Aluminum brass

Phosphorized deoxidized arsenical copper (alloy 142 (23)) is used for heat exchangers and condenser tubes. Copper-arsenical leaded Muntz metal (alloy 366), Admiralty brass (alloy 443), naval brass (alloy 465), and aluminum brass (alloy 687), all find use in condensers, evaporators, ferrules, and heat exchanger and distillation tubes. The composition of these alloys is Hsted in Table 5. 

I I Admiralty brass, aluminum brass n Manganese bronze... 

Work in connection with desahnation of seawater has shown that specially modified surfaces can have a profound effect on heat-transfer coefficients in evaporators. Figure 11-26 (Alexander and Hoffman, Oak Ridge National Laboratory TM-2203) compares overall coefficients for some of these surfaces when boiling fresh water in 0.051-m (2-in) tubes 2.44-m (8-ft) long at atmospheric pressure in both upflow and downflow. The area basis used was the nominal outside area. Tube 20 was a smooth 0.0016-m- (0.062-in-) wall aluminum brass tube that had accumulated about 6 years of fouhng in seawater service and exhibited a fouling resistance of about (2.6)(10 ) (m s K)/ J [0.00015 (fF -h-°F)/Btu]. Tube 23 was a clean aluminum tube with 20 spiral corrugations of 0.0032-m (lA-in) radius on a 0.254-m (10 -in)... 

Many shell-and-tube condensers use copper alloy tubes, such as admiralty brasses (those containing small concentrations of arsenic, phosphorus, or antimony are called inhibited grades), aluminum brasses, and cupronickel austenitic stainless steel and titanium are also often used. Utility surface condensers have used and continue to use these alloys routinely. Titanium is gaining wider acceptance for use in sea water and severe service environments but often is rejected based on perceived economic disadvantages. 

Because alterations to equipment design can be cumbersome and expensive, a more economical approach may be to change the metallurgy of affected components. Metals used in typical cooling water environments vary in their resistance to erosion-corrosion. Listed in approximate order of increasing resistance to erosion-corrosion, these are copper, brass, aluminum brass, cupronickel, steel, low-chromium steel, stainless steel, and titanium. 

The resistance of a metal to erosion-corrosion is based principally on the tenacity of the coating of corrosion products it forms in the environment to which it is exposed. Zinc (brasses), aluminum (aluminum brass), and nickel (cupronickel) alloyed with copper increase the coating s tenacity. An addition of V2 to 1)4% iron to cupronickel can greatly increase its erosion-corrosion resistance for the same reason. Similarly, chromium added to iron-base alloys and molybdenum added to austenitic stainless steels will increase resistance to erosion-corrosion. 

Metallurgy is another cost versus operability factor for heat exchangers. For example, for seawater service some companies specify 90/10 Cu-Ni tubes as minimum and do not allow the cheaper, but more prone to corrosion, aluminum-brass. One can even consider going on up to 70/30 Cu-Ni, or to one of the modern, high-performance... 

Aluminium-hydrat, n. aluminum hydroxide, -iodat, n. aluminum iodate.. -jodid, n. aluminum iodide, -kaliumsulfat, n. aluminum potassium sulfate, -leglerung,/. aluminum alloy, -messing, n. aluminum brass, -oxydhydrat, n. aluminum hydroxide, -pul-ver, n. aluminum powder, -rhodanid, n. aluminum thiocyanate, -rohr, n., -rbhre, /. 

For surface condensers, the tubes, tubesheets, and shell should be consistent with experiences in heat exchanger construction. In sea or brackish water, one of the cupronickels or aluminum brass may be a good choice for tubes. The water boxes may be vertically divided to allow half of the unit to operate while the other half is being opened for repair or inspection. 

For most practical purposes, the onset of plastic deformation constitutes failure. In an axially loaded part, the yield point is known from testing (see Tables 2-15 through 2-18), and failure prediction is no problem. However, it is often necessary to use uniaxial tensile data to predict yielding due to a multidimensional state of stress. Many failure theories have been developed for this purpose. For elastoplastic materials (steel, aluminum, brass, etc.), the maximum distortion energy theory or von Mises theory is in general application. With this theory the components of stress are combined into a single effective stress, denoted as uniaxial yielding. Tlie ratio of the measure yield stress to the effective stress is known as the factor of safety. 

