short course: principles of parquet and furniture
Transcription
short course: principles of parquet and furniture
European Coatings Conference, 4 – 5 February 2014, Düsseldorf, Germany SHORT COURSE: PRINCIPLES OF PARQUET AND FURNITURE COATINGS Dipl. Chemie-Ing. Jorge Prieto, 3P International Coating Consulting Copyright Pagnosoft© - 3P Lünen Industrial Wood Coatings Global Market 2011: 1690 kt* RoW 6,00 % NAFTA 12,70 % Region Europe 30,10 % L.-America 9,70 % Asia 8,40 % China 33,10 % [kt] Europe 509 China 560 NAFTA 215 L-America 164 Asia 142 RoW 101 Europe and China / Asia are the biggest market for Industrial Wood Coatings Quelle: Bayer 2009, Irfab 2008/2009, KNG 2008, SRI-CEH 2009, Eastman 2010, DSM 2010, 3P 2013 * Deco/ Field applied Wood Flooring products are included Industrial Wood Coatings 2012 European Market by Outlet (kt) Industrial Wood Coatings (paints) Flooring 6% Joinery 23 % Furniture 71 % The Furniture market is the largest outlet for Industrial Wood Coatings in Europe Source: Bayer 2009, Irfab 2008/2009, KNG 2008, SRI-CEH 2009, Asefapi, DSM 2010, Eastman 2010, 3P 2011 * Deco/ Field applied Wood Flooring products are included European Coatings Market for Furniture 2011 by Technologies 325 kt Technologie Nitrocellulose 15% 2C-PU 34% Radiation Waterbased 19% Curing 23% Acid Curing 5% Unsaturated Polyester 4% Solventborne Polyurethan-Lacquers dominating the Industrial Wood Coatings Market Quelle: 3P 2013 [kt] 2C-PU-Lacquers 110 Radiation Curing-Lacquers 75 Nitrocellulose-Lacquers 49 Waterbased-Lacquers 62 Acid Curing-Lacquers 16 Unsaturated PolyesterLacquers 13 Furniture Coatings Market Europe by Application (volume) Wood Coatings market for Flooring Description European industrial and manually coated Wood Flooring • In all used literature a distinction is made between industrial floor coatings (factory applied) and (re-) coating of already used or freshly applied floorings (field applied / on-site) by the do-ityourselver or parquet flooring professional. Furniture Coatings Market Europe by Application (volume) Wood Coatings market for Flooring (Paints) Europe by Segment and Technology (2012) Industrial On-site (Field applied) Paint formulations Oil (oxidative curable) 0,7 % 1C water based (UV-curing) 0,2 % Acid curing 3,5 % 2C PU water based 19,1 % Alkyd enamel Oxidative 10 % Polyurethanes 10,5 % 1C water based 56 % Formulations contain Acrylic and PUDŒ s • In Factory applied coatings, 100 % UV-coatings are dominating. • The use of oxidative curing oils has grown steadily • In Europe, water based sealing systems are dominant in field applied floor coatings. Ecofriendly Coating resins by technology World Consumption* 2008 – 2016 (forecast) Quelle: Bayer 2009, 3P Curve of live of different wood coatings technologies for industrial use emergence growth 1C- and 2CPolyurethane-Lacquers maturity age Unsaturated-Polyester Lacquers Acid Curing-Lacquers CN-Lacqers Radiation-Lacquers Powder Coatings (thermisch- und UV-härtend) Waterborne-Lacquers Quelle: 3P 2011 Emission behaviour of different wood coatings technologies based on 100 % clear-coat Gehalt an organischen Lösemittel [%] 100 CN Acid-Curing 2C-PU UP Radiation Curing ingredients: Formaldehyde Isocyanate Styrene Monomers 80 70 Waterborne Lacquers 50 0 Quelle : J.Prieto, J. Keine, Holzbeischichtung 70 10 Solvent content [%] 10 5 Industrial Wood Coatings Segmentation by end-use applications Industrial Wood Coatings Interior Exterior Joinery Joinery Window frames Window frames Doors / Panels Doors / Panels Furniture Flooring Assembled for offices Solid wood parquet Assembled for