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Presented By
Dr. Mark D. Hagel, PhD., P.Eng
Executive Director at the Alberta Masonry
Council
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PhD. in civil engineering, BSc. in civil
engineering and a BSc. in actuarial science and
applied mathematics, all from the University of
Calgary.
Technical Services Engineer for CCMPA
Building envelope and Structural Engineer at
Halcrow Yolles (certified EIFS inspector)
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Depending on the building environment, wood
has been shown to be an appropriate building
material for single family residences, where
sloped roofs and a limited number of stories keep
the environmental and structural loads relatively
small.
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Segregated dwellings and limited height reduce
the fire risk and decrease noise transmission to
adjacent dwellings.
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Wood’s suitability for multi-family mid-rise
residences, which have a significant increase in
their structural and environmental loads fire
safety risk and noise generation (occupant
comfort) requires much more detailed design,
construction and inspection.
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Wood treatments such as Pinkwood are
addressing this but these treatments are relatively
recent developments.
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Current design and construction practice of low to
mid-rise multi-family residences have led to
several building envelope failures in Alberta.
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We will investigate the building science behind
these failures and methods to mitigate
penetrations of the building envelope.
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The Report Confirms many of the issues with
Building Envelope in low to mid-rise multi-family
residential buildings.
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Some Shoddy construction with inadequate stucco
depth.
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Recommendations that trade certification for
uncertified trades such as wood-framers, stucco
installers, etc.
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The report does not identify some of the other
failure mechanisms or address the fact that stucco
clad wood-framed condominiums not built during
the boom are also failing.
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Mr. Michael Ball, associate and senior project
manager for the buildings and facilities division of
Morrison Hershfield Ltd., has been involved in
building restoration projects within Calgary for the
past 10 years.
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Mr. Ball was recently quoted in the Calgary Herald
article “Calgary condo owners await solutions to long,
soggy saga - Alberta seeks new standards, consumer
protection” on May 15, 2011.
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“I could point you to at least 200 condo suites around the
city that are under restoration right now that are less than
10 years old” – Michael Ball, 2011
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“We're in the infancy of really understanding the scope of
the problem. Whether it's catastrophic or not is a matter of
whether you're living in a condo that's under restoration.”
– Michael Ball, 2011
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"I think the scope of the issue is far worse than what
industry and government are saying"– Michael Ball, 2011
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Mr. Ball further commented that due to the amount of
rain Calgary gets per year, it can take up to five years
for condo owners to notice water penetration in their
building envelope - a fact which leaves exact numbers
of affected buildings hard to determine.
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Bella Vista, Calgary
Built 2002
Complete building
envelope replacement
starting in 2010
$5 million cost to owners
Stucco cladding on wood
sheathing
PVC and asphalt shingle
roof
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Edgecliffe Estates, Calgary
Built 1990
Stucco Replacement
$10 million cost to owners
Stucco cladding on wood
sheathing
Asphalt shingle sloped
roofing
Psychrometric Chart
Determining the location of the Dew point
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From the psychometric chart it can be seen that the
condensation forms in Alberta when temperature is
approximately 4qC or below.
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Next slide confirms the average temperature in
Alberta is frequently below 4qC this frequently (at
least 6 months per year)
Average Temperatures in Alberta
Multi
ltti-family
residential
ial
all buildings
bu
uiildings with wood
od framed
ffr
d construction
– A typical example
e
Flat roofs over a large foot print
Face sealed Stucco on wood sheathing
and framing
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The insulation is usually installed on the
interior between the wood studs to increase
useable interior space
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The vapour barrier must be on the warm side
of the insulation and therefore is placed
between the stud and interior drywall finish
Typical Wall Cros
Cross
sss
s-Section
s
of stucco clad wood framed
residential wall
all
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Using 2D finite element Thermal modeling
software like THERM 6.2 the location of the
dew point within the wall can be established.
Thermal model of a wood framed
stucco clad wall (THERM 6.3.2)
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¾” Stucco
2.5 lb./yd2 self furring metal lath
½“ Plywood sheathing
5- ½“ Batt. Insulation
½” Interior gypsum
On concrete foundation
Thermal model of a wood framed
stucco clad wall (THERM 6.3.2)
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The dew point falls within the stud cavity.
Insulation between the studs means
condensation can occur and be trapped by the
insulation.
It demonstrates that on wood stud stucco clad
structures, condensation will form in the stud
cavity if warm moist air can breach the vapour
barrier.
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Typically 6mil polyethylene sheet is used for
the vapour barrier
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With a vapour barrier that is interior to the
structure, it is difficult to seal around the
beams, floor joists and services)
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Also 6mil polyethylene sheet is not self-healing
and numerous penetrations by fasteners and
services it is almost guaranteed vapour is in the
stud wall
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Mould and rot result from moisture being
trapped by insulation against the wood
framing and sheathing
This has been demonstrated by numerous
documented failures in Calgary and Edmonton
low-rise condominiums many of which are less
than 10 years old.
