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Wikipedia

Wood finishing

March 14, 2024

Wood finishing refers to the process of refining or protecting a wooden surface, especially in the production of furniture where typically it represents between 5 and 30% of manufacturing costs.[1][2]

A worker sprays a urethane finish onto a timber

Finishing is the final step of the manufacturing process that gives wood surfaces desirable characteristics, including enhanced appearance and increased resistance to moisture and other environmental agents. Finishing can also make wood easier to clean[3] and keep it sanitized, sealing pores that can be breeding grounds for bacteria. Finishing can also influence other wood properties, for example tonal qualities of musical instruments and hardness of flooring.[4][5] In addition, finishing provides a way of giving low-value woods the appearance of ones that are expensive and difficult to obtain.

Planning the finish edit

Finishing of wood requires careful planning to ensure that the finished piece looks attractive, performs well in service and meets safety and environmental requirements.[6] Planning for finishing begins with the design of furniture.[6] Care should be taken to ensure that edges of furniture are rounded so they can be adequately coated and are able to resist wear and cracking. Careful attention should also be given to the design and strength of wooden joints to ensure they do not open-up in service and crack the overlying finish.[7] Care should also be taken to eliminate recesses in furniture, which are difficult to finish with some systems, especially UV-cured finishes.[8]

Planning for wood finishing also involves thinking about the properties of the wood being finished, as these can greatly affect the appearance and performance of finishes, and also the type of finishing system that will give the wood the desired characteristics.[6] For example, woods that show great variation in colour between sapwood and heartwood or within heartwood may require a preliminary staining step to reduce colour variation.[9] Alternatively, the wood can be bleached to remove the natural colour of the wood and then stained to the desired colour.[10][11] Woods that are coarse textured such as oaks and other ring-porous hardwoods may need to be filled before they are finished to ensure the coating can bridge the pores and resist cracking. The pores in ring-porous woods more readily absorb pigmented stain, and advantage can be taken of this to highlight the wood's grain.[7] Some tropical woods, such as rosewood (Dalbergia nigra), cocobolo (Dalbergia retusa) and African padauk (Pterocarpus soyauxii), contain extractives such as quinones, which retard the curing of unsaturated polyester and UV-cured acrylate coatings, and so other finishing systems should be used with these species.[12][13][14]

Planning for wood finishing also involves being aware of how the finishing process influences the end result. Careful handling of the wood is needed to avoid dents, scratches and soiling with dirt.[6] Wood should be marked for cutting using pencil rather than ink; however, avoid hard or soft pencil. HB is recommend for face work and 2H for joint work.[6] Care should be taken to avoid squeeze-out of glue from joints because the glue will reduce absorption of stain and finish. Any excess glue should be carefully removed to avoid further damage to the wood.

Wood’s moisture content affects the staining of wood.[15] Changes in wood moisture content can result in swelling and shrinkage of wood which can stress and crack coatings. Both problems can be avoided by storing wood indoors in an environment where it can equilibriate to a recommended moisture content (6 to 8%) that is similar to that of the intended end use of the furniture.[7]

Finally, consideration needs to be given to whether the finished wood will come into contact with food, in which case a food-safe finish should be used,[16] local environmental regulations governing the use of finishes,[17] and recycling of finished wood at the end of its life.[18]

Sanding edit

Sanding is carried out before finishing to remove defects from the wood surface that will affect the appearance and performance of finishes that are subsequently applied to the wood.[7] These defects include cutter marks and burns, scratches and indentations, small glue spots and raised grain.[7] Sanding should not be used to eliminate larger defects such as gouges, and various forms of discolouration.[7] Other techniques are used to remove these defects (see below).

 
Large open ‘pores’ in Eucalyptus sieberi
 
Pore distribution in southern beech

The key to preparing a defect free surface is to develop a sanding schedule that will quickly eliminate defects and leave the surface smooth enough so that tiny scratches produced by sanding cannot be seen when the wood is finished.[19] A sanding schedule usually begins with sandpaper that is coarse enough to remove larger defects (typically 80 or 100 grit, but sometimes higher if the surface is already quite smooth), and progresses through a series of sandpaper grades that gradually remove the sanding scratches created by the previous sanding steps.[19] A typical sanding schedule prior to wood finishing might involve sanding wood along the grain with the following grades of sandpaper, 80, 100, 120, 150 and finishing with 180 and sometimes 220 grit.[7] The precise sanding schedule is a matter of trial and error because the appearance of a sanded surface depends on the wood you are sanding and the finish that will subsequently be applied to the wood.[19] According to Nagyszalanczy,[19] coarse grained woods with large pores such as oak hide sanding scratches better than fine grained wood and hence with such species it may be possible to use 180 or even 150 grit sandpaper as the final step in the sanding schedule.[19] Conversely, sanding scratches are more easily seen in finer grained, harder woods and also end-grain, and hence, they require finer sandpaper (220 grit) during the final sanding stage.[19] The sandpaper selected for the final sanding stage affects the colour of stained wood, and therefore when staining is part of finishing avoid sanding the wood to a very smooth finish.[7] On the other hand, according to Nagyszalanczy if you are using an oil-based finish, it is desirable to sand the wood using higher grit sandpaper (400 grit) because oil tends to highlight sanding scratches.[19]

 
Scanning Electron Microscopy of 120 grit aluminum oxide paper
 
Scanning Electron Microscopy of 180 grit aluminum oxide paper
 
Profilometry image of Yellow birch after sanding

Sanding is very good at removing defects at wood surfaces, but it creates a surface that contains minute scratches in the form of microscopic valleys and ridges, and also slivers of wood cell wall material that are attached to the underlying wood.[20][21][22] These sanding ridges and slivers of wood swell and spring-up, respectively, when sanded wood is finished with water-based finishes, creating a rough fuzzy surface. This defect is known as grain raising. It can be eliminated by wetting the surface with water, leaving the wood to dry and then lightly sanding the wood to remove the ‘raised grain’.[19]

 
Profilometry image of Yellow birch after sanding and wetting

Removing larger defects edit

Larger defects that interfere with wood finishing include dent, gouges, splits and glue spots and smears.[7] These defects should also be removed before finishing, otherwise they will affect the quality of the finished furniture or object. However, it is difficult to completely eliminate large defects from wood surfaces.

