Drying oil 752713 225373258 2008-07-13T10:06:34Z AThing 751678 /* Intro */ {{Vegetable oils}} A '''drying oil''' is an [[oil]] which hardens to a tough, solid film after a period of exposure to air. The term "drying" is actually somewhat of a misnomer - the oil does not harden through the [[evaporation]] of water or other [[solvent]]s, but through a chemical polymerization reaction in which [[oxygen]] is absorbed from the environment ([[autoxidation]]) and the fatty acid chains link with each other to form an extremely large cross-linked polymer. Drying oils are a key component of [[oil paint]] and many [[varnish]]es. Some commonly used drying oils include [[linseed oil]], [[tung oil]], [[poppyseed oil|poppy seed oil]], [[perilla oil]] and [[walnut oil]]. == Chemistry == Drying oils are characterized by high levels of [[Polyunsaturated fat|polyunsaturated]] [[fatty acid]]s, primarily alpha-linolenic acid. One common measure of the siccative (drying) property of oils is [[iodine number]], which is an indicator of the number of double bonds in the fatty acids of the oil. Oils with an iodine number greater than 130 are considered drying, those with an iodine number of 115-130 are [[semi-drying oil|semi-drying]], and those with an iodine number of less than 115 are [[non-drying oil|non-drying]]. == Drying process == The "drying", hardening, or, more properly, [[curing (chemistry)|curing]] of oils is the result of an [[exothermic]] reaction in the form of autoxidation and is chemically equivalent to slow, flameless [[combustion]]. In this process, oxygen oxidizes the hydrocarbon chain, touching off a series of chemical reactions. As a result, the oil [[polymer]]izes, forming long, chain-like [[molecules]]. Following the autoxidation stage, the oil polymers cross-link: bonds form between neighboring molecules, resulting in a vast polymer network. Conceptually, this network equates to a fusing of individual, randomly interlocking, strands into a cohesive mass or, in the case of varnishes and paints, into a solid film. Over time, this network may undergo further change. Certain [[functional group]]s in the networks become [[ion]]ized, and the network transitions from a system held together by nonpolar covalent bonds to one governed by the ionic forces between these functional groups and the metal ions present in the pigment. The drying process is highly accelerated by certain [[metal]] [[ion]]s, such as [[cobalt]], [[manganese]], or [[iron]] [[salt (chemistry)|salts]], that act as [[catalyst]]s. These [[oil drying agent]]s are often salts and complexes of these metals with [[lipophilic]] [[carboxylic acid]]s such as [[naphthenic acid]]s to make the ions oil-soluble. Vegetable oils consist of [[glycerol]] [[ester]]s of fatty acids, long hydrocarbon chains with a terminal [[carboxyl group]]. In oil autoxidation, oxygen attacks a hydrocarbon chain, often at the site of an allylic hydrogen (a hydrogen on a carbon atom adjacent to a double bond). This produces a [[Radical (chemistry)|free radical]], a substance with an unpaired [[electron]] which makes it highly reactive. A series of addition reactions ensues. Each step produces additional free radicals, which then engage in further polymerization. The process finally terminates when free radicals collide, combining their unpaired electrons to form a new bond. The polymerization stage occurs over a period of days to weeks, and renders the film dry to the touch. Chemical changes in the paint film continue as time passes; the polymer chains begin to cross-link. Adjacent molecules form [[covalent bond]]s resulting in a molecular network, called the stationary phase, that extends throughout the oil. Molecules are no longer free to slide past each other or to move apart. In terms of paint or varnish, the stationary phase is the equivalent to a stable film which, while somewhat elastic, does not flow or deform under the pull of gravity. During the drying process, a number of compounds are produced that do not contribute to the polymer network. These include unstable [[hydroperoxide]]s (ROOH), the major by-product of the reaction of oxygen with