AIA Continuing Education Program

1. www.woodfloorrg.com
Wood Floor Resource Group is a Registered Provider with The
American Institute of Architects Continuing Education Systems.
Credit earned on completion of this program will be reported to
CES Records for AIA members. Certificates of Completion for non-
AIA members are available on request.
This program is registered with AIA/CES for continuing
professional education. As such, it does not include content that
may be deemed or construed to be an approval or endorsement by
the AIA of any material of construction or any method or manner of
handling, using, distributing, or dealing in any material or product.
Questions related to specific materials, methods, and services will be
addressed at the conclusion of this presentation.

2. www.woodfloorrg.com
Essentials of
Specifying
Wood Flooring
www.woodfloorrg.com

3. Copyright Materials
This presentation is protected by US and International
copyright laws. Reproduction, distribution, display and
use of the presentation without written permission of the
speaker is prohibited.
Wood Floor Resource Group 2007
www.woodfloorrg.com

4. Learning Objectives
 Understand the fundamental characteristics of wood as a
material: sources, types, hardness, stability, etc.
 Understand the essentials of wood flooring: species,
formats, performance issues, common pitfalls, etc.
 Understand the pros and cons of solid vs. engineered wood
flooring

5. Where Wood Comes From – Recycled/Salvaged/Reclaimed
< Recycled
(Pre-Consumer/Post-
Industrial)
Wood pieces or
fiber that are
manufacturing by-
products
Example: Sawdust
< Reclaimed
Previously manufactured wood
products
Example: Building
deconstruction
< Salvaged
Logs
Examples: Urban Forest,
Agriculture, Waterways,
Deadwood

6. Where Wood Comes From – Forests & Plantations
Some well-managed, some not
Teak plantation Natural forest
Want to know more?
“Wood Flooring for Green Building”

7. Hardwoods vs. Softwoods
 Hardwoods come from
broad-leaf trees
deciduous
 Softwoods come from
needle-bearing trees
coniferous
Most hardwoods are harder than most softwoods, but
there are soft hardwoods and hard softwoods.
 the Janka hardness of red oak (a hardwood) is 1290
 the Janka hardness of balsa (a hardwood) is 75
 the Janka hardness of Australian Cypress (a softwood) is 1375 !

8. How Trees Grow
Medullary rays

9. Growth Rings
Early Wood Late Wood Fast Growth Slower Growth

10. Heartwood vs. Sapwood
Sapwood Heartwood
S pc n u t n
a o d c io
Ha d n da d
ree n
s if e e d a
t fn d ed
Species where sapwood
c l s– n l n e
el o o gr
is desirable:
c n u t gs p
o d c in a
M peB c
a l , ir h
Species where heartwood
is desirable:
Ch r y M h g n ,
er, a o a y
Ta
ek

11. Lumber & Veneer – Plain Sawing/Slicing
Plain sawing = the most efficient way
to convert a round log into rectangular
pieces of lumber
Plain slicing

12. Lumber & Veneer – Quarter Sawing/Slicing
Quarter slicing
Quarter sawing

13. Lumber and Veneer – Rift Sawing/Slicing
Rift slicing
Rift sawing

14. Quarter- vs Rift-Sawn - Appearance
Quarter-sawn
Rift-sawn
Only species with pronounced medullary rays (oaks, maples,
sycamores, lacewood) present this difference.

15. Plain vs. Quarter-Sawn/Sliced -- Appearance
Quarter sawn Plain sawn
Quarter sawn synonyms:
• Vertical grain/VG
• Straight grain
• Comb grain
Plain sawn synonyms:
• Flat sawn
• Flat grain
Only species with pronounced growth rings will present this appearance

16. Rotary Peeling – Process & Appearance
The log is peeled by a blade and is worked A sample of veneer produced by
around the log toward the center, creating a rotary peeling.
wood veneer.