Removing dents from wood surfaces is quite straightforward as pointed out by Flexner.[7] Add a few droplets of demineralized water to the dent and let it soak in. Then put a clean cloth over the dent and place the tip of a hot iron on the cloth that lies immediately above the dent, taking great care not to burn the wood. The transfer of heat from the iron to the wood will cause compressed fibres in the dent to recover their original dimensions. As a result the dent will diminish in size or even disappear completely, although removal of large dents may require a number of wetting and heating cycles. The wood in the recovered dent should then be dried and sanded smooth to match the surrounding wood.

Gouges and holes in wood are more difficult to repair than dents because wood fibres have been cut, torn and removed from the wood. Larger gouges and splits are best repaired by patching the void with a piece of wood that matches the colour and grain orientation of the wood under repair.[7] Patching wood requires skill, but when done properly it is possible to create a repair that is very difficult to see. An alternative to patching is filling (sometimes known as stopping).[7][23] Numerous coloured fillers (putties and waxes) are produced commercially and are coloured to match different wood species. Successful filling of voids in wood requires the filler to precisely match the colour and grain pattern of the wood around the void, which is difficult to achieve in practice. Furthermore, filled voids do not behave like wood during subsequent finishing steps, and they age differently to wood. Hence, repairs to wood using fillers may noticeable.[7] Therefore filling is best used with opaque finishes rather than semitransparent finishes, which allow the grain of the wood to be seen.

 
Macro photo of 120 grit sandpaper
 
Macro photo of 220 grit sandpaper
 
Macro photo of 320 grit sandpaper

Glue smears and droplets are sometimes present around the joints of furniture. They can be removed using a combination of scraping, scrubbing and sanding.[7] These approaches remove surface glue, but not the glue beneath the wood surface. Sub-surface glue will reduce the absorption of stain by wood, and may alter the scratch pattern created by sanding. Both these effects will influence the way in which the wood colours when stains are used to finish the wood. To overcome this problem it may be necessary to locally stain and touch-up areas previously covered by glue to ensure that the finish on such areas matches that of the surrounding wood.[7]

Bleaching and removal of stains edit

Wood surfaces are occasionally affected by various organic and inorganic stains.[24] Sometimes such stains enhance the colour and appearance of wood.[24] For example, oak wood affected by the beef-steak fungus has a deep rich, attractive, brown colour[25] and there is no reason to remove the stain from the wood prior to finishing. The same applies to spalted wood whose attractive appearance is again caused by fungi. On the other hand some fungal stains and those caused by the reaction of iron with wood can disfigure wood.[24] These stains can be removed from wood using bleach.[26][27] Bleaches are also occasionally used to reduce the difference in colour between lighter sapwood and heartwood and also colour variation within heartwood.[7] Such bleaching make it easier to achieve a uniformly coloured wood when the wood is subsequently coloured with pigmented stains and dyes[7] (see below). Furthermore, the natural colours of wood fade when wood is exposed to sunlight, and more permanent colours can be created by bleaching wood to remove its natural colour and then re-colouring the wood using artificial, light-fast, stains.[7]

The bleaches used to remove unwanted fungal stains from wood include two-part peroxide bleach and solutions of sodium hypochlorite.[27] The former is particularly effective at removing the natural colour of wood before it is recoloured with pigmented stains or dyes.[27] Oxalic acid is particularly effective at removing iron stains from wood.[27]

Colouring wood edit

Wood can be stained to change its colour or left unstained before application of lacquer, or other types of top-coats. Staining should enhance the appearance of wood by reducing colour variation between and within sapwood and heartwood. It also provides a way of giving bland looking woods such as poplar, the appearance of prized furniture woods such as ebony, mahogany or walnut. Wood can be stained using dyes or pigmented finishes. These finishes are available in a wide variety of colours, many of which are not part of the natural colour palette of wood, for example, blues and greens. Pigmented stains tend to highlight the grain (and also sanding scratches), whereas dyes do not have this effect and are more transparent. Wood can also be coloured by exposing it to chemicals that react with the wood to form coloured compounds. Chemical staining of wood is rarely carried out because it is easier to colour wood using dye or pigmented stain, however, ammonia fuming is a chemical staining method that is still occasionally used to darken woods such as oak that contain a lot of tannins. Staining of wood is difficult to control because some parts of the wood absorb more stain than others, which leads to problems such as blotchiness and streaking. For this reason, as pointed out by Flexner, many people prefer to omit the staining step when finishing wood.

Basic wood finishing procedure edit

Wood finishing starts with sanding either by hand, typically using a sanding block or power sander, scraping, or planing. Imperfections or nail holes on the surface may be filled using wood putty or pores may be filled using wood filler. Often, the wood's color is changed by staining, bleaching, or any of a number of other techniques.

Once the wood surface is prepared and stained, the finish is applied. It usually consists of several coats of wax, shellac, drying oil, lacquer, varnish, or paint, and each coat is typically followed by sanding.

Finally, the surface may be polished or buffed using steel wool, pumice, rotten stone or other materials, depending on the shine desired. Often, a final coat of wax is applied over the finish to add a degree of protection.

French polishing is a finishing method of applying many thin coats of shellac using a rubbing pad, yielding a very fine glossy finish.

Ammonia fuming is a traditional process for darkening and enriching the color of white oak. Ammonia fumes react with the natural tannins in the wood and cause it to change colours.[28] The resulting product is known as "fumed oak".[29]

Comparison of different clear finishes edit

Clear finishes are intended to make wood look good and meet the demands to be placed on the finish. Choosing a clear finish for wood involves trade-offs between appearance, protection, durability, safety, requirements for cleaning, and ease of application. The following table compares the characteristics of different clear finishes. 'Rubbing qualities' indicates the ease with which a finish can be manipulated to deliver the finish desired. Shellac should be considered in two different ways. It is used thinned with denatured alcohol as a finish and as a way to manipulate the wood's ability to absorb other finishes. The alcohol evaporates almost immediately to yield a finish that will attach to virtually any surface, even glass, and virtually any other finish can be used over it.

