roof system selection - a complicated problem › wp-content › uploads › 2018 › 03 ›...
TRANSCRIPT
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Building Envelope Technology
EPDM
Liquid Applied
CSPE
Built-up
PVC
Hot Rubber
Coal Tar Pitch
SBS
APP
TPO
Expanded polystyrene
Fiberglass
Mineral wool
Extruded polystyrene
Cellular glass
Wood Fiberboard
Perlite
Gypsum
Polyisocyanurate
Lightweight Insulating Concrete
?
Roof System Selection - A Complicated Problem
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Structural Decks
Concrete SteelWood
Typical Roof Assembly• Structural deck.• Insulation.
• Membrane.
The structural deck and the insulation combine to create the substrate platform f or the roof membrane.
Substrate Platform
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The Foundation OfThe Roof Membrane
Roof Insulation
Substrate Platform Functions• Resist applied loads both in-
plane and out of plane.
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Substrate Platform Functions• Resist applied loads both in-
plane and out of plane.• Prov ide the most continuous
surf ace possible for roof membrane placement.
Substrate Platform Functions• Resist applied loads both in-
plane and out of plane.• Prov ide the most continuous
surf ace possible for roof membrane placement.
• Prov ide dimensional stability:– Under extreme temperature
f luctuations.– In contact with moisture.
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Substrate Platform Functions
• Resist applied loads both in-plane and out of plane.
• Prov ide the most continuous surf ace possible for roof membrane placement.
• Prov ide dimensional stability:– Under extreme temperature
f luctuations.– In contact with moisture.
• Prov ide slope-to-drain.
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Substrate Platform Functions• Resist applied loads both in-
plane and out of plane.• Prov ide the most continuous
surf ace possible for roof membrane placement.
• Prov ide dimensional stability:– Under extreme temperature
f luctuations.– In contact with moisture.
• Prov ide slope-to-drain.• Prov ide heat f low resistance.
Substrate Platform Functions• Resist applied loads both in-plane
and out of plane.• Prov ide the most continuous
surf ace possible for roof membrane placement.
• Prov ide dimensional stability:– Under extreme temperature
f luctuations.– In contact with moisture.
• Prov ide slope-to-drain.• Prov ide heat f low resistance.• Prov ide f ire resistance.
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Substrate Platform Functions• Resist applied loads both in-plane
and out of plane.• Prov ide the most continuous
surf ace possible for roof membrane placement.
• Prov ide dimensional stability:– Under extreme temperature
f luctuations.– In contact with moisture.
• Prov ide slope-to-drain.• Prov ide heat f low resistance.• Prov ide f ire resistance.• Prov ide wind resistance.
Substrate Platform Functions
• Additional f unctions not related to the roof membrane include contributions to:– Sound reduction.– Building env elope sustainability.– LEED credits.
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1880s 1920s 1930s 1940s 1950s 1960s 1970s 1980s 1990s 2000s 2010s
Mineral Fiber
Wood Fiber Board
Lightweight Insulating Concrete
Fiberglass
Cellular Glass
Perlite Board
XEPS
MEPS
PUR/ISO
Composites
Phenolic Insulation
EPS
Pre-Insulation Era Insulation Era
Ev en the most basicmembrane sy stems
perf ormed well.
1880s 1920s 1930s 1940s 1950s 1960s 1970s 1980s 1990s 2000s 2010s
Mineral Fiber
Wood Fiber Board
Lightweight Insulating Concrete
Fiberglass
Cellular Glass
Perlite Board
XEPS
MEPS
PUR/ISO
Composites
Phenolic Insulation
EPS
Pre-Insulation Era Insulation Era
New high R-v alueinsulating sy stemswere introduced.
Problems with traditionalroof membranes
arose.
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Thermal Expansion – Concrete / High Mass
Thermal Expansion – Polyisocyanurate / Low Mass
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The Effect Of COE
• Mov ement due to higher COE of substrate material (insulation) creates strain at board joints.
• The mov ement is caused by the inherent instability of some insulation products.
• The ef f ect of this movement is distributed throughout the roof by the number of joints presented with board stock insulation.
100 squares of 4 x 8 foot board materialhas more than a half mile (3,650 linear feet) of bo ard joints!
Joints ?
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Lightweight Insulating Concrete Rigid Insulation
Roof Insulation Systems
Metal Deck Structural Slab Existing Asphaltic Membrane
Re-Roofing vs New Construction
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Existing Building Renovations
Placement of Slurry and EPS Insulation
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Existing Drain Elevations
Roof Deck / Reroof Platform
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Lightweight insulating concrete top fill
Lightweight insulating concrete slurry
Expanded polystyrene (EPS) insulation board
Components of a LWIC System
Lightweight insulating concrete top fi ll .Molded expanded polystyrene insulation board.Lightweight insulating concrete slurry.
Components of a NVS System
• Insulperm expanded polystyrene insulation board.
• High insulation value.– R=4 per inch
• Stable R-value over time.• No blowing agents.
• Not affected by water.• Lightweight material to build slope to
drain.