residential homes Multilayer hardwood flooring Garden furniture Cladding shutters Skirting boards Quelle: 3P 2011 Flat stock for self assembled furniture Kitchen and bathroom cabinets Coated Laminate Raw materials for Stains (indoor) Solvent- und waterborne wood stains Organic dyes Pigments Resins Wood-Stains Quelle : J.Prieto, J. Keine, Holzbeischichtung thixotroping agent, thickenerr, neutralisation medium Additivee defoamer, silicone oils, dispersing agents Typical roller coat application processes for wood stains ….. A 1 2 3 ….. B 1 2 4 3 C ….. 1 2 5 2 5 3 1 Single roller coater with foamed rubber roller 2 Conveyor belt and evaporation zone 3 Jet dryer 60 – 80 ˚C air circulation temperature 4 Ejector brushes (2) 5 Single roller coater with a hard roller for stain application 6 Single roller coater with a hard roller for UV-coat application 7 UV-Tunnel with two mercury lamps (80 W/cm) 8 Sanding machine 9 Dust removal installation D ….. 3 E ….. 6 2 Quelle : J.Prieto, J. Keine, Holzbeischichtung 7 8 9 2 5 3 Typical roller coat application processes for wood stains Foamed rubber roller Quelle : J.Prieto, J. Keine, Holzbeischichtung General composition of cellulose nitrate wood lacquers Cellulose nitrate Resins plasticizer CN-Lacquers Quelle : J.Prieto, J. Keine, Holzbeischichtung Pigments / filling material Additives Solvents Molecular structure of cellulose and cellulose nitrate OH CH2OH O OH O O OH OH O O OH CH2OH Quelle : J.Prieto, J. Keine, Holzbeischichtung OH CH2OH O O OH OH O O OH CH2OH OH CH2OH O OH O O OH CH2OH O General composition of acid curing lacquer (AC-Lacquer) Resins Alkyd resins Cellulose nitrate Amino resins Urea- und Melamine resins AC-Lacquers Organic solvents Esters, Ketones, Aromatics, Alcoholes Acid Para-Toluenesulfoneacid Base Lacquer Quelle : J.Prieto, J. Keine, Holzbeischichtung Hardener Pigments, Filling materials, Matting agenst, Thixotroping agents Additives Anti foaming agents, Silicone oils, Amines, plasticizer Renewable Raw Materials – oxidative curable Structure of long oil alkyd resins Triglycerids fatty acid phthalic acid Renewable Raw Materials – oxidative curable Source: P-Marie Baudoin, Vandeputte Oleochemicals, Industrial applications of linseed oil and industry outlook Renewable Raw Materials Quelle: P-Marie Baudoin, Vandeputte Oleochemicals, Industrial applications of linseed oil and industry outlook Renewable Raw Materials Comparison of color between blown and stand oil Quelle: P-Marie Baudoin, Vandeputte Oleochemicals, Industrial applications of linseed oil and industry outlook Renewable Raw Materials Application line for oxidavtive curing oils Renewable Raw Materials General chemical resitances of oxidavtive cured oils Renewable Raw Materials Requirments for oil surfaces „Antique-like effects upon solid oak“ trends 2013/2014 colouring trends oak natural Quelle Bilder: 3P bright medium dark General composition of UP-Lacquers (unsaturated Polyester) Unsaturated polyester resins Reactive thinner Styrene, Vinyltoluen Pigments, filling materials, matting agents, thixotroping agents Paraffine wax melting range between 50 – 60 ˚C UP-Lacquers Initiator Peroxide Base coat Quelle : J.Prieto, J. Keine, Holzbeischichtung Hardner Accelerators e.g. Cobalt salts Accelerator Additives Anti foaming agents, Silicone oils, inhibitors Principle polycondensation to produce unsaturated Polyester HOOC COOH - H2O O O + HO OH + O Maleinsäure Propylenglykol-1,3 o-Phthalsäure O O O R O O Quelle : J.Prieto, J. Keine, Holzbeischichtung O O O R O O O O Workflow to produce high gloss surfaces with unsaturated polyester resins for car interiors (wood veneer) Day 1 Sanding and wood staining Day 2 Isolation of the wood ingredients 2C-PU-Lacquer coat with a patina (3 – 20 h) Day 3 Application of the UP-Lacquer (unsaturated Polyester) 4 – 10 layers (spraying process). Each layer approx. 