  •  
    No finish
  •  
    Linseed oil
  •  
    Tung oil
  •  
    Tung oil and linseed oil
  •  
    Molten bee wax
  •  
    2:1 ratio of beeswax and carnauba wax
  •  
    Shellac
  •  
    Shellac and linseed oil
  •  
    Alkyd varnish
  •  
    Spar or yacht varnish
  •  
    Acrylic varnish
  •  
    Acrylic paint
Appearance Protection Durability Safety Ease of Application Reversibility Rubbing Qualities
Wax Dull, even sheen unless buffed or polished Low, short term Requires frequent reapplication Safe when solvents in paste wax evaporate Easy. Applied with cloth or brush and worked into wood, excess left to cure before buffing with a cloth for desired level of sheen. Difficult. Solvents thin wax causing it to penetrate deeper. Sanding creates heat. Scraping recommended Matte to satin finish, can to be buffed to a sheen.
Hardwax oil Matte to Satin sheen. Moderate protection and water resistance. Moderate durability once cured. May require periodic reapplication. Safe when low VOC solvents evaporate. Easy. Applied in very thin coats with cloth, pad, roller or brush. Difficult. Solvents thin wax causing it to penetrate deeper. Sanding creates heat. Scraping recommended matte to satin finish, can be buffed to a sheen.
Shellac From virtually clear (super blond) to a rich orange (garnet) Fair against water, poor solvent protection Moderate. Safe when solvent evaporates, used as food and pill coating Clogs spray equipment. Quick solvent flash time makes brushing difficult. Ox or badger/skunk hair brush recommended. Easy to pad, however French Polish is difficult Completely reversible using alcohol Excellent
Nitrocellulose lacquer Transparent, satin and gloss Reasonable protection Soft and somewhat durable Uses toxic solvents. Good protection is needed, especially if painted Moderate. Available in cans, large scale requires spray equipment. No sanding required between coats. Reversible with proper solvents Excellent soft finish
Pre-Cat lacquer Transparent, all sheens from 5% to 90% Good general protection against wet and dry heat. Meets UK and European standards for "general use". Uses toxic solvents. Spray booth is needed. Moderate. Requires spray equipment. No sanding required between coats. Non-Reversible after 5 days Excellent general furniture finish, harder than standard lacquer.
Conversion varnish or Acid-Cat Lacquer Transparent, all sheens from 5% to Gloss Excellent protection against many substances Meets UK and European standards for "severe use". Uses toxic solvents, including toluene. Moderate. Requires spray equipment. Used in professional shops only. No sanding required between coats. Difficult to reverse Excellent hard finish
Boiled linseed oil Yellow warm glow, pops grain1, darkens with age Low Low Relatively safe once cured, metallic driers are poisonous. Easy. Applied in thin coats with cloth or brush, excess wiped off. Cure time can be long. Difficult. All saturated wood needs to be removed (planing/sanding/scraping) Cures matte
Tung oil Warm glow, pops grain1, lighter than linseed Low, but has water resistance Low Relatively safe when fully cured. Pure tung oil contains no metallic dryers. Many products labeled tung oil are oil/varnish blends Moderate. Applied in thin coats with cloth or brush, excess is wiped off. First coat is typically thinned down. Partial cure is necessary as very long finishing schedule for sufficient amount of coats. Difficult. All saturated wood needs to be removed (planing/sanding/scraping) Cures hard and matte, can be buffed to a satin sheen.
Alkyd varnish Not as transparent as lacquer, yellowish/orange tint, pops grain. Good protection, also available with UV resistance Durable Relatively safe once VOCs evaporate, uses petroleum based solvents Moderate. Brush, roll or spray. Brushing needs good technique to avoid bubbles and streaks. Can be stripped using paint removers Cures hard yet flexible, gloss or satin finish.
Polyurethane oil based varnish Slight ambering, comes in a variety of sheen Excellent protection against many substances, tough finish Durable after approx. 7 day curing period Relatively safe once VOCs evaporate, uses petroleum based solvents Moderate. Applied in coats with brush, roller or sprayer. Medium curing times, sanding required between coats. Easy when thinned and wiped on. Can be stripped using paint removers Cures hard. Easy to rub out with steel wool or synthetic pads to reduce sheen, or buffed to a high gloss.
Polyurethane water-based varnish Transparent or paints,

all sheens from 1% to 80%

Excellent protection. Newer products (2009) also UV stable when noted Durable after a two-day curing period Safer than oil-based polyurethane, fewer volatile organic compounds Easy. Applied with brush, roller or sprayer. Fast drying demands care in application technique to avoid bubbles and streaks. Sanding required between coats. Can be stripped using paint removers Excellent. It finishes hard and can be buffed to a gloss. Use a release agent. A thick finish can leave a plastic feel.
2-Part polyurethane Transparent Stronger protection than regular polyurethane varnish Durable once cured, generally less than an hour low or free of VOCs, nonreactive when cured generally sprayed, equipment must be cleaned of any mixed product immediately Irreversible Sands easily. Sanding not needed between coats
Oil-varnish blends (i.e. Danish oil, Teak oil,[30] "Tung oil finish") Enhances natural figure like a drying oil, but more protective and faster drying. Low, but more than pure oil finishes. Fairly durable, but may require periodic reapplication for heavy use areas such as tables and worktops. Relatively safe once VOCs have evaporated, uses petroleum based solvents Easy. Applied in thin coats with cloth or brush, excess wiped off. Too many applications can result in sticky build up Difficult. All saturated wood needs to be removed (planing/sanding/scraping) Dries hard. can be buffed to a matte finish or to a gloss. Often top coated with paste wax for extra protection
Epoxy resin Thick, high-gloss, and transparent. Some formulations can cloud or yellow with UV exposure High level of protection Flexible and durable Safe when cured Easy pour-on application for flat surfaces, difficult to apply evenly on more complicated shapes Cleanable with acetone when liquid. Irreversible once cured flexibility makes sanding difficult but possible

1 accentuates visual properties due to differences in wood grain.

Automated wood finishing methods edit

Manufacturers who mass-produce products implement automated flatline finish systems. These systems consist of a series of processing stations that may include sanding, dust removal, staining, sealer and topcoat applications. As the name suggests, the primary part shapes are flat. Liquid wood finishes are applied via automated spray guns in an enclosed environment or spray cabin. The material then can enter an oven or be sanded again depending on the manufacturer’s setup. The material can also be recycled through the line to apply another coat of finish or continue in a system that adds successive coats depending on the layout of the production line. The systems typically used one of two approaches to production.

 
In this hangline approach, wood items being finished are moved through various finishing stages on a conveyor system

Hangline approach edit

In the hangline approach, wood items being finished are hung by carriers or hangers that are attached to a conveyor system that moves the items overhead or above the floor space. The conveyor itself can be ceiling mounted, wall mounted or supported by floor mounts. A simple overhead conveyor system can be designed to move wood products through several wood finishing processes in a continuous loop. The hangline approach to automated wood finishing also allows the option of moving items up to warmer air at the ceiling level to speed up drying process.

 
In this towline method, mobile carts move large furniture through various finishing stages on a conveyor system.