17. Wood Hardness
All wood will dent if sufficient force is applied
High heels will dent even the hardest woods
115 lb woman exerts about 2500 lbs of force via a high heel

18. Hardness Testing
Wood hardness is measured by the
Janka hardness test

19. Comparative Hardness Graph
 Industry Standard

20. The Structure of Wood
The cellular structure of wood: a big bundle of “straws”
Notice how it
looks very
much like a
sponge

21. Why Wood Moves
• All wood gains and loses moisture
• When it does, all wood expands and contracts
• The MC of wood will always equalize w/ ambient humidity
Dry Sponge
Wet Sponge

22. Differential Shrinkage
Two main dimensions on which wood moves:
2. Radially
3. Tangentially (twice as much)
R = Radial
T = Tangential
L = Longitudinal

23. Shrinkage: Different Amounts & Directions
Large shrinkage in the
tangential direction
Small shrinkage in the
radial direction
A
lumber
B
A = bark face, or sap face
B = heart face

24. Plain-Sawn Lumber More Prone to Cupping
Quarter sawn cross-section
Plain sawn cross-section

25. Quarter-Sawn Lumber is More Stable
Quarter-sawn lumber Plain-sawn lumber
Arrow thickness denotes movement amount

26. Some Species are More Stable than Others
Tangential Shrinkage
Species Tangential Radial
Shrinkage Shrinkage
Hard Maple 9.9% 4.8%
This 6” wide piece
Red Oak 8.6% 4.0% of Maple will shrink
10% (3/4”) in
width.
Brazilian Cherry 8.5% 4.5%
Teak 5.8% 2.5%
Values are percentage of shrinkage from green to oven dry

27. What does all this mean for wood flooring?
Water & wood do not mix well
• Wet concrete slabs or other subfloors
• Wet mopping
• Flooding

28. What does all this mean for wood flooring?
Big changes in relative humidity also a problem
Wood flooring performs best in RH ranges of 35% - 65% (typical
of house interiors)

29. What does all this mean for wood flooring?
Solid Wood Flooring:
Wood properties = performance

30. What does all this mean for wood flooring?
In conditions of fluctuating moisture, care must be taken when
using wood flooring in the following:
• Solid formats
• Plain sawn
• Wide widths
• Less stable species

31. What does all this mean for wood flooring?
• In conditions of fluctuating moisture, generally best to specify
wood flooring in…
 Engineered format – more stable in width than solid (about 50%)
Veneer face very stable because of fractures
When sawn face, cross plies help control movement
 But engineered format is generally less stable than solid lengthwise
Solid wood doesn’t move longitudinally
Cross plies move sideways and can affect lengths

32. Engineered Flooring
Engineered flooring is more complicated than solid
Many formats that perform differently in different situations
Two main components
wear layer
substrate

33. Engineered Flooring: Wear Layers
Sawn
• 2 to 3.5 mm (6 - 8 mm possible)
• Less efficient (sawdust)
• Properties same as solid wood
• Entire face moves
Veneer (sliced or peeled)
• Sliced 0.6 to 1 mm
• Peeled 1.5 to 2.5 mm
• Efficient (almost no waste)
• Knife checking/fracturing

34. Engineered Flooring: Appearance
Sawn wear layers
Same as solid
Sliced veneer
Same but slightly more repeating pattern
Peeled veneer
Rotary – whacky plywood look

35. Engineered Flooring Formats: 3-Layer
3 layer (must utilize thicker wear layer or “telegraphing” may occur)
1. Wear layer
2. Cross-slat core
3. Veneer back
Pros – least susceptible to cupping
Cons – telegraphs in super-dry and wet conditions

36. Engineered Flooring Formats: 2-Layer
2 layer
1. 2 mm or thicker sawn face
2. Plywood substrate
Pros – Not susceptible to telegraphing
Cons – More susceptible to cupping, end peaking

37. Engineered Flooring Formats: Multi-Layer
Multi-layer
1. Wear layer < 2 mm
2. Plywood substrate
Pros – Not susceptible to telegraphing
Cons – More susceptible to cupping, end peaking

38. Engineered Flooring Formats: HDF Core
HDF core
1. 2 mm or less sawn face on HDF substrate
Pros – Inexpensive
Cons – Quality of HDF = how it holds up to moisture absorption

39. Engineered Flooring – Edge/End Treatments
Edge and end treatments
• Beveled
• Micro-beveled
• Micro-eased
• Square edge
• True square
Square edge

40. Engineered Flooring – Flooring Treatments
Surface treatments and finishes
Treatments
• Smooth
• Handscraped
Finishes
• Glossy
• Matte
• Cashmere/Low-Gloss
Hand scraped wood flooring

