Finishes for Copper Alloy Introduction
Copper and its principal architectural alloys are relatively active metals which, source url graduation thesis sample https://www.mitforumcambridge.org/multiple/sons-of-liberty-essay/2/ introduction in a dissertation go to link the steps in writing an essay exegetical essay structure does lexapro make you nicer case study houses by elizabeth a.t. smith should high school students have part time jobs essay https://lajudicialcollege.org/forall/cover-letter-elementary-teacher-examples/16/ watch https://projectathena.org/grandmedicine/celebrex-clinical-studies-2015/11/ a1 dissertation poster how long does doxycycline expire maths coursework ideas white supremacy essay topics pfizer viagra pharmacy https://teleroo.com/pharm/viagra-approved/67/ political science research paper format https://reprosource.com/hospital/ginkgo-biloba-vs-viagra/72/ meine erfahrung mit cialis weather in my country essay vvg viagra https://www.cen.edu/notice/figures-of-speech-used-in-the-bible/24/ acquistare viagra forum enter site follow i don't know what to write my common app essay about thesis abstracts example computer science graph theory homework essay on my diwali holidays when left unprotected, tend to oxidize (weather). Long term atmospheric exposure generally results in the formation of the naturally protective gray-green patina.
Because copper and its alloys afford a broad spectrum of both natural and weathered colors, much effort is expended to either hasten the natural weathering by chemical means or to preserve the bright natural colors through the application of clear protective coatings
Thanks to Copper Development Association for the article below. It appears on their website www.copper.org and applies to brass, bronze and nickel silver extrusions as well as many high copper alloys. This is a general reference to all high copper alloys. For specific questions about architectural bronze and nickel silver extrusions, contact Mac Metals at email@example.com.
The natural weathering of copper to the characteristic blue-green or gray-green patina is a direct consequence of the mild corrosive attack of airborne sulfur compounds.
As natural weathering proceeds, the metal exposed to the atmosphere changes in hue from the natural salmon pink color through a series of russet brown shades to light and dark chocolate browns and finally to the ultimate blue-green or gray-green patina.
During the initial weeks of exposure, particularly in a humid atmosphere or in areas of frequent rainfall, radical color changes often take place with iridescent pinks, oranges and reds interspersed with brassy yellows, blues, greens and purples. During continued exposure, these interference colors fade and are replaced by relatively uniform russet brown shades referred to as statuary or oxidized finishes.
Due to varying fabricating procedures, some mills may coat coiled or flat sheet stock with a thin coat of anti-stain oil film. This film may give rise to dark purple or black surface colorations soon after installation and exposure. This is a temporary color phase caused by the thin oil film, which is quickly washed off by rain allowing the natural weathering of copper to proceed.
In industrial and seacoast atmospheres, the natural patina generally forms in from five to seven years. In rural atmospheres, where the quantity of air-born sulfur dioxide is relatively low, patina formation may not reach a dominant stage for 10 to 14 years. In arid environments, the basic sulfate patina may never form due to the lack of sufficient moisture. Similarly, exposed horizontal surfaces develop the patina more rapidly than sloping surfaces which, in turn, patinate more rapidly than vertical surfaces. The critical variable, in all instances, is the dwell time of moisture on the exposed surfaces.
The progressive oxide, sulfide and sulfate films which develop on copper exposed to the atmosphere are quite thin two to three thousandths of an inch highly adherent, but with relatively low abrasion resistance. Neither the oxide nor sulfide films are particularly corrosion resistant. The sulfate patina, on the other hand, is highly resistant to all forms of atmospheric corrosion, once it has had an opportunity to form completely. It thus significantly increases the durability and, hence, the service life of copper roofing and flashing. The natural weathering cycle of copper is illustrated by the 12 sequential color plates in the Weathering Chart.
Although the plates represent a typical sequence, the weathering of any installation will depend on local environmental factors, orientation and amount of residual lubricants.
The weathering of copper will reach a final equilibrium with its local environment. This state of equilibrium is very stable and no further weathering will occur after this state is reached. However, the final equilibrium color will vary depending on orientation, slope, and local weather conditions.
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