Towline approach edit

The towline approach to automating wood finishing uses mobile carts that are propelled by conveyors mounted in or on the floor. This approach is useful for moving large, awkward shaped wood products that are difficult or impossible to lift or hang overhead, such as four-legged wood furniture. The mobile carts used in the towline approach can be designed with top platens that rotate either manually or automatically. The rotating top platens allow the operator to have easy access to all sides of the wood item throughout the various wood finishing processes such as sanding, painting and sealing.

See also edit

References edit

  1. ^ Whaler, J.H. (1972). Furniture finishing textbook. Nashville: Production Publishing Company. p. 3.
  2. ^ Cox, Robert M. (2003). Building an industrial wood finish. Madison: Forest Products Society. p. 11. ISBN 978-1-892529-30-5.
  3. ^ Gibbia, S.W. (1981). Wood finishing and refinishing. New York: Van Nostrand Reinhold. p. 9. ISBN 978-0-442-24708-9.
  4. ^ Jaić, Milan, and Tanja Palija. "The impact of the top coating on the mechanical properties of lacquered wood surfaces." Glasnik Sumarskog fakulteta
  5. ^ Bongova, M.; Urgela, Stanislav (1999-01-01). "Surface coating influence on elastic properties of spruce wood by means of holographic vibration mode visualization". 11th Slovak-Czech-Polish Optical Conference on Wave and Quantum Aspects of Contemporary Optics. 3820: 103–110. Bibcode:1999SPIE.3820..103B. doi:10.1117/12.353047. S2CID 136371456. {{cite journal}}: Cite journal requires |journal= (help)
  6. ^ a b c d e Hatchard, Den (1992). Wood Finishing: Step-by-step techniques. Ramsbury, Marlborough: The Crowood Press. ISBN 978-1852235826.
  7. ^ a b c d e f g h i j k l m n o p q r Flexner, Bob (1999-01-01). Understanding Wood Finishing: How to Select and Apply the Right Finish. Reader's Digest. ISBN 9780762101917.
  8. ^ Iseghem, Lawrence C. Van (June 2006). "Wood Finishing with UV-Curable Coatings" (PDF). RADTECH REPORT. (PDF) from the original on 2015-09-10.
  9. ^ Newell, Adnah Clifton (1940-01-01). Coloring, Finishing and Painting Wood. Manual arts Press. from the original on 2017-10-22.
  10. ^ Vanderwalker, Fred Norman (1940-01-01). Wood Finishing, Plain and Decorative: Methods, Materials, and Tools for Natural, Stained, Varnished, Waxed, Oiled, Enameled, and Painted Finishes. Antiqued, Stippled, Streaked and Rough Glazed Finishes. Stain Making Formulas. F. J. Drake & Company. from the original on 2017-10-22.
  11. ^ Crump, Derrick (1992-01-01). The Complete Guide to Wood Finishes. Simon & Schuster. ISBN 9780671796693.
  12. ^ Sandermann, Wilhelm; Dietrichs, Hans-Hermann; Puth, Martin (1960-02-01). "Über die Trocknungsinhibierung von Lackanstrichen auf Handelshölzern". Holz Als Roh- und Werkstoff (in German). 18 (2): 63–75. doi:10.1007/BF02615619. ISSN 0018-3768. S2CID 39882526.
  13. ^ Farmer, Robert Harvey (1967-06-01). Chemistry in the utilization of wood. Pergamon Press.
  14. ^ Kumar, R. N.; Al-Mahdi, Haider Osma; Scherzer, T.; Sonntag, J. von (2002-06-26). "Influence of Wood Extracts on the Uv Curing of Acrylate Coatings". Journal of Macromolecular Science, Part A. 39 (7): 657–666. doi:10.1081/MA-120004510. ISSN 1060-1325. S2CID 94434204.
  15. ^ Evans, Philip D.; Cullis, Ian (2010). "A Note on the Effect of Wood Moisture Content and Clear Coating on the Color of Veneer Panels Stained with Solvent-Borne Stain". Forest Products Journal. 60 (3): 273–275. doi:10.13073/0015-7473-60.3.273. from the original on 2016-10-23.
  16. ^ Press, Taunton; Woodworking, Fine (1999-01-01). Finishes & Finishing Techniques: Professional Secrets for Simple and Beautiful Finishes from Fine Woodworking. Taunton Press. ISBN 9781561582983. from the original on 2017-10-22.
  17. ^ "Case study project: The use of low-VOC/HAP coatings at wood furniture manufacturing facilities. Report for March 1995 March 1999" (PDF). National Service Center for Environmental Publications (NSCEP). Retrieved 2016-01-18.
  18. ^ Parikka-Alhola, Katriina (2008-12-01). "Promoting environmentally sound furniture by green public procurement". Ecological Economics. 68 (1–2): 472–485. doi:10.1016/j.ecolecon.2008.05.004.
  19. ^ a b c d e f g h Nagyszalanczy, Sandor (1997-01-01). The Wood Sanding Book: A Guide to Abrasives, Machines, and Methods. Taunton Press. ISBN 9781561581757. from the original on 2017-10-22.
  20. ^ Nakamura, G-I, Takachio, H. 1961. An experiment on the roughness and stability of sanded surface. Mokuzai Gakkaishi 7:41–45.
  21. ^ Marra, G.G. 1943. An analysis of the factors responsible for raised grain on the wood of oak following sanding and staining. Transactions of the American Society of Mechanical Engineers 65:177–185.
  22. ^ Koehler, A. 1932. Some observations on raised grain. Transactions of the American Society of Mechanical Engineers 54:27–30.
  23. ^ Hayward, Charles H. (1974-09-01). Staining and Polishing. Sterling Publishing Company, Incorporated. ISBN 9780877490074.
  24. ^ a b c Uzunovic, A., Byrne, T., Gignac, M, Yang, D-Q. (2008). Wood discolourations & their prevention with an emphasis on bluestain. FPInnovations (Forintek). Special Publication SP-50, 51 pp. ISSN #1916–4238.
  25. ^ Butterfield, B. (2012-12-06). Three-dimensional structure of wood: An Ultrastructural Approach. Springer Science & Business Media. ISBN 9789401181464.
  26. ^ Evans, Philip D.; Palmer, Gareth; Chowdhury, Mohammed (2007-03-22). "Bleaching treatments for blue-stained lodgepole pine affected by the mountain pine beetle Dendroctonus ponderosae". Holz Als Roh- und Werkstoff (in German). 65 (6): 485–486. doi:10.1007/s00107-007-0177-5. ISSN 0018-3768. S2CID 40952556.
  27. ^ a b c d Anon (1948). Bleaching wood. US Forest Products Laboratory Report FPL-0165, 9pp.
  28. ^ "Fuming white oak". from the original on 2010-02-10.
  29. ^ "Difference between lacquer and varnish? : Finishing Advice". UKworkshop.co.uk. 19 February 2010. from the original on 2016-08-10. Retrieved 2016-07-26.
  30. ^ "A Guide on Choosing the Best Teak Oil Finish for Wood". Retrieved 2017-06-24.
  • Michael Dresdner (1992). The Woodfinishing Book. Taunton Press. ISBN 1-56158-037-6
  • Bob Flexner (1994). Understanding Wood Finishing: How to Select and Apply the Right Finish. Rodale Press ISBN 0-87596-566-0

