Tannins are a basic ingredient in the chemical staining of
wood, and are already present in woods like
oak,
walnut, and
mahogany. Tannic acid can be applied to woods low in tannin so
chemical stains that require tannin content will react. The presence of tannins in the bark of
redwood (Sequoia) is a strong natural defense against
wildfire,
decomposition and infestation by certain insects such as
termites. It is found in the
seeds,
bark,
cones, and
heartwood. Tannic acid is a common
mordant used in the dyeing process for
cellulose fibers such as
cotton, often combined with
alum and/or
iron. The tannin mordant should be done first as metal mordants combine well with the fiber-tannin
complex. However this use has lost considerable interest. Similarly tannic acid can also be used as an aftertreatment to improve wash fastness properties of acid dyed
polyamide. It is also an alternative for
fluorocarbon aftertreatments to impart anti-staining properties to polyamide yarn or carpets. However, due to economic considerations currently the only widespread use as textile auxiliary is the use as an agent to improve
chlorine fastness (resistance against dye bleaching due to cleaning with hypochlorite solutions) in high-end
polyamide 6,6-based carpets and swimwear. It is, however, used in relatively small quantities for the activation of
upholstery flock; this serves as an anti-
static treatment. Tannic acid is used in the conservation of
ferrous (iron based) metal objects to passivate and inhibit corrosion. Tannic acid reacts with the corrosion products to form a more stable compound, thus preventing further corrosion from taking place. After treatment the tannic acid residue is generally left on the object so that if moisture reaches the surface the tannic acid will be rehydrated and prevent or slow any corrosion. Tannic acid treatment for conservation is very effective and widely used but it does have a significant visual effect on the object, turning the corrosion products black and any exposed metal dark blue. It should also be used with care on objects with copper alloy components as the tannic acid can have a slight etching effect on these metals. Tannic acid is also found in commercially available iron/steel
corrosion treatments, such as Hammerite Kurust.
Use in food In many parts of the world, its uses in food are permitted. In the United States, tannic acid is
generally recognized as safe by the
Food and Drug Administration for use in baked goods and baking mixes, alcoholic and non-alcoholic beverages, frozen dairy products, soft and hard candy, meat products, and
rendered animal fat. According to
EU directive 89/107/EEC, tannic acid holds the 181
E number. Under directive 89/107/EEC, tannic acid can be referred to as a food ingredient. The E-number E181 is sometimes incorrectly used to refer to tannic acid; this in fact refers to the
INS number assigned to tannic acid under the FAO-WHO Codex Alimentarius system. The introduction of tannic acid treatment of severe burn injuries in the 1920s significantly reduced mortality rates. During
World War I, tannic acid dressings were prescribed to treat "burns, whether caused by incendiary bombs,
mustard gas, or
lewisite". After the war this use was abandoned due to the development of more modern treatment regimens. == Hazards ==