200 g/m 2 (wet). The total amount is 700 – 800 µm (dry). Day 4/5 Drying / Curing The drying time should be 24 to 48 hours (23 °C/50 % rel. Air humiditiy) Luftfeuchte). Day 6 Sand of the Polyester surfaces Graded sanding to get a flat surface. Day 7 Polishing It is necessary to polish the surface to get the high gloss effect. Quelle : J.Prieto, J. Keine, Holzbeischichtung Different curtain coater application processes for unsaturated polyester Lacquers Cobalt paint RT 1. Active base coat process 80-450 g/m2 ca. 15 g/m2 Co- paint Peroxid-paint 2. Double head - (1:1) process Cobalt- paint Peroxide- paint Per unit 125 g/m2 Approx.. 15 Min RT per unit 125 g/m2 Co-paint 3. Sandwich-process Co- paint Peroxid-paint RT 200 g/m2 100 g/m2 4. Reverse- (4:1) process Co- paint, Peroxid-paint 400 g/m2 100 g/m2 10-20 Min. 200 g/m2 RIM-Process (Reaction Injection Molding) depot depot dosing machine mixing chamber tool moulding Quelle: BayerMaterial Scienes General compositon of 2C-PU-Lacquers Resins Polyacrylate Polyester Alkyd resins Organic solvent Ester, Ketone, Aromatics Pigments, filling materials, matting agents, thixotroping agents Cellulose acetobutyrate Cellulose nitrate Base coat Hardner 2-C-PU Lacquer Polyisocyanates Quelle : J.Prieto, J. Keine, Holzbeischichtung Additives Anti foaming agents, Silicone oils, catalysts Amines, plasticizer, water scavengers Examples of different polyisocyanates Quelle : J.Prieto, J. Keine, Holzbeischichtung Polyaddition to produce polyurethane lacquers Allgemeine Zusammensetzung von 2K-PUR Holzlacken + NCO OCN OH HO Diol Diisocyanate O O O N O H H Polyurethane Quelle : J.Prieto, J. Keine, Holzbeischichtung O N O High-gloss Lacquer Base coat withe 2C-UP or 2C-PU-Filler Top-Coat pigmented 2C-PU (Spraying process) Optional : Isolation and stabilisation of the milled edges and interior 2-C-PU-Isolation profile 2-C-UP-Filler white (styrene) 300 – 500 g/m² wet application in different working steps 2-C-PU-Filler white alternative 150 – 500 g/m² 1 – 3 working steps to 2-C-UP-Filler white Drying / chemical curing at 23˚C und 50 % rel. air humidity room temperature Paint sanding 400 – 500er grain High-gloss top coat 2-C-PU-Topcoat in different colours 1 – 3 application steps with intermediate drying (15 – 30 min. at 23˚C and 50 % rel. air humidity Drying / chemical curing at At least 24 – 48 hours at 23˚C and 50 % rel. Humidity room temperature Post-treatment Depending of the quality requirement Sanding and polishing of the surface Quelle : J.Prieto, J. Keine, Holzbeischichtung Application line for High-gloss 2C-PU-Lacquers (pigmented) 7. 6. 5. 1. 2. 3. 4. 5. 6. 7. Quelle : J.Prieto, J. Keine, Holzbeischichtung 4. 3. Conveyer belt Dust collection system Conveyer belt (encapsulated area) Dedusting unit with compressed air Spraying robot (encapsulated area) with 4 spraying guns Drying rack (with 6 drying zones) approx. 25 – 30 °C actual time approx. 45 minutes Conveyer belt 2. 