External links edit

 
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March 14, 2024
wood, finishing, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, november, . This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Wood finishing news newspapers books scholar JSTOR November 2012 Learn how and when to remove this template message Wood finishing refers to the process of refining or protecting a wooden surface especially in the production of furniture where typically it represents between 5 and 30 of manufacturing costs 1 2 A worker sprays a urethane finish onto a timberFinishing is the final step of the manufacturing process that gives wood surfaces desirable characteristics including enhanced appearance and increased resistance to moisture and other environmental agents Finishing can also make wood easier to clean 3 and keep it sanitized sealing pores that can be breeding grounds for bacteria Finishing can also influence other wood properties for example tonal qualities of musical instruments and hardness of flooring 4 5 In addition finishing provides a way of giving low value woods the appearance of ones that are expensive and difficult to obtain Contents 1 Planning the finish 2 Sanding 2 1 Removing larger defects 3 Bleaching and removal of stains 4 Colouring wood 5 Basic wood finishing procedure 6 Comparison of different clear finishes 7 Automated wood finishing methods 7 1 Hangline approach 7 2 Towline approach 8 See also 9 References 10 External linksPlanning the finish editFinishing of wood requires careful planning to ensure that the finished piece looks attractive performs well in service and meets safety and environmental requirements 6 Planning for finishing begins with the design of furniture 6 Care should be taken to ensure that edges of furniture are rounded so they can be adequately coated and are able to resist wear and cracking Careful attention should also be given to the design and strength of wooden joints to ensure they do not open up in service and crack the overlying finish 7 Care should also be taken to eliminate recesses in furniture which are difficult to finish with some systems especially UV cured finishes 8 Planning for wood finishing also involves thinking about the properties of the wood being finished as these can greatly affect the appearance and performance of finishes and also the type of finishing system that will give the wood the desired characteristics 6 For example woods that show great variation in colour between sapwood and heartwood or within heartwood may require a preliminary staining step to reduce colour variation 9 Alternatively the wood can be bleached to remove the natural colour of the wood and then stained to the desired colour 10 11 Woods that are coarse textured such as oaks and other ring porous hardwoods may need to be filled before they are finished to ensure the coating can bridge the pores and resist cracking The pores in ring porous woods more readily absorb pigmented stain and advantage can be taken of this to highlight the wood s grain 7 Some tropical woods such as rosewood Dalbergia nigra cocobolo Dalbergia retusa and African padauk Pterocarpus soyauxii contain extractives such as quinones which retard the curing of unsaturated polyester and UV cured acrylate coatings and so other finishing systems should be used with these species 12 13 14 Planning for wood finishing also involves being aware of how the finishing process influences the end result Careful handling of the wood is needed to avoid dents scratches and soiling with dirt 6 Wood should be marked for cutting using pencil rather than ink however avoid hard or soft pencil HB is recommend for face work and 2H for joint work 6 Care should be taken to avoid squeeze out of glue from joints because the glue will reduce absorption of stain and finish Any excess glue should be carefully removed to avoid further damage to the wood Wood s moisture content affects the staining of wood 15 Changes in wood moisture content can result in swelling and shrinkage of wood which can stress and crack coatings Both problems can be avoided by storing wood indoors in an environment where it can equilibriate to a recommended moisture content 6 to 8 that is similar to that of the intended end use of the furniture 7 Finally consideration needs to be given to whether the finished wood will come into contact with food in which case a food safe finish should be used 16 local environmental regulations governing the use of finishes 17 and recycling of finished wood at the end of its life 18 Sanding editSanding is carried out before finishing to remove defects from the wood surface that will affect the appearance and performance of finishes that are subsequently applied to the wood 7 These defects include cutter marks and burns scratches and indentations small glue spots and raised grain 7 Sanding should not be used to eliminate larger defects such as gouges and various forms of discolouration 7 Other techniques are used to remove these defects see below nbsp Large open pores in Eucalyptus sieberi nbsp Pore distribution in southern beechThe key to preparing a defect free surface is to develop a sanding schedule that will quickly eliminate defects and leave the surface smooth enough so that tiny scratches produced by sanding cannot be seen when the wood is finished 19 A sanding schedule usually begins with sandpaper that is coarse enough to remove larger defects typically 80 or 100 grit but sometimes higher if the surface is already quite smooth and progresses through a series of sandpaper grades that gradually remove the sanding scratches created by the previous sanding steps 19 A typical sanding schedule prior to wood finishing might involve sanding wood along the grain with the following grades of sandpaper 80 100 120 150 and finishing with 180 and sometimes 220 grit 7 The precise sanding schedule is a matter of trial and error because the appearance of a sanded surface depends on the wood you are sanding and the finish that will subsequently be applied to the wood 19 According to Nagyszalanczy 19 coarse grained woods with large pores such as oak hide sanding scratches better than fine grained wood and hence with such species it may be possible to use 180 or even 150 grit sandpaper as the final step in the sanding schedule 19 Conversely sanding scratches are more easily seen in finer grained harder woods and also end grain and hence they require finer sandpaper 220 grit during the final sanding stage 19 The sandpaper selected for the final sanding stage affects the colour of stained wood and therefore when staining is part of finishing avoid sanding the wood to a very smooth finish 7 On the other hand according to Nagyszalanczy if you are using an oil based finish it is desirable to sand the wood using higher grit sandpaper 400 grit because oil tends to highlight sanding scratches 19 nbsp Scanning Electron Microscopy of 120 grit aluminum oxide paper nbsp Scanning Electron Microscopy of 180 grit aluminum oxide paper nbsp Profilometry image of Yellow birch after sandingSanding is very good at removing defects at wood surfaces but it creates a surface that contains minute scratches in the form of microscopic valleys and ridges and also slivers of wood cell wall material that are attached to the underlying