out Wet rot + beetlesof ground contact
4 In ground contact Soft rot + beetlesor fresh water
5 In sea water Marine borers
BS EN 335
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Use class 3
Use class 5
3.1 Occasionally wet3.2 Frequently wet
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1 2 3 4 5Use
class
Natural durability always sufficientNatural durability usually sufficient
Preservative treatment usually neededPreservative treatment essential
Natural durability probably insufficient, but…
12345
Matching natural durability to use class BS EN 460
Natural durability class (fungi)
[17]
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1 2 3 4 5Use
class
Natural durability always sufficientNatural durability usually sufficientNatural durability probably insufficient, but…
12345
Matching natural durability to use class BS EN 460
Natural durability class (fungi)
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Modified wood is specified in a similar way to naturally durable
timber
Wood preservation
Chemical modification
Thermal modification
Options for increasing biodeterioration resistance
Specify to BS 8417
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Structural design of cladding should address:
1. Imposed loads from the cladding onto the wall
2.Self-weight of the cladding
3.Attachment of cladding to the wall
4.Movements and tolerances
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Structural design of cladding should address:
1. Imposed loads from the cladding onto the wall
2.Self-weight of the cladding
3.Attachment of cladding to the wall
4.Movements and tolerances
With lightweight cladding, these are usually the responsibility of the cladding designer
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Structural design of cladding should address:
1. Imposed loads from the cladding onto the wall
2.Self-weight of the cladding
3.Attachment of cladding to the wall
4.Movements and tolerances
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External timber cladding is a semi-structural application and is therefore within the scope of the Eurocodes:
Basis of design: Eurocode 0Wind loads: Eurocode 1Timber connections: Eurocode 5
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Rule of thumb guidance: ‘a smooth nail should penetrate the support by 2½ times
the board thickness & an improved nail should penetrate by twice the board
thickness’
This is not in accordance with Eurocode 5
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Wind
Boundary conditionsAim:
Peak wind loads < 2.5 kN/m2
Minimize lateral loads
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WindPlan section
Boundary conditionsAim:
Peak wind loads < 2.5 kN/m2
Minimize lateral loads
Low risk: < 1.5 kN/m2
Medium risk: 1.5 to < 2.5 kN/m2
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Lateral load
Axial load
Plan section
Boundary conditionsAim:
Peak wind loads < 2.5 kN/m2
Minimize lateral loads
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Conditions met?
2nd
batten layer?
Full design to Eurocode
5
Yes
No
Design claddingNo
Wind load <2.5 kN/m²?
Yes
Yes
Redesign or get advice
No Determine wind load
Conceptual design
Design 2nd
batten layer
Design 1st
batten layer
Design for robustness
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Connections: vertical batten to studUse ring shank nails or screws
Pointside penetration of threaded part ≥ 8d
Plan section
Diameter d = 2.1 to 6 mmRing shank nails:
Pointside penetration
Fastener centres determined by diameter and wind load
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Batten spacing 600 mm Board width 150 mm
Design wind load 1.2 kN/m2
Counter battens3 nails/m length (6/m2) Axial load/nail: 0.2 kN(1.2 ÷ 6)Battens2 nails/m length (4/m2)Axial load/nail: 0.3 kN(1.2 ÷ 4)
Cladding4 nails/m length (26/m2)Axial load/nail: 0.05 kN(1.2 ÷ 26)
Connections: horizontal batten to counter batten
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Connections: horizontal batten to batten
Plan section
Pointside penetration
(incl tip)
Headsidethread length
Headsidethread length and batten spacing determined by screw diameter and wind load
Only screws are suitable
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Nail connections: vertical batten to stud
Pointside penetration of threaded part ≥ 6d
Plan section
d = ≥ 3.5 mm dhead = d × ≥1.78
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Spacing a1 12d 15d 5d
Spacing or end/edge distance
Fastener spacing as multiple of dPre-drilled
timber
Spacing a2 5d 7d 4dDistance a3c 10d 15d 7d Distance a4c 5d 7d 3d
a1
a4ca3c
a2
Examples of minimum spacings and unloaded edge/end distances for fasteners
[20]
Mean wood density (kg/m3)≤ 500 >500
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Minimum batten thickness 38 mm to
maintain edge distances. This
determines cavity depth.