1. General composition of water-borne lacquers Resins • Dispersions / Emulsions Reactive thinner, hardner • saturated and unsaturated Monomers/ Oligomers • Polyisocyanates Pigments, filling materials, Matting agents Water-borne Lacquer Quelle : J.Prieto, J. Keine, Holzbeischichtung Fotoinitiator and Synergists for UV-curing water-borne lacquers Additives Anti foam agents, Leveling agents, Inhibitors, Neutralisation medium, Thickner, Emulsifiers The influence of added quantity (coalescing agents for film forming of polyacrylic dispersion) 0 % addition of solvent 1 % addition of solvent 4 % addition of solvent 5 % addition of solvent microscopic imaging Stereomicroscope , 12,5 x magnification Quelle : J.Prieto, J. Keine, Holzbeischichtung 2 % addition of solvent 6 % addition of solvent Differences in Polyacrylic dispersions used for in- and outdoor applications (Wood Coatings Lacquers) Polyacrylic dispersions, used for furniture lacquers show frequently different properties to polyacrylic dispersions used for outdoor wood lacquers. • high film hardness • low elasticity • higher minimum film-forming temperature • better resistance to chemicals • varied morphology Quelle : J.Prieto, J. Keine, Holzbeischichtung Structural parameter of aqueous dispersion particles B A C D Wasser A B C D Initiator Emulsifier Protectiv colloid Polymer Quelle : J.Prieto, J. Keine, Holzbeischichtung Structural parameter Polymer properties Chemical composition Glas transition temperature (Tg) Cross-linking Molecular weight Functionalgroups colloid properties Emulsifier, type, quantity charge of the latex cover protective colloid Particle properties Particle size (50-200 nm) Particle distribution Particle morphology Particle morphology of single- and multi-phase aqueous emulsions Individual particle (hard) Individual particle (soft) Quelle : J.Prieto, J. Keine, Holzbeischichtung Core-shell particle Hemispheric particle Inverse Core-shell particle Particle with „Raspberry-Morphology“ Particle producing through gradient process The influence of the polymer structure of polyacrylate dispersions to the penetration depth in pine wood (optical microscope) Grobteilige Acrylatdispersion Feinteilige Acrylatdispersion ca. 50 nm geringe Penetration (2 Zellschichten) gute Penetration (3-6 Zellschichten) coarse-particle polyacrylic dispersion low penetration (2 cell layer) fine-particle polyacrylic dispersion good penetration (3 – 6 cell layer) Quelle : J.Prieto, J. Keine, Holzbeischichtung Structure of high molecular, acrylatefunctional Polyurethanedispersionen O + NR3 O O R H H N N H3C O COO O O O O O _ H H N N O O O O O R A B C B A A = Polyester-/Epoxy-/Urethan-/Polyesteracrylat B = Diisocyanat C = Hydrophilierung (Carboxylat-, Ammonium- oder Sulphonatgruppen) A = Polymeres oder monomeres Diol Quelle: Weikard, J., Fischer, W., Lühmann, E.: Haftung von UV-härtenden Lacken. Bayer AG Important water-borne lacquer technologies for wood coatings • 1-C-Water-borne lacquers (physical drying) non self-crosslinking mechanism (NSC) • 1C-Water-borne lacquers (physical drying and self-crosslinking mechanism) SC • 1-C-UV-curing-Water-borne lacquers, physical drying or not physical drying • 2-Component-Polyurethane-Water-borne lacquers (addition of polyisocyanate as hardner) • 2-Component-Polyurethane and UV-curing water-borne lacquers (dual cure lacquer) addition of polyisocyanate as hardner Quelle : J.Prieto, J. Keine, Holzbeischichtung Structure of polyether modified polyisocyanates (HDI-trimeric) H O OCN N O OCN Quelle : J.Prieto, J. Keine, Holzbeischichtung N N N O O O O O O O O O CH3 Structure of polyether modified polyisocyanates (HDI-trimeric) (HDI trimeric / Allophanat-Type) O OCN N O N N O OCN H O OCN N O OCN Quelle : J.Prieto, J. Keine, Holzbeischichtung O N N N N O O O O O O O O O CH3 Structure of aminosulfone acid modified HDI-trimeric H O OCN N O OCN Quelle : J.Prieto, J. Keine, Holzbeischichtung N N N N - + R O O SO3 NR3H PIC-in-polyol emulsion containing fine droplets, formulated