Dark florentine bronze is the coating
Also included some extra info
There are many finishes or coating applied to fasteners; some corrosion protective, some decorative, or there may be no added coating at all. Specifications for fastener coatings are contained in a number of Australian standards.
(Black - Self Colour)
An 'as produced' finish on carbon steel products having an oil residue which provides some shelf life but no real corrosion protection when in use.
Today, less than 20% of carbon steel fasteners would be purchased plain finish.
Stainless steel, brass and other non-ferrous materials protect themselves through a reaction of the surface to oxygen, creating a protective chromium oxide film.
Zinc Plated
The most economic and common fastener finish, comprising a thin coating of zinc applied either by electroplating or mechanically. A shiny silver grey appearance, it will normally be enhanced by a chemical chromate passivation conversion which applies a harder surface film. This can be clear (bluish tinge), or iridescent yellow which is thicker and gives marginally better protection.
Clear is referred to as zinc, zinc clear, blue zinc.
Yellow is referred to as zinc plate gold (ZPG), zinc yellow chromate (ZYC), zinc di-chromate, zinc yellow pass.
Cadmium Plated
Formerly a popular electroplated or mechanically applied finish, looking like but giving slightly better protection than zinc and providing increased lubricity; also chromate converted. Very seldom used today due to its toxicity and environmental non-acceptability. If specified, it is usually through habit, error or ignorance and possible confusion with zinc.
Galvanised
A very heavy coating of zinc applied by hot dipping in a bath of molten zinc, then centrifuge spinning for even distribution and removal of the excess, or mechanically cold welding a zinc powder in a barrel rumbling process. The hot dip finish is rougher and duller than electroplated finishes but because of the thickness achieved, gives considerably enhanced protection. Often it is wax coated to provide assembly lubrication.
Phosphate
A thin, dull grey phosphate coating obtained by insertion in a solution containing phosphoric acid. Gives a lower level of protection than zinc in mild environments, but gives an excellent base for painting or organic lubrication. Often used in automotive industry.
Electro Base
A brass finish applied by electroplating. Appears similar to brass and is used in furniture or architectural fittings.
Black Japan
A black enamel dipped finish, used in black fittings or furniture.
Black Zine
An electroplated zinc flash and black chromate dip - used in dark finish appliances.
Light Bronze Antique
Copper electroplated and dipped, medium brown for matching oxidised copper fittings.
Dark Florentine Bronze
Copper electroplated and dipped, dark brown for matching oxidised copper fittings.
Copper
Electroplated, used as a base for nickel or for improved conductivity.
Tin
Electroplated, used to facilitate soldering.
Nickel
Electroplated over copper, hard bright silver finish. Often used in electrical appliances and areas of condensation - not sacrificial.
Chrome
Electroplated over nickel, very hard, bright, reflective finish; easy to clean or polish. Used in heavy condensation areas - not sacrificial.
With sacrificial protective coatings, the thicker the deposit, the longer the protection; however, there are practical and economic limitations to the thickness applied.
Zinc electroplating can provide thicknesses from a negligible flash of colour, for appearance, through normal commercial coatings of 3-5 microns (µm), to specified heavy coatings up to 12 microns (0.0005 in). Electroplating does not give an even cover; thicker concentration of deposit occurs on corners, points, thread crests and thinner concentrations on thread flanks and roots. This may cause thread galling on coatings above 8 microns average and adjustment by over - tapping of the nut may be required.
Hot dip galvanising will allow much heavier coatings, the normal commercial coating is approximately 50 microns (µm), which necessitates the over-tapping of the mating thread and is the maximum practical to avoid serious compromise of the fastener's strength. Unlike electroplating, the concentration of deposits is in the thread roots and internal corners. For this reason, thread diameters of less than M10 are not normally galvanised unless a subsequent light re-roll of the thread is performed.
Nuts supplied with galvanised bolts will have over-tapped threads to allow for the galvanised build-up on bolt threads and to reduce assembly galling.
Mechanical coating will result in a more even deposit and the point of over-tapping will be raised above 15 µm. Comparable thicknesses can be achieved but costs are generally much higher.
High tensile or hardened fasteners above PC 8.8 or SAE Grade 5 are susceptible to hydrogen embrittlement in the cleaning and coating process, particularly electroplating. They absorb hydrogen atoms which concentrate in areas of stress, causing minute cracks which can suddenly and violently fail in service.
To avoid this potential, the hydrogen atoms can be diffused by baking the product immediately after plating, prior to chromating at a temperature of 190°C to 210°C for a period depending upon the grade and size of the product.
For this reason, it is most unadvisable to plate PC 10 or SAE Grade 8 and higher products after purchase, unless the Plater is also able to perform and guarantee the de-embrittlement process.
Service life of coatings prior to first signs of corrosion will vary considerably depending upon thickness and environment.
Experience suggests the following:
Stainless Steel is self protecting, as shown below
Apart from general corrosion (rust) caused by exposure of uncoated materials there are several other types of corrosion which effect ferrous and non ferrous materials.
They include:
2. Pitting
3. Crevice Corrosion
4. Stress Corrosion Cracking
5. Galvanic Corrosion
- Further information on types 2,3 and 4 may be available in future publications. Please consult your local representative if required.
- A selection chart to provide guidance on limiting the effects of type 5 - is referred to below
Galvanic Corrosion
In addition to corrosion being caused by exposure of uncoated materials, it is also caused or enhanced by the combination of dissimilar or incompatible materials. The following chart gives guidelines for the selection of materials or finishes based on this galvanic action:
Key
A The corrosion of the base metal is not increased by the fastener. D The plating on the fastener is rapidly consumed, leaving the bare fastener material.
B The corrosion of the base metal is marginally increased by the fastener. E The corrosion of the fastener is increased by the base metal.
C The corrosion of the base metal may be markedly increased by the fastener. NR Not recommended.
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