The transport of pre-boiler corrosion debris to the boiler section includes the oxides of iron, copper, nickel, zinc, and chromium and results from the corrosion of pre-heaters and condensers, and the like. Specifically, equipment components variously fabricated from admiralty brass, aluminum brass, cupronickels, and stainless steels are most affected. 

C) Confinement Effects. Acceptor samples 1 inch long and 0.254 inch diam, loaded at 32000 psi and confined in aluminum, brass... 

Electroplating is achieved by passing an electric current through a solution containing dissolved metal ions as well as the metal object to be plated. The metal object acts as a cathode in an electrochemical cell, attracting metal ions from the solution. Ferrous and nonferrous metal objects are typically electroplated with aluminum, brass, bronze, cadmium, chromium, copper, iron, lead, nickel, tin, and zinc, as well as precious metals such as gold, platinum, and silver. Common electroplating bath solutions are listed in Table 7-1. 

Metals and their alloys, like iron, copper, aluminum, brass, bronze. 

The Office of Saline Water is directing a large number of investigations into the feasibility of new processes for producing fresh water starting with sea or brackish water as a source. It is desired that these plants last for 20 years or more. This paper points up ways in which the economic waste resulting from corrosion in saline water plants can be avoided. The article is based on a review of the corrosion literature and on consultations with marine experts in the field. Of the many materials for distillation plants, steel is the most important. It can be used to handle sea water below 250° F., if proper steps are taken such as the removal of all air (oxygen) from solution. For severe service and better performance metals like titanium, Hastelloy C, Monel, cupro-nickels, aluminum, aluminum brass, or Admiralty brass are used. 

Another widely used alloy in cooling-water service is aluminum brass, 76 Cu-22 Zn-2 Al. The aluminum content improves the resistance to velocity and impingement. This alloy seems to be more susceptible to pitting than some of the other copper alloys in stagnant sea water. Arsenic is added as an inhibitor of dezincification. 

A large number of copper-base and nickel-base alloys (such as cupro-nickels, Monel, and aluminum brass) have been used in sea-water service with success. Special materials such as Hastelloy C, Illium, and titanium are available for extremely corrosive situations. The evidence, so far, indicates titanium to be outstanding and to rank above other commercially available metals in corrosion resistance under conditions involving high temperature, velocity, and other adverse environmental conditions. 

Figure 2 ( ). These coefficients were determined when the following tubes were installed in the evaporator 2 copper, 1 Admiralty, 1 Ampco Grade 8, 2 aluminum brass, and 1 cupronickel. Each tube was 2 inches in outside diameter and 24 feet long, and had a 0.109-inch wall. The dashed curve of Figure 2 shows the heat transfer coefficients that were assumed in preparing the original estimates. In these tests, temperature differences...

It will also be possible by relatively minor piping changes to convert the forward-feed evaporator to backward feed, which might be more favorable if the calcium sulfate scale problem can be solved. Except for tubes, pump shaft sleeves, impellers, etc., the plant will be built exclusively of steel and cast iron. Tube materials will be evaluated by tubing different evaporator effects and heat exchangers with steel, admiralty metal, aluminum brass, and 90/10 cupronickel. The copper alloy tubes will be used exclusively in the final condenser and in the few heat exchangers that are in contact with nondeaerated sea water. 

Dispensers for gasoline and diesel fuel typically use steel, cast iron, aluminum, brass, bronze, and sometimes stainless steel components. Of these, only the steel, cast iron, and stainless steel components are compatible with methanol. The other parts will need to be nickel-plated or substitutes made from a compatible metal. Gasboy, Tokheim, and Wayne-Dresser have produced methanol-compatible versions of their gasoline dispensers. 

The materials used in propane dispensers include steel, wrought iron, brass, and aluminum. Dispensing nozzles are made from aluminum, brass, and steel. Few elastomer gaskets are used in propane systems—most are aluminum or steel. Propane dispensing systems should incorporate filters to prevent debris and heavy oils from being pumped into the vehicle fuel tank. 

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