with a waterborne 2 component PU system Quelle : Bayer MaterialScience, „Toolbox for waterborne 2C Polyurethane coating systems“ PIC-in-polyol emulsion containing coarse, non-uniform droplets, formulated with a waterborne 2 component PU system Quelle : Bayer MaterialScience, „Toolbox for waterborne 2C Polyurethane coating systems“ influencing factors in the drying of water-borne lacquers Air • Temperature Tair (t) • Humidity • Air flow velocity v Paint film • Temperature Tpaint (t) • Thickness d (t) • Formulation v Substrate • Temperatur TSubstrate (t) • Wood humidity F • Absorption characteristics (t) Quelle: Holzbeschichtung 2007, Jorge Prieto / Jürgen Kiene The influence of the heating of the substrate before coated to reduce the swelling of the wood fibre without heating High swelling Quelle : J.Prieto, J. Keine, Holzbeischichtung with heating 50 ˚C low swelling Example for an application line for pigmented 2C-PU-UV-curing waterborne lacquers Spraying line with vertical dryer cycle time approx. 25 – 50 minutes Quelle: Holzbeschichtung 2007, Jorge Prieto / Jürgen Kiene The influence of the UV-curing parameters on the coffee resistance coffee-test 2C-PU-UV-Waterborne lacquer (structured, pigmented) Base coat + 5 % hardner Applied quantity: approx. 150 g/m2 Air dryer: approx. 30 minutes 40 – 48 ˚C UV-curing: 1 x Ga-lamp + 1 x Hg-lamp half-load , object temperature 44˚C coffee-Test Applied quantity: approx. 150 g/m2 Air dryer: approx. 30 minutes 40 – 48 ˚C UV-curing: 1 x Ga-lamp + 1 x Hg-lamp full load , object temperature 52˚C General composition of UV-curing lacquers Resins, UV-curable Reactive thinner, Monomers Pigments, filling materials, matting agents, thixotroping agents UV-Lacquers Quelle : J.Prieto, J. Keine, Holzbeischichtung Photoinitiators, synergists Additives defoaming agent, silicone oils, inhibitors, stabilisers Why are the uv-curing lacquers gaining in the last years in the market? • Increasingly stringent by government regulations to solvent emissions (1999/13/EG) 31. BimSchV, EU-VOC-Regulation • Optimisation and simplification of production processes • To improve the properties of the surfaces (scratch resistance, hardness, chemical resistance History of the uv-curable lacquers 1967 introduction of the UV-PE-process in Germany through the Bayer AG company (Roskydal-UV-10) Paint formulations with paraffin based , styrene based unsaturated polyester resins („Holzpolierlacke“ wood polishing lacquer) Unsaturated polyester 65% in Styrene Styrene (Reactive thinner Benzoinisopropylether (Photoinitiator) Highly dispersed silica (thickner) Paraffin wax melting point 42-58 ˚C Quelle : J.Prieto, J. Keine, Holzbeischichtung 79,00 % 16,15 % 4,00 % 0,75 % 0,10 % ------------100,00 % Benzoinisopropylether UV-hardening methods for paraffin based, unsaturated polyester lacquers Mercury low pressure lamps UV-Paraffin-Polyester „UV-Angelierung“ floating of the paraffin wax to the surface 500 µm Substrate Substrate Mercury high pressure lamps cured paint film UV-curing Substrate Quelle : J.Prieto, J. Keine, Holzbeischichtung Substrate Unsaturated polyester acrylates OH O HO R 1 C O n R 2 OH + OH-functionell Polyester O Acrylic acid O O O O C O nR 2 O R1 2 + 2 H2O Unsaturated polyester acrylate - hardness/elasticity Hard or elastic are possible Hard and elastic is limited Pendel hardness (König) in [s] Unsaturated polyester acrylates • a wide range of properties • In most cases you need reactive thinner to reduce the viscosity • low cost resins • The main application are paints for wood, paper, printing inks ect. Polyether acrylates