unsaturated fatty acids. The hydroperoxides quickly decompose, forming carbon dioxide and water, as well as a variety of [[aldehyde]]s, [[acid]]s, and [[hydrocarbon]]s. Many of these compounds are volatile, and in an unpigmented oil, they would be quickly lost to the environment. However, in paints, such volatiles may react with lead, zinc, copper or iron compounds in the pigment, and remain in the paint film as coordination complexes or salts. A large number of the original ester bonds in the oil molecules undergo [[hydrolysis]], releasing individual fatty acids. Some portion of the free fatty acids react with metals in the pigment, producing metal carboxylates. Together, the various non-cross-linking substances associated with the polymer network constitute the mobile phases. Unlike the molecules that are part of the network itself, they are capable of moving and diffusing within the film, and can be removed using heat or a solvent. The mobile phase may play a role in plasticizing the paint film, preventing it from becoming too brittle. One simple technique for monitoring the early stages of the drying process is to measure weight change in an oil film over time. Initially, the film becomes heavier, as it absorbs large amounts of oxygen. Then oxygen uptake ceases, and the weight of the film declines as volatile compounds are lost to the environment. As the oil ages, a further transition occurs. Carboxyl groups in the polymers of the stationary phase lose a hydrogen ion, becoming negatively charged, and form complexes with metal cations present in the pigment. The original network, with its nonpolar, covalent bonds is replaced by an ionomeric structure, held together by ionic interactions. At present, the structure of these ionomeric networks is not well understood. Prior to [[polymerization]] or [[Curing (chemistry)|curing]], drying oils consist of medium length hydrocarbon chain molecules that are joined at one end by a [[triglyceride]] and in shape are partially hooked or kinked. By contrast, non-"drying" [[wax]]es, such as hard-film [[Carnauba wax|carnauba]] or paste wax, and [[resin]]s, such as [[Dammar gum|dammar]], copal, and [[shellac]], consist of long, spaghetti-like strands of hydrocarbon molecules which interlace and compact but do not form [[covalent]] bonds in the manner of drying oils. Thus, waxes and resins are re-dissoluble whereas a cured oil varnish or paint is not. == Safety == Rags, cloth, and paper saturated with drying oils may [[spontaneous combustion|combust spontaneously]] (catch on fire) due to heat given off during the curing process. This is especially the case where oil-soaked materials are folded, bunched, compressed, or piled together, which allows the heat to accumulate and even accelerate the reaction. Precautions include: wetting the rags with water and spreading them to dry in a safe place away from direct sunlight; closing them off completely in water inside air-tight metal containers designed for such applications; or storing them immersed in solvents in suitable closed containers. ==References== * “Autoxidation.” McGraw Hill Encyclopedia. 8th ed. 1997. * Flanders, Peggy J. “How Oils Dry.” www.peggyflanders.com. 5 May 2006 <http://www.peggyflanders.com/Information/how_oils_dry.htm> * Friedman, Ann, et al. “Painting.” www.worldbookonline.com. 2006. 46 Stetson St. #5 Brookline, MA. 10 May, 2006 <http://www.worldbookonline.com/wb/Article?id=ar410780> * “History of Oil Paint.” www.cyberlipid.org. 5 May 2006 <http://www.cyberlipid.org/perox/oxid0011.htm> * van den Berg, Jorit D.J. “Mobile and Stationary Phases in Traditional Aged Oil Paint.” www.amolf.nl 2002. MOLART. 8 May 2006 <http://www.nwo.nl/nwohome.nsf/pages/NWOP_62WDAG/$file/molart%20eindverslag.pdf> == See also == * [[Oil paint]] * [[Semi-drying oil]] * [[Blown oil]] * [[Wood finishing]] * [[Varnish]] == External links == * [http://www.sydneywoodturners.com.au/site/articles/finishing/oils.html Tung and Linseed Oils] by Steven D. Russel [[Category:Art materials]] [[Category:Painting materials]] [[Category:Woodworking]] [[Category:Oils]] [[es:Aceite secante]] [[ja:乾性油]] [[ru:Олифа]]