– 1 inch thickness = 0.1 lb / sq ft
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Lightweight insulating concrete top fill
Lightweight insulating concrete slurry
Components of a LWIC System
Lightweight insulating concrete top fi ll .Molded expanded polystyrene insulation board.Lightweight insulating concrete slurry.
Definition – Lightweight Insulating Concrete (LWIC)
“A concrete made with or without aggregate in addition to Portland cement, water and air to f orm a hardened material hav ing an ov en dry unit weight of 50 pcf or less.”
American Concrete
Institute
ACI 523.1 R-06
Guide for Cast-in-Place Low-Density Concrete
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Structural Lightweight Concrete
• What is Structural Lightweight Concrete?
– Structural concrete (normal weight)• 150 pcf dry density / 3,500 psi
– Structural lightweight concrete (SLC)• 100 pcf dry density / 2,500 psi
– Lightweight insulating concrete• 35 pcf dry density for NVS / 300 psi
Aggregate-Based LWIC
• Aggregate.
• Air entrainment.
• Portland cement - Type I, II, or III.
• Water.
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Cellular-Based LWIC
• Pregenerated foam.
• Portland cement - Type I, II, or III.
• Water.
Aggregate vs. Cellular
• Aggregate.
– 125-300 psi.
– Top-fi l l thickness 2” (or 1”).
– Drying Shrinkage.
– 0.20 – 0.45 (ACI 523.1R-06).
Cellular.
– 200 psi.
– Top-fi l l thickness 2”.
– Drying Shrinkage.
– 0.30 – 0.60 (ACI 523.1R-06).
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Top Fill Finishing
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Attachments Methods for Roof Membrane over LWIC
Different technologies for roof membrane
attachment
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Slope to Drain
Get the water of f the roof
Stable Insulation Value
What is long-term thermal resistance (LTTR)?
LTTR is a 15-year time weighted average R-value for permeably faced polyiso, commonly used as roof insulation. LTTR represents the most advanced scientifically
supported method to describe the long term thermal resistance (R-value) of polyisocyanurate foam insulation products.
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New values for 2014 for polyisocyanurate foam insulation products.
Stable Insulation Value
Iso R-Value For 2014
Substrate Platform Functions
ThicknessLTTR
(2004-2013)New LTTR(2014 - )
1 inch 6.0 5.6
1.5 inches 9.0 8.6
2 inches 12.1 11.4
3 inches 18.5 17.4
4 inches 25.0 23.6
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LWIC R-value is constant
• LWIC R-value– LTTR is not applicable
• Both lightweight insulating concrete fill and molded expanded polystyrene board have thermal resistance values that do not decrease over time.
“The R-value of EPS is stable and does not change over time. The R-value performance for EPS insulation is discussed in the report. The report shows that samples of EPS insulation had no deterioration in R-value. The test results at 70° F for thermal resistance of EPS insulation samples taken from roof systems of various ages indicated no deterioration in the R-value over time. The following table compares two examples of published R-values to samples taken from actual roof decks:”
"Report on Expanded Polystyrene Insulation for Use ASTM C 578 In Built-Up and Single Ply Roofing Systems" by Rene M. Dupuis and Jerome G. Dees, dated August 1984.”
Stable Insulation Value
Age Density R-Value
Published Initial Values
At time of manufacture.
1.00 pcf1.25 pcf
3.853.92
EPS Insulation Samples
13 Years15 Years
1.28 pcf1.09 pcf
3.944.07
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Parallel Heat Flow Concept
Gap
Membrane
Insulation
Fastener
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Fire Resistance
Lightweight insulating concrete systems are non-combustible.
UL fire resistance designs.- Cost ef fective roof-ceiling
designs.
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Wind Uplift Resistance
80 y ears of wind resistance perf ormance f or LWIC.
Comprehensiv e, current FM, UL & Dade testing and approv als.
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Hurricane Ike
Hurricanes
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10.01.1 Metal Deck Over Bar Joists
“Metal Decks ov er bar joists were generally one of two ty pes: metal deck with rigid insulation or metal deck with lightweight insulating concrete. In each of these sy stems the metal deck was attached to the bar joists by welding or by self tapping screws.
Of the two sy stem types observed, the system using lightweight concrete performed best , all other f actors considered equal.”
Documented Field Wind Performance
High Mass & Low Mass Substrates
High Mass Low Mass
• Wood.• Concrete.
• Lightweight Insulating Concrete.
• Wood fiber board.• Perlite board.
• Cellular glass.• Extruded polystyrene.
• Molded polystyrene.• Polyisocyanurate.
• Glass fiber board.
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An Ancient Concept
The Mass Effect
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Heatis the single biggest factor
in the aging ofroof membranes.
The Mass Effect
Think About It
• Rigid f oam plastic board stock insulations with high R-v alues are intended to decrease heat transf er between the interior and exterior of a building.
• They hav e less ability to absorb and release heat than traditional substrates such as wood and concrete.
• Theref ore, the roof membrane is exposed to higher heat for longer periods of time.
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Aging By Arrhenius Equation
Increasing the membrane temperature 18°F (10°C) doubles the aging rate, based on the Arrhenius Equation.