wood 20 21 22 These sanding ridges and slivers of wood swell and spring up respectively when sanded wood is finished with water based finishes creating a rough fuzzy surface This defect is known as grain raising It can be eliminated by wetting the surface with water leaving the wood to dry and then lightly sanding the wood to remove the raised grain 19 nbsp Profilometry image of Yellow birch after sanding and wettingRemoving larger defects edit Larger defects that interfere with wood finishing include dent gouges splits and glue spots and smears 7 These defects should also be removed before finishing otherwise they will affect the quality of the finished furniture or object However it is difficult to completely eliminate large defects from wood surfaces Removing dents from wood surfaces is quite straightforward as pointed out by Flexner 7 Add a few droplets of demineralized water to the dent and let it soak in Then put a clean cloth over the dent and place the tip of a hot iron on the cloth that lies immediately above the dent taking great care not to burn the wood The transfer of heat from the iron to the wood will cause compressed fibres in the dent to recover their original dimensions As a result the dent will diminish in size or even disappear completely although removal of large dents may require a number of wetting and heating cycles The wood in the recovered dent should then be dried and sanded smooth to match the surrounding wood Gouges and holes in wood are more difficult to repair than dents because wood fibres have been cut torn and removed from the wood Larger gouges and splits are best repaired by patching the void with a piece of wood that matches the colour and grain orientation of the wood under repair 7 Patching wood requires skill but when done properly it is possible to create a repair that is very difficult to see An alternative to patching is filling sometimes known as stopping 7 23 Numerous coloured fillers putties and waxes are produced commercially and are coloured to match different wood species Successful filling of voids in wood requires the filler to precisely match the colour and grain pattern of the wood around the void which is difficult to achieve in practice Furthermore filled voids do not behave like wood during subsequent finishing steps and they age differently to wood Hence repairs to wood using fillers may noticeable 7 Therefore filling is best used with opaque finishes rather than semitransparent finishes which allow the grain of the wood to be seen nbsp Macro photo of 120 grit sandpaper nbsp Macro photo of 220 grit sandpaper nbsp Macro photo of 320 grit sandpaperGlue smears and droplets are sometimes present around the joints of furniture They can be removed using a combination of scraping scrubbing and sanding 7 These approaches remove surface glue but not the glue beneath the wood surface Sub surface glue will reduce the absorption of stain by wood and may alter the scratch pattern created by sanding Both these effects will influence the way in which the wood colours when stains are used to finish the wood To overcome this problem it may be necessary to locally stain and touch up areas previously covered by glue to ensure that the finish on such areas matches that of the surrounding wood 7 Bleaching and removal of stains editWood surfaces are occasionally affected by various organic and inorganic stains 24 Sometimes such stains enhance the colour and appearance of wood 24 For example oak wood affected by the beef steak fungus has a deep rich attractive brown colour 25 and there is no reason to remove the stain from the wood prior to finishing The same applies to spalted wood whose attractive appearance is again caused by fungi On the other hand some fungal stains and those caused by the reaction of iron with wood can disfigure wood 24 These stains can be removed from wood using bleach 26 27 Bleaches are also occasionally used to reduce the difference in colour between lighter sapwood and heartwood and also colour variation within heartwood 7 Such bleaching make it easier to achieve a uniformly coloured wood when the wood is subsequently coloured with pigmented stains and dyes 7 see below Furthermore the natural colours of wood fade when wood is exposed to sunlight and more permanent colours can be created by bleaching wood to remove its natural colour and then re colouring the wood using artificial light fast stains 7 The bleaches used to remove unwanted fungal stains from wood include two part peroxide bleach and solutions of sodium hypochlorite 27 The former is particularly effective at removing the natural colour of wood before it is recoloured with pigmented stains or dyes 27 Oxalic acid is particularly effective at removing iron stains from wood 27 Colouring wood editWood can be stained to change its colour or left unstained before application of lacquer or other types of top coats Staining should enhance the appearance of wood by reducing colour variation between and within sapwood and heartwood It also provides a way of giving bland looking woods such as poplar the appearance of prized furniture woods such as ebony mahogany or walnut Wood can be stained using dyes or pigmented finishes These finishes are available in a wide variety of colours many of which are not part of the natural colour palette of wood for example blues and greens Pigmented stains tend to highlight the grain and also sanding scratches whereas dyes do not have this effect and are more transparent Wood can also be coloured by exposing it to chemicals that react with the wood to form coloured compounds Chemical staining of wood is rarely carried out because it is easier to colour wood using dye or pigmented stain however ammonia fuming is a chemical staining method that is still occasionally used to darken woods such as oak that contain a lot of tannins Staining of wood is difficult to control because some parts of the wood absorb more stain than others which leads to problems such as blotchiness and streaking For this reason as pointed out by Flexner many people prefer to omit the staining step when finishing wood Basic wood finishing procedure editWood finishing starts with sanding either by hand typically using a sanding block or power sander scraping or planing Imperfections or nail holes on the surface may be filled using wood putty or pores may be filled using wood filler Often the wood s color is changed by staining bleaching or any of a number of other techniques Once the wood surface is prepared and stained the finish is applied It usually consists of several coats of wax shellac drying oil lacquer varnish or paint and each coat is typically followed by sanding Finally the surface may be polished or buffed using steel wool pumice rotten stone or other materials depending on the shine desired Often a final coat of wax is applied over the finish to add a degree of protection French polishing is a finishing method of applying many thin coats of shellac using a rubbing pad yielding a very fine glossy finish Ammonia fuming is a traditional process for darkening and enriching the color of white oak Ammonia fumes react with the natural tannins in the wood and cause it to change colours 28 The resulting product is known as fumed oak 29 Comparison of different clear finishes editClear