Products finishing isotropic mass finishing article january 2015 final
Technological Advances in Wood Finishing -...
Transcript of Technological Advances in Wood Finishing -...
© Confidential to Paprican Member Companies and their employees
September 2010
Technological Technological Advances in Wood Advances in Wood
FinishingFinishing
Véronic Landry
Research Scientist, Ph.D.
2September 2010
Overview of the presentationOverview of the presentation
• Introduction– Main drivers for new developments in wood finishing
• UV-cured coatings– New developments in UV-cured coatings
– New equipments (portable, new ovens, new UV lights, etc.)
• Water-based coatings– Comparison with solvent-based coatings
– Grain Raising
• Solvent-based coatings
• Bio-based coatings
• Nanotechnology in wood finishes
3September 2010
Main Drivers for Main Drivers for DevelopmentsDevelopments in Wood in Wood FinishingFinishing
1. Increase productivity and decrease man labor
2. Improve the performance of the products in order to
compete with other markets (metal, plastic, etc.)
3. Comply to new regulations on volatile organic
compounds (VOC) and hazardous air polluants (HAP)
4. Get green certifications (Green Guard, LEED, Green
Seal, etc.) in order to keep or to find new markets
4September 2010
UVUV--curedcured coatingscoatings
5September 2010
General information about UV General information about UV highhigh solidssolids (100%) (100%) coatingscoatings
Substrate
Coating
SubstrateDrying
Substrate
Coating
SubstrateCuring
Conventional Coatings
UV high solids or 100% Coatings
The thinner is a reactive one (acrylate monomers). The monomers will react with the
oligomers (resin) to form the final coating film.
100 % solids doesn’t means that it’s a solid coating. It is a liquid coating, but 100 % of the
liquid participates to the curing reaction (no loss)
6September 2010
BenefitsBenefits of UV of UV highhigh solidssolids (100 %) (100 %) coatingscoatings
• Curing is extremely fast !
• Mechanical, chemical and thermal properties are great
• No racking (directly to packaging or assembling)
• Not flammable (lower insurance premium)
• Small footprint (UV ovens take 1/10 of thermal ovens)
• Nearly zero VOC (less paperwork)
• No grain raising
• Energy consumption is low (25-35 % less than with thermal drying)
7September 2010
ExampleExample: Total : Total DoorDoor, MI, MI
• Highly customized doors, every shape
and size;
• Large flat products and complicated size
products;
• Why changing for UV coatings :
– faster production speed;
– reduced work in process;
– reduced manufacturing footprint;
– reduced energy costs;
– reduced quality costs;
– cleaner – no VOCs or HAPs;
– cleaner and safer work environment
Source : Radtech UV & EB Expo, Batimore
8September 2010
ExampleExample: Total : Total DoorDoor, MI, MI
UV robotic: read the size, the
shape and the length of the door
*Notes:
Delivery time was decrease from 6-8 weeks to 4 weeks (goal: 2)
Can apply the old and the
new coating system
Source : Radtech UV & EB Expo, Batimore
9September 2010
SomeSome limitations of UV limitations of UV highhigh--solidssolids coatingscoatings
• Difficult to obtain an open-grain look
• Adhesion is low on oily wood, thermo-modified wood,
ect. (skrinkage is about 2-6 %)
• Viscosity is high (spray applications are difficult,
even if possible, they sometimes lead to orange
peel)
• Difficult to control film thickness
Possible solution: UV WaterPossible solution: UV Water--basedbased CoatingsCoatings
Ex.: oily wood, Bocote
10September 2010
BenefitsBenefits of UV waterof UV water--basedbased coatingscoatings
• Open-grain look (ex. Oak cabinets)
• Allow a lacquer-look finish
• Excellent « block resistance » vs traditional
water-based coatings
• Excellent adhesion
• Superior water, chemical resistance than
traditional water-based (cross-linking)
UV water-based coating
UV high solids
coatings
11September 2010
Drawbacks of UV waterDrawbacks of UV water--basedbased coatingscoatings
• Drying time (compare to UV 100% solids)
– One more step: water evaporation
• Capital investment is more important
– Need to have an infrared, thermal or microwave oven as well as a
UV oven
• Like all UV coatings, curing of 3D components is challenging: How
to cure shadow areas ?
12September 2010
3D3D--curingcuring (for (for edgesedges and profiles)and profiles)
Lamps Lamps
Mounted Mounted
inclined to inclined to
ConveyorConveyor
Ex.: Wood moldings or kitchen cabinet panels
• The wood moldings lie flat on a horizontal conveyor as they move past several UV lamps
positioned at a variety of angles to adequately expose all top surfaces of the different shaped
parts.
13September 2010
Portable Portable equipmentsequipments for UVfor UV--curedcured coatingscoatings
For in plant touch up, flooring, kitchen cabinets, guitars, furniture,
etc.