reaction equation to produce polyether acrylates HO O Polyether OH + 3 O H OH - 3 H 2O acrylic acid O O Polyether O O O O Polyether acrylatee Amine modified polyether acrylates (Michael-Addition) O O O Polyether O O Polyether O + H O O O O O N H O R O O Polyether O O O N O R O Polyether O O O O O Polyether acrylates • In comparison to polyester acrylates lower viscosity and molecular weight • Oligomers with lowest viscosities • processing without reactive thinner possible • High uv reactivity and low viscosity Epoxy acrylates Synthesis of epoxy acrylates OH O + R O O Epoxid O 2 HO OH O R O Acrylic acid O Epoxidacrylat wobei R beispielsweise = O O n OH O O Epoxy acrylates • Aromatic epoxy acrylates dominating the market • Makes possible to formulated very high uv reactive lacquers with high hardness and very good scratch resistances • High viscosity need reactiv thinner • Very good adhesive strenght and exellent wetting behaviour of pigments Range of properties aromatic epoxy acrylates hardness uv reactivity Reaktivität Härte elasticity 10 8 Elastizität 6 Chemical resistance Chemikalienbeständigkeit 4 toughness 2 Zähigkeit 0 Viscosity spectrum Viskositätsspektrum Abriebfestigkeit Haftung abrasion-resistance Adhesive strenght Urethane acrylatee O NCO HO R OH + + 2 2 HO O NCO Toluylendiisocyanat TDI Polyol O O Hydroxyethylacrylat H N O H N O O O HN O R O O NH O O O Urethane acrylates • a wide range of properties • very good toughness, chemicalresistance and good adhesive strength • very good abrasive resistance and flexibility • special to formulated lacquers for e.g. pvc flooring, parquet, printing inks, leather coatings and for plastic coatings • suitable for oudoor (aliphatic typs) Formulation of an UV-Topcoat for parquet (roller coater) Formulation 57,5 20,0 10,0 6,0 2,0 1,5 3,0 clear coat: Polyester acrylate Polyurethane acrylate Reactive thinner Matting agent Wax Additives Photoinitiator Formulation of an uv base coat for parquet (roller coater) Formulation 60,0 20,0 5,0 6,0 4,0 2,0 3,0 UV-base coat: Polyester acrylate Polyurethane acrylate Reactive thinner Corundum Matting agent Additives Photoinitiator Realtime-spectroscopic measurements conversion rates of the double bonds depending from the applied quantity The influence through oxygen inhibition depending from the applied quantity Quelle: Eigene Messungen Jorge Prieto, 2009 „Sweat out“ of uncured monomers and low molecular weight compounds from oak veneer Chemical structure of the Isocyanato-Acrylate ICA 9000 Patentschrift: WO 00/39183 properties: O O O O O O O N N O Quelle: BASF SE Ludwigshafen 15 % 2 mol/kg 800 g/mol 100 % 1200 mPas (23˚C) < 0,5 % sehr gering O H H OCN NCO-Wert: DB-Gehalt: Molekulargewicht: Festkörper (nfA): Viskosität: Rest HDI: Geruch: N N O NCO 1,1 „Dual-Cure“Adhesion promoter on wood OCN OCN R OH OH R OCN R OH OCN OH UV-Angelierung R R O NH O O NH O R R O NH O O NH O Extraction results of different UV-coatings with and without Dual-Cure barrier-primer Extrakt TPGDA [mg/m2] 2500 2250 mg/m2 2000 1300 mg/m2 1500 1000 500 160 mg/m2 5 mg/m2 0 Buche UV-Decklack mit 40 % TPGDA Buche UV-Sperrgrund + UV-Decklack mit 40 % TPGDA Eiche UV-Decklack mit 40 % TPGDA Eiche UV-Sperrgrund + UV-Decklack mit 40 % TPGDA Adhesive strenght problems between a not full cured uv base coat and a 2C-PUR-Top-Coat (white pigmented) under cured UV-clear coat on MDF-substrate adhesion problems between the two layers Quelle: Jorg Prieto, 3P Cleavage products of photoinitiator (alpha-Hydroxyketones) O O . hv . HO . + HO - H. 1-Hydroxy-cyclohexyl-phenyl-ketone Hydroxy-cyclohexyl-Radikal O . HO +H