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Structural design of cladding should address:
1. Imposed loads from the cladding onto the wall
2.Self-weight of the cladding
3.Attachment of cladding to the wall
4.Movements and tolerances
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Lightweight cladding is fixed to and should move with the wall structure
Heavyweight cladding is separately supported and moves independently of the wall structure
Differential movement
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2 mm
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Movement classes for wood species
Movement class
Across grain dimensional change due to moisture content fluctuation below the fibre saturation point
Small 1% for every 5% change in MC
Medium 1% for every 4% change in MC
Large 1% for every 3% change in MC
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AppearanceEnvironmentDurabilityRobustnessFireSafetyNoiseEnergySustainability
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Compartment fire
Fire in a nearby but
non-adjoining building
Small fire near the
wall
Three fire scenarios affecting timber-clad facades
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Peak heat release rate above window can be 70 kW/m2
Total energy release in front of the facade:1 to 1.5 MW
Duration of thermal exposure on facade: 15 to 20 minutes
Photo by IngvallMaxw
ell
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The flame plume from a fully developed fire can spread 2 to 4 m up the facade irrespective of the combustibility of cladding materials
The plume might reach 6 m high in some conditionsPhoto by IngvallM
axwell
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Typical flame height 2 to 4 m
Possible flame
height up to 6 m
Maximum allowable fire propagation up the facade before fire brigade intervenes
Performance criterion for timber-clad facades
[22]
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Fire spread from a 5th floor flat onto the facade and externally to the eight floors above. The upper floors were engulfed in minutes. One person died.
Photo: BRE G
lobal
Irvine fire, Scotland 1999
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Grenfell Tower fire, London, 2017. 71 people died after a compartment fire spread to the cladding.
Imag
e: W
ikip
edia
Com
mon
s
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Time
Heat release
rate Flas
hove
r Fully developed
Decay
Reaction to fire
Sprinkler controlled
Fire resistance
Growth
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A classification of how fire starts and
spreads up to and including
flashover
BS EN 13501-1
A classification of how long
construction elements can resist the power of a fully
developed fire
BS EN 13501-2
Reaction to fire
Fire resistance
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Photo: US Forest Products Laboratory.
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Floor >18 m?Combustible cladding
or insulation might be prohibited
Cavity barriers?
Spanning a compartment wall
or floor?
Junction should maintain fire resistance of the compartmentation
Use?
Facade near boundary?
External surfaces to be Euroclass B or A2
Assembly buildings etc need Euroclass B or C
surfaces
Almost always needed
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Fire resistant room liningInternal sprinklers
Separating buildingsCavity barriers
Flame retardantsProjecting baffles
Fire resistant glazing
Options for limiting flame spread on facades
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Fire resistant room liningInternal sprinklers
Separating buildingsCavity barriers
Flame retardantsProjecting baffles
Fire resistant glazing
Options for limiting flame spread on facades
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Fire resistant room liningInternal sprinklers
Separating buildingsCavity barriers
Flame retardantsProjecting baffles
Fire resistant glazing
Options for limiting flame spread on facades
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Generally there are no restrictions on the reaction to fire class of timber cladding.
Tar coating
Flame retardants can improve the reaction to fire class of timber if needed.
Fire resistant room liningInternal sprinklers
Separating buildingsCavity barriers
Flame retardantsProjecting baffles
Fire resistant glazing
Options for limiting flame spread on facades
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Reaction to fire classes – indicative transposition
BS EN13501-1
BS 476series
Examples*
A1 Non combustible Inorganic materials
Limited combustibility
Products with small % of organic materials
A2
B O Flame retardant treated timberC 1, 2 or 3
D or E 4 or 5 Timber with no flame retardant treatmentUntested productsUnclassifiedF
* Classification is affected by assembly conditions
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Exterior walls non-combustible < 3 m
Internal sprinklers
Euroclass B timber
Parapets not eaves
Insurance criteria for school & academy buildings
Typical criteria (facades):
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Fire resistant room liningInternal sprinklers
Separating buildingsCavity barriers
Flame retardantsProjecting baffles
Fire resistant glazing
Options for limiting flame spread on facades
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Summerland fire, Isle of Man, 1973. At least 50 people died after a small external fire spread to the wall cavity.