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Unfortunately it is not cost effective to design
buildings to be as water tight as submarines.
Water will get in to the system so we must provide a
method for water to get out.
EIFS was not initially designed to clad wood
sheathing, it was designed in post WWII Europe to
cover damaged masonry or concrete.
Masonry and concrete can store moisture without
mold or rot.
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Stucco and EIFS that do not have an unobstructed
drainage plane with through wall flashing to direct water
out of the cavity, and a vented cavity to dry out the
components trap water against the Air barrier/Water
Resistant Barrier (WRB).
The WRB is often asphalt impregnated building paper (30
minute building paper) and typically two layers. This
membrane is compromised after being saturated for 30
minutes.
Stucco is cementitious and readily absorbs and stores
water. This water can be trapped against the lath and
WRB.
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Large flat roofs are
often flashed with a
small parapet cap
flashing that does not
adequately shed
water away from the
walls increasing the
importance of a well
sealed building
envelope.
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Light-weight wood framing is not designed
structurally to support an adequate roofing system
for large foot-print flat roofs.
Single-ply roof membranes on wood sheathing are
used instead of fluid applied Built-up roof or hot
rubberized asphalt.
Flat roofs with parapets that have small parapet
flashings and no overhangs for clean lines do not
direct water away from the walls.
An unsealed envelope at the roof wall junctions can
occur.
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Plank sheathed roof decks are not monolithic and
can allow direct ingress of water if a single-ply
unprotected membrane is penetrated.
Un-protected single-ply roof membranes (TPO,
EPDM, PVC) on wood sheathing are often used
instead of built-up roof or hot rubberized asphalt to
avoid torch on to a flammable substrate.
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Poorly installed windows and doors (inadequate
adhesion between non-compatible roof membranes)
Inadequate balcony membranes (single ply).
Non hydrophobic batt. insulation in the studs stores
moisture
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Timber roof and wall sheathing that does not have
the ability to store moisture and rots or molds
Unvented wall cavities without adequate drainage
in combination with flat roofs with no overhangs
that do not shed moisture away from the walls.
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In short, residential grade design and construction
for commercial sized buildings subjected to
commercial sized environmental loads requires a
high level of attention to detail by designers,
installers and inspectors if it is to perform for the
intended 25 – 50 years.
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The construction method was first developed in
the early 1960s by the National Research Council
of Canada. In its purest form, the method is
known as PERSIST — an acronym for PressureEqualized Rain-Screen Insulated Structure
Technique.
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A superior form of building envelope design
and construction for cold climates by installing
both the air/vapour barrier and insulation
exterior to the structural framing according to
the PERSIST method.
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The exterior air/vapour envelope is:
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more easily installed as a continuous system
Insulation on the exterior provides for less thermal
bridging, alleviates water vapour being trapped in
the insulation by
Pressure equalized (vented) cavity allows moisture
to dry.
Typical Wall Cross
sss-Section in Commercial/Institutional Walls
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4” Brick
1” Air gap
3” XPS Insulation
8” Concrete Block
½” Interior gypsum
On concrete foundation
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The dew point falls on the exterior of the
building within the vented air space and
insulation.
Insulation condensation can drain and dry with
venting.
If condensation does occur it absorbed by the
masonry without mould or rot.
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Designers builders and inspectors are
confronted almost daily with new products
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It is important especially with performance
based code requirements that building
components meet all the performance
requirements and that the testing on the
component meet requirements that are relevant
to the Alberta built environment.
MILRISE CONDO FIRE – CALGARY 2009
CONDO FIRE – EDMONTON 2010
CITADEL HOME FIRES – CALGARY 2009
CITADEL HOME FIRES – CALGARY 2011
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Low to mid-rise wood-framed multi-family
residential buildings are typically not designed
to support the additional structural load of
concrete block partition walls, firewalls, and
infill walls.
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Typically Fire-rated gypsum board is used.
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Although the gypsum can resist the fire for two
hours (CAN/ULC-S102 Surface Burning
Characteristics of Building Materials and
Assemblies, ASTM E119-11a and ASTM E8411b to achieve the 2 hour rating watch what
happens when it’s subjected to fire hose water
pressure.
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Cautions with Performance vs. Prescriptive
requirement
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As was seen in the video clip the fire hose
penetrates through the wall in 37 seconds or 10
seconds for the fibre reinforced drywall.
Compartmentalization of the fire is not achieved by
gypsum and wood-studs. The destruction of the
wall can add air to the fire and increase the
intensity if the fire has not been doused.
The strength required for these sized building
requires engineered wood which use flammable
glues to achieve the strength.
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Wood-framed structures are typically not designed
to support concrete floor slabs.
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The floors are typically engineered wood floors that
burn hotter and quicker and jeopardized the lives of
both occupants and firefighters.