Cyclohexanon O O H O Benzil Benzaldehyd Geruch nach Bittermandelöl Cleavage products of photoinitiator (alpha-Hydroxyketones) O O OH . H3C CH3 . OH + H3C CH3 1-phenyl-2-hydroxy-2-methyl-propan-1-on OH O O O OH H3C + H3C CH3 H3C CH3 O Benzil Aceton H3C OH CH3 CH3 Schematic figure Matting of coatings wet film paint shrinkage thorught solvent evaporation dryed paint film matt surface uv coating Querschnitt eines mattierten Lackfilms Cross-section through a matting paint film Quelle: Foto Degussa/Evonik Effect of the application and curing process to quality and gloss results (roller coater) surface quality (uniformity of the paint ) very good not optimum W/G/N/N Gloss high N/N W/G/W W/G/N/N N/N W/G/W W low W = N/N = G = W 1 x roller coater roller wet in wet w/w „slightly cured “ (not full curing paint film)) Degree of gloss (100 % UV-Lacquer) depending on the temperature of the lacquer and roller coater process 60 Gloss 60˚ cold substrate hot substrate 47 40 hot substrate + lacquer 39 39 38 35 34 29 26 24 25 25 23 20 0 roller coater wet/wet roll coater not full Walzen gelieren curing wet/wet Walzen roller coater not full curing a. roller coater cold substate (Gloss in relation to roller wet/wet) 100% ca. 80 % ca. 50 % - 55 % ca. 50% - 60% Application processes to coat wood pieces • Dipping process • Flow coater • Drum process • Spraying • Curtain coater • Roller coater • Vacuum process Quelle: Prieto/Kiene “Holzbeschichtung” Spraying processes in the wood coatings industry • Manual spraying stations with turnstiles or hanging of parts • Spray booth in the cycle with overhead or board conveyors • Automatic surface spraying system in continuous mode for flat components • Automatic surface spraying system (robotic spray system in batch mode ) Automatic surface spraying systems Trommeln / drum process Coatings drum to coat small pieces Walther Trowal GmbH & Co. KG Rheinische Straße 3537 D-42781 Haan Trommeln / drum process Lab drum Quelle: Jorge Prieto 3P Prinzip der Gießmaschine Principle of the curtain coater machine Depositing Gießkopf Paint supply Lackzufuhr Paint curtain Lackvorhang Feed direction Vorschubrichtung Transportband Conveyer belt aufgegossener Applied paint Lackfilm Holzwerkstück Wood substrate Paint collectors Lackauffangrinne Lackpumpe pump Paint reservoir Lackbehälter Quelle: Holzbeschichtung 2007, Jorge Prieto / Jürgen Kiene head Roller coater (unidirectional principle) Application roller Blade Dosing roller Paint Substrate Counter roller Feed direction Roller coater (unidirectional principle) Blade Application roller Dosing roller Paint Feed direction Substrate Counter roller Application process for furniture - Roller coater process Sanding Wood stain UV-base coat UV-base coat UV-top coat Sanding machine for wood Längsaggregat / Queraggregat / Queraggregat / Längsaggregat / Bürstenwalzen Anwendung: Flexible Konfiguration für furnierte Platten mit Längs- und Querfurnieren Quelle: Karl Heesemann Maschinenfabrik cross and longitudinal sanding UV-roller coater line for furniture Line speed 20 – 25 m/min maple, beech, oak, cherry veneer 1 2 3 4 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 5 6 7 8 9 10 Conveyer belt Sanding machine Dust cleaner unit Roller coater (smooth roller ), UV base coat approx. 8 – 10 g/m 2 UV-tunnel with 2 mercury lamps 80 W/cm, (not full cured) Roller coater (smooth roller), UV base coat approx. 8 g/m 2 UV-tunnel with 3 mercury lamps 80 W/cm („full curing“) Sanding machine Dust cleaner unit Roller coater (smooth roller), UV top coat Roller coater with fluted structured rubber roller, approx. 