41. Engineered Flooring – T&G Systems
Click T&G
Regular T&G

42. Installation Methods
Nail/Staple
Pros - Cheap, fast (where substrate exists), more integrity than float
Cons - No substrate, need to install one, no particle board substrate
Glue
Pros - quiet, solid, any sound, dry, flat substrate, more integrity than
float
Cons - relatively costly & labor-intensive, messy, curing time
Float
Pros - very fast, inexpensive
Cons - “Springy” feel, clicking or tapping sound

43. Installation Really Matters
The performance of wood flooring is only as
good as the installation
You need to choose the correct installation
method for your conditions and other
requirements
Consult with Bob Goldstein, WFRG Director of Technical Services
Phone: 856-705-1118
Email: bgoldstein@wflooring.com

44. Job site conditions really matter
Biggest pitfalls
• Wet slab
• No heating/ventilation

45. Common Pitfalls – Color Change
Some species dramatically change color (esp. exotics)
• With exposure to air and/or
• With exposure to light
Brazilian Cherry expected color change
Fresh>
Aged>

46. Common Pitfalls - Moisture
• Too wet:
• Swelling (and subsequent compression set)
• Lifting off the floor
• Telegraphing
• Tips up
• Too dry:
• Shrinking
• Cupping Cupped floor usually caused by a wet
subfloor
• Cracking
• Telegraphing

47. Engineered vs. Solid Wood Flooring
¾” Solid Wood Flooring 9/16” Engineered
Wood Flooring

48. Engineered vs. Solid Wood Flooring
Comparing the sandable wear surface
Engineered wear layer; 1.5 mm – 2.5 mm once, 3 mm+ twice
Solid wear surface; 3 - 4 re-sandings total

49. Engineered vs. Solid Wood Flooring
High-quality wood efficiency usage

50. Engineered vs. Solid Wood Flooring
 Solid wood flooring has to acclimate
 Engineered wood flooring does not. Result…
 T&G can be milled to tight fit, plywood “built in”
 Glue-down or floating installation
 Eliminate plywood subfloor
Save $$$ and resources!

51. Comparison of Cost Breakdown

52. Unfinished vs. Prefinished
 Solid flooring – usually unfinished, must be site-finished
 Engineered flooring – factory finish

53. Quality of Finish
Site-applied finish
• 2 or 3 coats max.
• solvent- or water-based (may off-gas VOCs)
Factory finish
• 9 coats urethane, aluminum-oxide sub-coats
• UV-cured (no off-gassing)
Site-applied finishes less durable but scratches can be
more apparent in factory finishes

54. Benefits of Screening/Top-Coating
• Relatively quick/inexpensive - $.75 - $1.75/sq. ft.
• Repairs most signs of wear
• Creates uniform look
• Seals surface of floor
• Chemical system doesn’t require mechanical sanding
Bona Prep Recoating Adhesion System
Basic Coatings “TyKote” Sandless Recoating System
• Can be repeated indefinitely
Bob Goldstein: “Remember, you walk on the finish, not the wood!”
Phone: 856-705-1118
Email: bgoldstein@wflooring.com

55. Wood Flooring in Commercial Applications
Factors affecting how well wood flooring performs
in demanding commercial applications:
Pick the right product for the application and site
conditions in terms of:
 Format
 Species
 Finish
 Hardness
Pick the right installer and installation method
Care and maintenance over the life of the floor

56. Wood Hardness
High traffic = harder woods
Industry Standard 

57. Care & Maintenance
• Humidity/moisture issues
Operate a humidity control system
Clean up spills quickly—DON’T wet mop
• Use recommended cleaners
Bona Swedish Formula Hardwood Floor Cleaner
Basic Coatings Cleaner
• To remove scratches
BonaKemi fill stick and marker touch-up kit

58. Wood Flooring Care and Maintenance Guidelines

59. Other Considerations
Budget
• Least expensive installed product is generally multi-ply or HDF-
backed engineered flooring
On- or above-grade or below-grade
• Engineered only below-grade
Subfloor material and condition
• Engineered often used over concrete, almost always over radiant
heat
$

60. Environmental Issues
• LEED compliance
• Forest certification
• Plantations vs. Natural Forests
• Recycled/Reclaimed/Salvaged
• Rapidly Renewable
• Regional Sourcing
• Offgassing/IAQ
Wood Flooring for Green Building

61. www.woodfloorrg.com
Thank you!
Questions??
www.woodfloorrg.com