Source : Radtech UV & EB Expo, 2010
14September 2010
3D3D--curingcuring ((smallsmall parts/parts/moldingsmoldings))
Three dimensional kit cures parts up to 20”
wide X 40” High in 2-6 minutes
15September 2010
3D3D--curingcuring (UV(UV--roboticrobotic curingcuring))
A single robotic UV lamp cell is less
expensive than multiple fixed lamps
Lower Operating Cost - Save on
energy, UV lamp spare parts
Perfect for UV Curing Lines With
Mixed Product - Cure every part as
they come down the line
Source: UV Robotics, http://www.uvrobotics.com/
16September 2010
AnotherAnother solution: Dualsolution: Dual--cure UV cure UV coatingscoatings
• Dual-cure UV coatings are coatings
that polymerized under UV light
AND temperature (UV/PUD).
• The additional crosslinking-reaction
guarantees sufficient surface
properties even on areas with low
UV-dose.
• Example of Applications:
– Wood chairs
– Sun shine cure coatings (even
the shadow areas will cure)
Source: Bayer Material Science
17September 2010
WaterWater--basedbased CoatingsCoatings
18September 2010
WaterWater--basedbased CoatingsCoatings
MAIN BENEFITS
• VOC levels are low, typically
around 1 pound per gallon.
(compared to 5+ pounds for a
cat. varnish)
– VOC comes from co-solvents used
for a good coalescence, adjusting
the drying time, good film
properties
• Better work environment
MAIN DRAWBACKS
• Drying time (longer and variable
according to the humidity)
• The appearance
• The grain raising
• Performance ?
19September 2010
WaterWater--basedbased vs vs solventsolvent--basedbased coatingscoatings
• Solvent-based systems show a better resistance to food stains(exception : water-based polyurethane)
• Hot box test (50oC and 70% HR for 24 hours):– None of the systems under study has demonstrated a change in color visible to the
naked eye
– Significant reduction in gloss for 4 of the 7 solvent-based systems
• Resistance to temperature changes:– None of the systems under study has demonstrated a change in color visible to the
the naked eye (except solvent-based post-catalyzed lacquer).
• Adhesion of water-based coatings comparable to that of solvent-borne coatings
• Accelerated aging: good color stability over time for water-basedcoatings
20September 2010
How to How to limitlimit the Grain the Grain RaisingRaising ??
• Surface Preparation– A better sanding (less fragments of
fibers at the surface) leads to a lower grain raising
– Planing leads to a less important grain raising than sanding
• Wood humidity– Optimal humidity for interior
products is around 8 %. A more important humidity lead an highergrain raising and darker colors.
• Drying time– The more important is the drying
time, the more important will be the grain raising.
µm
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
5
10
15
20
25
µm
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
5
10
15
20
25
21September 2010
Grain Grain RaisingRaising -- QualityQuality of the of the sandingsanding
Poor sanding (high concentration of debris): High Grain Raising
Good sanding (no debris at the surface): Low Grain Raising
22September 2010
BioBio--basedbased coatingscoatings
• Bio-based coatings are coatings prepared from renewable raw materials.
– Renewable raw materials: Can be regenerated by natural processes at
rates comparable to or faster than rates of consumption by humans.
• Ex.: Soy, linseed, cellulose, lipids (oil, fat), starch, proteins, lignin,
hemicelluloses
• Why ?
– Availability of unique chemical structures not available from petrochemicals,
uncertainty about long term cost/availability of oil, marketing, driven by
sustainability concept (reduced carbon footprint), etc.
23September 2010
ExampleExample of Bioof Bio--basedbased coatingscoatings
Example 1 (soy)
Example 1 (whey)
PolyWhey™ Natural Floor Finish
PolyWhey™ Natural Furniture Finish
PolyWhey® Exterior Clear Wood Finish
24September 2010
SolventSolvent--basedbased coatingscoatings
• Green Guard certification for solvent-based products (ex. Valspar)
• Low formaldehyde and lowVOC lacquers and sealers
25September 2010
WhatWhat isis «« NanotechnologyNanotechnology »» ??
Mountain 1 km Children 1 mAnt 1 mm
Bacteries 1 µm Molecules 1 nm
26September 2010
WhyWhy usingusing NanoparticlesNanoparticles ??
27September 2010
ExamplesExamples
Source: Mirage Hardwood Floors, Graffiti Magic
NewPro-Nano Wood
NewPro-Nano Wood is an aqueous inorganic-organic
coating material for untreated wood based on
chemical nanotechnology. Self-organizing anti-
adhesive components offer untreated wood surfaces
an invisible layer with hydrophobic and oleophobic
(water, grease and oil repellent) characteristics.
28September 2010
SomeSome usefuluseful linkslinks
• CEFLA Finishing Group: http://www.ceflafinishinggroup.com/it
• UV III Systems: http://www.uv3.com/
• Dubois Equipment: http://www.duboisequipment.com/
• UV Robotics: http://www.uvrobotics.com/
• Fusion UV lights: http://www.fusionuv.com/
• Ecoprocote: http://www.ecoprocote.com/
• Ecology Coatings: http://www.ecologycoatings.com
• Defy Stain: http://www.defystain.com/defy-extreme-stain.html
• NewPro Nano Wood: http://www.g-pro.com/English/450/6.htm
• Phoseon: http://www.phoseon.com/
• Clearstone Technologies: http://www.clearstonetech.com/2.html
• Superfici: http://www.superficiamerica.com/
29September 2010
Thank youfor your attention!
To contact me :Véronic Landry
Tel: (418) 659-2647 (3325)Fax: (418) 659-2922