Flames entering a cavity can extend 5 to 10 times their original height irrespective of the combustibility of cavity linings
Photo: Liverpool Echo
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Cavity barrier to block fire spread
Ventilated cavity to promote drying
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Horizontal cavity barriers: use
intumescent strips with specified fire
resistancePhoto: Tenm
at
Vertical cavity barriers do not need through-
ventilation: use timber battens ≥ 38 mm thick
(Non-combustible barriers needed above 18m)
Plan section
≥ 38 mm Cavity barriers for timber rainscreens
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Interior Interior
Exterior
e.g. mineral wool batt
e.g. 2 solid timber cavity
barriers≥ 38 mm wide
Fire resistance of separating wall and floor junctions must be maintained
Cavity barriers for timber rainscreens
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Plan section
InteriorInterior
Inte
rior
Exterior
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References1. BS 8605-1:2014. External timber cladding. Part 1: Method of specifying. London: BSI.
2. BS 8605-2 (in prep.). External timber cladding. Part 2: Code of practice for design and installation. London: BSI.
3. STRAUBE J. and BURNETT F. (1999). ‘A review of rain control and design strategies.’ In: J. Thermal Insulation and Building Envelopes. July 1999: 41-51.
4. NASH G. (1995). Timber-framed buildings in Wales. Cardiff: National Museum of Wales.
5. NORE K (2009) Hygrothermal performance of ventilated wooden cladding. PhD thesis. Trondheim: Norwegian University of Science and Technology.
6. DAVIES I., FAIRFIELD C., STUPART A. and WILSON P. (2011). ‘Moisture conditions in timber cladding: Field trial data’. In: Proc. Inst. Civ. Engnrs., Construction Materials. 165(5), 265-279.
7. BYGGFORSKSERIEN (2008) Exterior walls over terrain. Features and principles of construction. Building details 523.002.. Requirements and recommendations [in Norwegian]. Oslo: SINTEF.
8. DIN 68899-2: 2012. Wood preservation - Part 2: Preventive constructional measures in buildings. [In German] Berlin: Beuth Verlag GmbH.
9. BS EN 350:2016. Durability of wood and wood-based products. Testing and classification of the durability to biological agents of wood and wood-based materials.London: BSI.
10. MOORE J. (2011). Wood properties and uses of Sitka spruce in Britain. Edinburgh: Forestry Commission.
11. JONES D., DAVIES I., SHARPHOUSE P. and SUTTIE E. (2013). Grading UK grown larch for durability. IRG/WP 13-10809. IRG/WP: Stockholm.
12. BS EN 350-2:1994. Durability of wood and wood-based products. Natural durability of solid wood. Guide to natural durability and treatability of selected wood species of importance in Europe. London: BSI.
13. HUMAR M, FABCIC B, ZUPANCIC M, POHLEVEN F, OVEN P. (2008). ‘Influence of xylem growth ring width and wood density on durability of oak heartwood.’ In: Int. Biodeterior. Biodegrad. 62(4):368-371.
14. BS 8417:2011+A1:2014. Preservation of wood. Code of practice. London: BSI.
15. WOOD PROTECTION ASSOCIATION (2011.) Modified wood specification manual. Castleford: WPA.
16. BS EN 335:2013. Durability of wood and wood-based products. Use classes: definitions, application to solid wood and wood-based products. London: BSI.
17. BS EN 460:1994. Durability of wood and wood-based products. Natural durability of solid wood. Guide to the durability requirements for wood to be used in hazard classes. London: BSI.
18. BS EN 1990:2002+A1:2005 - Eurocode. Basis of structural design. London: BSI.
19. BS EN 1991-1-4:2005+A1:2010. Eurocode 1. Actions on structures. General actions. Wind actions. London: BSI
20. BS EN 1995-1-1:2004+A2:2014. Eurocode 5: Design of timber structures. General. Common rules and rules for buildings. London: BSI.
21. BRE (1992).The movement of timbers. Watford: BRE
22. BART B., KOTTHOFF I. and WEIDERKEHR R. (2009). External construction – cladding. [In German] Zurich: Lignum – Dokumentation Brandschutz.
23. BS EN 13501-1:2007+A1:2009. Fire classification of construction products and building elements. Classification using test data from reaction to fire tests. London: BSI.
24. BS EN 13501-2:2016. Fire classification of construction products and building elements. Classification using data from fire resistance tests, excluding ventilation services. London: BSI.
25. BS EN 14915:2013. Solid wood panelling and cladding. Characteristics, evaluation of conformity and marking. London: BSI.
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External timber claddingPart 2: Code of practice for design and installation
BS 8605-2: 201X
External timber claddingPart 1: Method of specifying
BS 8605-1: 2014