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Occasionally, the floors may have a thin concrete
(like Gyp-creteTM) topping for fire and noise
reduction but that topping (typically ¾” to 1-½”) will
not resist fire like the typical 4” – 6” floor slab.
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If the building is clad in vinyl siding the fire risk is
considerably amplified as this is a combustible
structure wrapped in a highly combustible
cladding.
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Fire treatments (Pinkwood) have also been
developed to address these concerns but are still in
their infancy.
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If the wood is fire treated….it is fire resistant not
fire-proof.
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Currently there is a standata in Alberta that two
hour firewalls be constructed of concrete or
masonry.
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I would encourage Alberta Building and Fire Code
decision makers to maintain this standata
especially with the impending adoption of 6 storey
wood-frame buildings.
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Concrete and Masonry are Fire proof not fire
resistant and don’t have to worry if the treatment is
going to perform in 10 years as it does today
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Design an exterior envelope – with a protected
fluid applied or SBS mod bit roof membrane and
self-healing air/vapour barrier on exterior of wall
sheathing.
Use a water resistant sheathing such as exterior
glassmat gypsum (DensGlass Gold, Glassroc, etc.)
or Treated OSB ( Pinkwood, etc.)
Use Pinkwood treated TJI joists for Fire and
mould resistance
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Use non-combustible cladding where possible
(brick, split face block, natural/manufactured
stone, Hardie)
Avoid Vinyl and wood siding.
Specify concrete block partition, infill and fire
walls (a 125mm (5”) unit fully grouted is 2hour fire rated with STC=50)
Let the structural engineers figure out how to
make block walls work with a wood-framed
structure.
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Use exterior self-healing air/vapour barrier
(Blueskin, Grace, Soprema) and exterior
insulation.
Use stucco over masonry for better moisture
management OR
Design drained cavity rain screen walls for all
stucco and EIFS applications on wood
sheathing.
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Properly tie in window and door membranes
to wall membrane
Properly flash around services, windows and
doors
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On flat roofs avoid the use of unprotected
single-ply roofing and be cautious with PVC as
it is not compatible with the typical asphalt and
silicone sealants many other building envelope
products and will require special attention to
products and substitutions.
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Use hydrophobic exterior EPS or XPS
insulation where possible and avoid batt
insulation in attic space
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Use sloped roofs where possible to increase
watershed and reduce ponding.
MASONRY MANAGES
MOISTURE, NOISE, AND FIRE!!
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2004 New Condo
Buyers in Greater
Vancouver Report by
Cement Association of
Canada.
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The cost of a concrete
condo in Vancouver is
only 10% - 15% than
the same woodframed condo.
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46% of people surveyed
in the same report would
be willing to pay 10% to
15% more for concrete
condo.
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74% of people are willing
to pay 5% to 15%
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The leaky condo crisis that struck Vancouver 15 to
20 years ago is now materializing in Alberta as
evidenced by the number of failures.
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Vancouver now requires all cladding to be drained
and requires a 5 year building envelope warranty
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Alberta is introducing a warranty – it should be 10
years because our dry climate it can take longer for
serious envelope issues to appear.
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Concrete or steel framed structure that can support a
proper flat roof system, concrete slab floors, and
concrete block infill and partition walls
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The masonry walls manage moisture and the
concrete floors and block walls compartmentalize
and insulate sound and fire.
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Self-healing air/vapour membrane (BlueskinTM Grace,
Soprema) exterior to the building structure for easy tie-in
(easier to wrap the outside of a box than the inside, selfhealing greatly reduces discontinuities from punctures
by fasteners and services)
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Extruded polystyrene (XPS) or expanded polystyrene
(EPS) insulation spray foamed at joints and penetrations.
Exterior to the building structure. This reduces thermal
bridging of the structure and services and is
hydrophobic.
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Masonry veneer – rain screen wall with a drained
and vented cavity.
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Can always stucco over the masonry if that aesthetic
is desired.
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Concrete block firewalls, partition walls, and infill
walls.
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Cast-in-place or pre-cast concrete slab floors.
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Theses elements compartmentalize fire and reduce
noise transfer.
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Protected membrane fluid applied hot rubberized
asphalt or 4-ply built-up roofing (for flat roofs).
These are Self-healing membranes. Protected SBS
mod bit is an affordable alternative.
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Extruded polystyrene insulation (StyrofoamTM
exterior to the roof structure and sloped toward the
drains (hydrophobic and great R-value)
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For sloped roofs use clay tile or rubber tile where
possible.
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Masonry is recyclable.
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Masonry often uses recycled material in its
manufacture (fly ash).
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Maintains Air Indoor Air Quality
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Is LEED applicable
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Indoor Air Quality:
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No off-gassing, toxicity or VOC's.
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Masonry does not support mould growth
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Website: https:/albertamasonrycouncil.ca.