The Mass Effect Study: Thermocouple Placement
DensDeck/Polyisocyanurate Deck
X
Paradiene 30 / Paradiene 20
DensDeck
Polyisocyanurate
Metal Deck
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The Mass Effect Study: Thermocouple Placement
Lightweight Insulating Concrete Deck
Paradiene 30 / Paradiene 20
Lightweight InsulatingConcrete
EPS
Metal Deck
ParabaseX
The Mass Effect StudyThe Mass Effect
Exposure Decks
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The Mass Effect Study Results
Aging By Arrhenius Equation
• Increasing the membrane temperature 18°F (10°C) doubles the aging rate, based on the Arrhenius Equation.
• By encapsulating rigid f oam plastic board stock insulation in lightweight insulating concrete, lightweight insulating concrete sy stems provide both high insulating v alues and higher heat capacity.
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The Mass Effect Study Results
SubstratePercentage Increase
In Aging
In Relation To 1:6 ZIC
1:6 ZIC Aggregate(2 inches thick)
Baseline(Best Performer)
1:4 ZIC Aggregate(2 inches thick)
7.2%
DensDeck Cover Board (1/4-inch thick) W ith Polyiso 49.1%
Perlite Cover Board (3/4-inch thick) W ith Polyiso 53.1%
The Mass Effect Study Results
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The Damping Effect
ASHRAE Time Lag / Damping
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The Mass Effect
Goal – achiev e a balance of time lag(insulation) and temperature
damping(thermal mass).
• Metal deck.• Portland Cement.• EPS.
Siplast LWIC System Sustainable Components
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Sustainable Roofs
• Highlights Lightweight Insulating Concrete Roof Insulations.– Produces low roof
membrane temperature.
– High thermal efficiency.– More stable and durable.
Structural Substrate ZIC System Roofing STC
26 ga. Corrugated Steel2” 1:6 ZICAbove Flutes
BUR/Gravel 41
26 ga. Corrugated Steel
1” Insulperm2” 1:6 ZIC
Above InsulpermBUR/Gravel 36
22 ga. Corrugated Steel
2” 1:4 ZIC On Flutes7” Insulperm EPS
2” 1:4 ZIC Above InsulpermParadiene 20/30 43
22 ga. Corrugated Steel
2” 1:4 ZIC On Flutes7” Insulperm EPS
4” 1:4 ZIC Above Insulperm
Paradiene 20/3044
22 ga. Corrugated Steel
2” 1:4 ZIC On Flutes12” Insulperm EPS
4” 1:4 ZIC Above Insulperm
Paradiene 20/3046
4-inch Structural Concrete3” Insulperm1 ½” NVS Concrete
Above Insulperm
Modified Bitumen/Gravel
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Sound Reduction
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Structural Lightweight Concrete
• Roof ing ov er newly poured structural lightweight concrete slabs (SLC) has become an issue f or general contractors, roofing contractors, consultants and roof ing manuf acturers.
• This is a sequencing, perf ormance, and liability issue f or the roof ing contractor, roof consultant, and general contractor.
• Not a new issue.
Structural Lightweight Concrete
• This is a sequencing, perf ormance, and liability issue f or the roof ing contractor, roof consultant, and general contractor.
• Not a new issue.
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What Is The Concern?• Latent moisture in newly
poured structural lightweight concrete (SLC) creates problems.
“Moisture accumulation”
“Adhesion loss”
“Adhesive issues”
“Metal and fastener corrosion”
“Insulation R-value loss”
Lightweight Insulating Concrete LEED Contribution
LEED v4November 2013
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Lightweight Insulating Concrete LEED Contribution
PIMA Environmental Product Declaration
Lifecycle Design
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PIMA Environmental Product DeclarationLife Cycle Stages of Polyiso
Lifecycle Design
718 tons (3,184 cubic y ards of solid waste) of old roof insulation debris div erted f rom the local landfill.
Equals 15 rail cars this size of old roof insulation.
Dollar v alue of salvaged roof insulation: $133,600 (2007 dollars).
Actual landf ill disposal f ees avoided: $29,797 (2007 dollars).
Heav y vehicle transportation miles av oided: 2,120 miles / 265 gallons of f uel.
Tim G. Pennigar, Project Manager, Structural Sy stems Engineering & Operations Div ision Duke University Health Sy stem.
Sustainability
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• Original roof sy stem was lightweight insulating concrete and a two-ply, torch-applied SBS-modif ied bitumen membrane, installed in 1974.
• In the summer of 2011, test cuts showed the existing sy stem was suitable f or a re-cov er.
• The owner sav ed ov er $200,000 by not remov ing the existing insulation and membrane.
Sustainability
Application is not limited by height.
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LWIC Solution
• Plaza Deck
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LWIC Solution
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Thinking out of the box
• Lightweight insulating concrete systems.
• Phoenix Plaza, Hartf ord, Conn.
Non Roofing Applications
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Canadian Resources
Performance
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Lightweight Insulating Concrete Roof Insulation Sys tems
Innov ativ e Roof Insulation Systems
One of the oldest, most versatile, and
sustainable roof insulations on the
planet