30 Shore and 80 threads per inch Wet in wet application (Pos. 10 and 11 approx. 25 – 30 g/m 2) UV-tunnel with 4 mercury lamps 80 W/cm („full curng“) Conveyer belt Quelle: Holzbeschichtung 2007, Jorge Prieto / Jürgen Kiene 11 12 13 UV-roller coater line for wooden parquet Line speed 30 – 40 m/min Parquet flooring like maple, beech, oak 5 1 2 3 5. 6. 7. 8. 9. 10. 11. 7 8 9 10 11 4 21 1. 2. 3. 4. 6 20 Conveyer belt Sanding machine Dust cleaner unit Roller coater (smooth rubber roller) UV-Primer (water based) approx. 10 g/m2 Jet dryer 80 – 90 ˚C Filling roller coater for UV-Filler, approx. 25 – 30 g/m2 UV-tunnel with 2 mercury lamps 80 W/cm („not full curing“) Roller coater (smooth rubber roller) UV base coat (Anti-abrasiv coat) approx. 10 – 12 g/m2 UV-tunnel with 2 mercury lamps 80 W/cm („not full curing“) Roller coater (smooth rubber roller) UV base coat (Anti-abrasive coat) approx. 10 – 12 g/m2 UV tunnel with 2 mercury lamps 80 W/cm („not full curing“) Quelle: Holzbeschichtung 2007, Jorge Prieto / Jürgen Kiene 19 18 17 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 16 15 14 Transport unit (curve) Roller coater (smooth rubber roller) UV base coat (sanding base coat) approx. 10 g/m2 UV tunnel with 3 mercury lamps 80 W/cm („full curing“) Sanding machine Dust cleaner unit Roller coater (smooth ruber roller) for UV top coat, approx. 5 – 8 g/m2 UV tunnel with 2 mercury lamps 80 W/cm („not full curing“) Roller coater (smooth ruber roller) for UV top coat, approx. 5 – 8 g/m2 UV tunnel with 4 mercury lamps 80 W/cm („full curing“) Conveyer belt 13 12 Testing of furniture surfaces 1. Appearances: Leveling, homogeneity, matting effect, pore wetting, brilliance, structure, gloss 2. Mechanical: scratch resistance, stress due to shock (Impact-test), abrasion resistance, adhesive strength (Cross-cut or Coin-test) 3. Chemical: EN 12720, humidity and dry heat, cigarette ash 4. Test chamber: Emission/VOC-, Cold-check-Test, Yellowing (Xeno-, Sun-Test), Weatherometer Test standards for furniture surfaces Test standard: No. DIN 68861-1:2011-01 Furniture surfaces Part 1: resistance to chemical attack DIN 68861 Part 2 Furniture surfaces - Part 2: Behavior at abraison DIN EN 15185 DIN 68861 Teil 4 Furniture surfaces - Part 4: Behaviour at scratches EN 438 Part 2 Determination of the resistance against cigarette burn acording to EN 438 part 2 EN 15187 Light fastness according to EN 15187 DIN EN 12720 Furniture Stain resistance according to EN 12720 (resistance against cold liquids) DIN EN 12721 Furniture Resistance against wet heat according to EN 12721 DIN EN 12722 Furniture Resistance against dry heat according to EN 12722 DIN EN 13501-1: Fire classification of construction products and building elements – Part1 2010-01 IOS-MAT-0066 This specifications describes the IKEA minimum requirements on surface coatings and coverings in respect of chemical content, physical properties, visual qualities and documentation. Quelle : J.Prieto, J. Keine, Holzbeischichtung Stain resistance according to EN 12720 (resistance against cold liquids) Quelle : J.Prieto, J. Keine, Holzbeischichtung Abrasion resistance according to EN 15185 Quelle : J.Prieto, J. Keine, Holzbeischichtung Light fastness according to EN 15187 Quelle : J.Prieto, J. Keine, Holzbeischichtung Example for a test device for determination of light fastness according to EN 15187 Quelle : J.Prieto, J. Keine, Holzbeischichtung Thank you! 3P International Coating Consulting Kreisstraße 68 – 44532 Lünen Tel.: 02306-927000 - Mobil: 01632930778 E-Mail: Jorge.Prieto@3P-ICC.com – www.3P-ICC.com Copyright Pagnosoft© - 3P Lünen