finishes are intended to make wood look good and meet the demands to be placed on the finish Choosing a clear finish for wood involves trade offs between appearance protection durability safety requirements for cleaning and ease of application The following table compares the characteristics of different clear finishes Rubbing qualities indicates the ease with which a finish can be manipulated to deliver the finish desired Shellac should be considered in two different ways It is used thinned with denatured alcohol as a finish and as a way to manipulate the wood s ability to absorb other finishes The alcohol evaporates almost immediately to yield a finish that will attach to virtually any surface even glass and virtually any other finish can be used over it nbsp No finish nbsp Linseed oil nbsp Tung oil nbsp Tung oil and linseed oil nbsp Molten bee wax nbsp 2 1 ratio of beeswax and carnauba wax nbsp Shellac nbsp Shellac and linseed oil nbsp Alkyd varnish nbsp Spar or yacht varnish nbsp Acrylic varnish nbsp Acrylic paintAppearance Protection Durability Safety Ease of Application Reversibility Rubbing QualitiesWax Dull even sheen unless buffed or polished Low short term Requires frequent reapplication Safe when solvents in paste wax evaporate Easy Applied with cloth or brush and worked into wood excess left to cure before buffing with a cloth for desired level of sheen Difficult Solvents thin wax causing it to penetrate deeper Sanding creates heat Scraping recommended Matte to satin finish can to be buffed to a sheen Hardwax oil Matte to Satin sheen Moderate protection and water resistance Moderate durability once cured May require periodic reapplication Safe when low VOC solvents evaporate Easy Applied in very thin coats with cloth pad roller or brush Difficult Solvents thin wax causing it to penetrate deeper Sanding creates heat Scraping recommended matte to satin finish can be buffed to a sheen Shellac From virtually clear super blond to a rich orange garnet Fair against water poor solvent protection Moderate Safe when solvent evaporates used as food and pill coating Clogs spray equipment Quick solvent flash time makes brushing difficult Ox or badger skunk hair brush recommended Easy to pad however French Polish is difficult Completely reversible using alcohol ExcellentNitrocellulose lacquer Transparent satin and gloss Reasonable protection Soft and somewhat durable Uses toxic solvents Good protection is needed especially if painted Moderate Available in cans large scale requires spray equipment No sanding required between coats Reversible with proper solvents Excellent soft finishPre Cat lacquer Transparent all sheens from 5 to 90 Good general protection against wet and dry heat Meets UK and European standards for general use Uses toxic solvents Spray booth is needed Moderate Requires spray equipment No sanding required between coats Non Reversible after 5 days Excellent general furniture finish harder than standard lacquer Conversion varnish or Acid Cat Lacquer Transparent all sheens from 5 to Gloss Excellent protection against many substances Meets UK and European standards for severe use Uses toxic solvents including toluene Moderate Requires spray equipment Used in professional shops only No sanding required between coats Difficult to reverse Excellent hard finishBoiled linseed oil Yellow warm glow pops grain1 darkens with age Low Low Relatively safe once cured metallic driers are poisonous Easy Applied in thin coats with cloth or brush excess wiped off Cure time can be long Difficult All saturated wood needs to be removed planing sanding scraping Cures matteTung oil Warm glow pops grain1 lighter than linseed Low but has water resistance Low Relatively safe when fully cured Pure tung oil contains no metallic dryers Many products labeled tung oil are oil varnish blends Moderate Applied in thin coats with cloth or brush excess is wiped off First coat is typically thinned down Partial cure is necessary as very long finishing schedule for sufficient amount of coats Difficult All saturated wood needs to be removed planing sanding scraping Cures hard and matte can be buffed to a satin sheen Alkyd varnish Not as transparent as lacquer yellowish orange tint pops grain Good protection also available with UV resistance Durable Relatively safe once VOCs evaporate uses petroleum based solvents Moderate Brush roll or spray Brushing needs good technique to avoid bubbles and streaks Can be stripped using paint removers Cures hard yet flexible gloss or satin finish Polyurethane oil based varnish Slight ambering comes in a variety of sheen Excellent protection against many substances tough finish Durable after approx 7 day curing period Relatively safe once VOCs evaporate uses petroleum based solvents Moderate Applied in coats with brush roller or sprayer Medium curing times sanding required between coats Easy when thinned and wiped on Can be stripped using paint removers Cures hard Easy to rub out with steel wool or synthetic pads to reduce sheen or buffed to a high gloss Polyurethane water based varnish Transparent or paints all sheens from 1 to 80 Excellent protection Newer products 2009 also UV stable when noted Durable after a two day curing period Safer than oil based polyurethane fewer volatile organic compounds Easy Applied with brush roller or sprayer Fast drying demands care in application technique to avoid bubbles and streaks Sanding required between coats Can be stripped using paint removers Excellent It finishes hard and can be buffed to a gloss Use a release agent A thick finish can leave a plastic feel 2 Part polyurethane Transparent Stronger protection than regular polyurethane varnish Durable once cured generally less than an hour low or free of VOCs nonreactive when cured generally sprayed equipment must be cleaned of any mixed product immediately Irreversible Sands easily Sanding not needed between coatsOil varnish blends i e Danish oil Teak oil 30 Tung oil finish Enhances natural figure like a drying oil but more protective and faster drying Low but more than pure oil finishes Fairly durable but may require periodic reapplication for heavy use areas such as tables and worktops Relatively safe once VOCs have evaporated uses petroleum based solvents Easy Applied in thin coats with cloth or brush excess wiped off Too many applications can result in sticky build up Difficult All saturated wood needs to be removed planing sanding scraping Dries hard can be buffed to a matte finish or to a gloss Often top coated with paste wax for extra protectionEpoxy resin Thick high gloss and transparent Some formulations can cloud or yellow with UV exposure High level of protection Flexible and durable Safe when cured Easy pour on application for flat surfaces difficult to apply evenly on more complicated shapes Cleanable with acetone when liquid Irreversible once cured flexibility makes sanding difficult but possible1 accentuates visual properties due to differences in wood grain Automated wood finishing methods editManufacturers who mass produce products implement automated flatline finish systems These systems consist of a series of processing stations that may include sanding dust removal staining sealer and topcoat applications As the name suggests the primary part shapes are flat Liquid wood finishes are applied via automated spray guns in an enclosed environment or spray cabin The material then can enter an oven or be sanded again depending on the manufacturer s setup The material can also be recycled through the line to apply another coat of finish or continue in a system that adds successive coats depending on the layout of the production line The systems typically used one of two approaches to production nbsp In this hangline approach wood items being finished are moved through various finishing stages on a conveyor systemHangline approach edit In the hangline approach wood items being finished are hung by carriers or hangers that are attached to a conveyor system that moves the items overhead or above the floor space The conveyor itself can be ceiling mounted wall mounted or supported by floor mounts A simple overhead conveyor system can be designed to move wood products through several wood finishing processes in a continuous loop The hangline approach to automated wood finishing also allows the option of moving items up to warmer air at the ceiling level to speed up drying process nbsp In this towline method mobile carts move large furniture through various finishing stages on a conveyor system Towline approach edit The towline approach to automating wood finishing uses mobile carts that are propelled by conveyors mounted in or on the floor This approach is useful for moving large awkward shaped wood products that are difficult or impossible to lift or hang overhead such as four legged wood furniture The mobile carts used in the towline approach can be designed with top platens that rotate either manually or automatically The rotating top platens allow the operator to have easy access to all sides of the wood item throughout the various wood finishing processes such as sanding painting and sealing See also editWood stain Refinishing Distressing Danish oil XylotechnigraphyReferences edit Whaler J H 1972 Furniture finishing textbook Nashville Production Publishing Company p 3 Cox Robert M 2003 Building an industrial wood finish Madison Forest Products Society p 11 ISBN 978 1 892529 30 5 Gibbia S W 1981 Wood finishing and refinishing New York Van Nostrand Reinhold p 9 ISBN 978 0 442 24708 9 Jaic Milan and Tanja Palija The impact of the top coating on the mechanical properties of lacquered wood surfaces Glasnik Sumarskog fakulteta Bongova M Urgela Stanislav 1999 01 01 Surface coating influence on elastic properties of spruce wood by means of holographic vibration mode visualization 11th Slovak Czech Polish Optical Conference on Wave and Quantum Aspects of Contemporary Optics 3820 103 110 Bibcode 1999SPIE 3820 103B doi 10 1117 12 353047 S2CID 136371456 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help a b c d e Hatchard Den 1992 Wood Finishing Step by step techniques Ramsbury Marlborough The Crowood Press ISBN 978 1852235826 a b c d e f g h i j k l m n o p q r Flexner Bob 1999 01 01 Understanding Wood Finishing How to Select and Apply the Right Finish Reader s Digest ISBN 9780762101917 Iseghem Lawrence C Van June 2006 Wood Finishing with UV Curable Coatings PDF RADTECH REPORT Archived PDF from the original on 2015 09 10 Newell Adnah Clifton 1940 01 01 Coloring Finishing and Painting Wood Manual arts Press Archived from the original on 2017 10 22 Vanderwalker Fred Norman 1940 01 01 Wood Finishing Plain and Decorative Methods Materials and Tools for Natural Stained Varnished Waxed Oiled Enameled and Painted Finishes Antiqued Stippled Streaked and Rough Glazed Finishes Stain Making Formulas F J Drake amp Company Archived from the original on 2017 10 22 Crump Derrick 1992 01 01 The Complete Guide to Wood Finishes Simon amp Schuster ISBN 9780671796693 Sandermann Wilhelm Dietrichs Hans Hermann Puth Martin 1960 02 01 Uber die Trocknungsinhibierung von Lackanstrichen auf Handelsholzern Holz Als Roh und Werkstoff in German 18 2 63 75 doi 10 1007 BF02615619 ISSN 0018 3768 S2CID 39882526 Farmer Robert Harvey 1967 06 01 Chemistry in the utilization of wood Pergamon Press Kumar R N Al Mahdi Haider Osma Scherzer T Sonntag J von 2002 06 26 Influence of Wood Extracts on the Uv Curing of Acrylate Coatings Journal of Macromolecular Science Part A 39 7 657 666 doi 10 1081 MA 120004510 ISSN 1060 1325 S2CID 94434204 Evans Philip D Cullis Ian 2010 A Note on the Effect of Wood Moisture Content and Clear Coating on the Color of Veneer Panels Stained with Solvent Borne Stain Forest Products Journal 60 3 273 275 doi 10 13073 0015 7473 60 3 273 Archived from the original on 2016 10 23 Press Taunton Woodworking Fine 1999 01 01 Finishes amp Finishing Techniques Professional Secrets for Simple and Beautiful Finishes from Fine Woodworking Taunton Press ISBN 9781561582983 Archived from the original on 2017 10 22 Case study project The use of low VOC HAP coatings at wood furniture manufacturing facilities Report for March 1995 March 1999 PDF National Service Center for Environmental Publications NSCEP Retrieved 2016 01 18 Parikka Alhola Katriina 2008 12 01 Promoting environmentally sound furniture by green public procurement Ecological Economics 68 1 2 472 485 doi 10 1016 j ecolecon 2008 05 004 a b c d e f g h Nagyszalanczy Sandor 1997 01 01 The Wood Sanding Book A Guide to Abrasives Machines and Methods Taunton Press ISBN 9781561581757 Archived from the original on 2017 10 22 Nakamura G I Takachio H 1961 An experiment on the roughness and stability of sanded surface Mokuzai Gakkaishi 7 41 45 Marra G G 1943 An analysis of the factors responsible for raised grain on the wood of oak following sanding and staining Transactions of the American Society of Mechanical Engineers 65 177 185 Koehler A 1932 Some observations on raised grain Transactions of the American Society of Mechanical Engineers 54 27 30 Hayward Charles H 1974 09 01 Staining and Polishing Sterling Publishing Company Incorporated ISBN 9780877490074 a b c Uzunovic A Byrne T Gignac M Yang D Q 2008 Wood discolourations amp their prevention with an emphasis on bluestain FPInnovations Forintek Special Publication SP 50 51 pp ISSN 1916 4238 Butterfield B 2012 12 06 Three dimensional structure of wood An Ultrastructural Approach Springer Science amp Business Media ISBN 9789401181464 Evans Philip D Palmer Gareth Chowdhury Mohammed 2007 03 22 Bleaching treatments for blue stained lodgepole pine affected by the mountain pine beetle Dendroctonus ponderosae Holz Als Roh und Werkstoff in German 65 6 485 486 doi 10 1007 s00107 007 0177 5 ISSN 0018 3768 S2CID 40952556 a b c d Anon 1948 Bleaching wood US Forest Products Laboratory Report FPL 0165 9pp Fuming white oak Archived from the original on 2010 02 10 Difference between lacquer and varnish Finishing Advice UKworkshop co uk 19 February 2010 Archived from the original on 2016 08 10 Retrieved 2016 07 26 A Guide on Choosing the Best Teak Oil Finish for Wood Retrieved 2017 06 24 Michael Dresdner 1992 The Woodfinishing Book Taunton Press ISBN 1 56158 037 6 Bob Flexner 1994 Understanding Wood Finishing How to Select and Apply the Right Finish Rodale Press ISBN 0 87596 566 0External links edit nbsp Wikimedia Commons has media related to Wood finishes Retrieved from https en wikipedia org w index php title Wood finishing amp oldid 1210068396, wikipedia, wiki, book, books, library,

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