Factory Supply Customized Different Size Brass Flat Washer Stainless Steel Brass Washer Manufacturer

Min.Order: 1
Product origin: Xi'an, Shaanxi, China
Infringement complaint: complaintComplaint
US$ -1

Description

 

Product Description


Copper and Copper Alloy Casting Methods

Many existing methods of producing copper base alloy castings may be broadly subdivided into six separate headings as follows:
1. Sand casting and CO2 process
2. Shell molded casting
3. Die-casting
4. Chill casting
5. Centrifugal casting
6. Continuous casting
Other processes include precision investment casting and plaster mould casting.

Product Parameters

 

Material grade
(GB)
Main featuresApplications
ZCuPb10Sn10Lubrication performance, wear resistance and corrosion resistant performance is good, suitable for bimetal casting materialsSurface pressure is high, and there is the lateral pressure of the sliding bearing, such as rolling rolling, vehicle use bearing, load peaks 60 mpa hit parts, as well as the highest peak of 100 mpa bimetallic bearing bush of the internal combustion engine, and the piston pin sets, lining, etc.
ZCuPb15Sn8Under the condition of lack of lubricant and use water quality lubricants, sliding and lubricating, free cutting, casting performance is poor, for dilute sulfuric acid corrosion resistant performance is goodSurface pressure is high, and the lateral pressure of bearing, copper cooling pipe can be made from cold rolling mill, impact resistance load of up to 50 mpa parts, internal combustion engines of bimetallic bearing, mainly used for the biggest load of 70 mpa of piston pin set, acid-proof accessories
ZCuPb20Sn5At higher sliding performance, in the absence of a lubricating medium and water as medium are particularly good self-lubricating performance suitable for bimetal casting material, sulfuric acid corrosion resistance, easy cutting, casting performance is poorHigh sliding speed of the bearing, and crusher, water pump, cold rolling mill bearings, piston pin load of 70 mpa
ZCuPb30Have good self-lubrication, free cutting, casting performance is poor, easy to produce the gravity segregationHigh sliding velocity of bimetallic bearing shell, wearing parts, etc.
ZCuZn25Al6Fe3Mn3With high mechanical properties, the casting performance is good, good corrosion resistance, has a tendency to stress corrosionSuitable for high strength, wear parts, such as bridge plate, nut, screw, wear-resistant plate, the slider, and worm gear, etc
 
ZCuZn26Al4Fe3Mn3With high mechanical properties, the casting performance is good, in the air, water, and seawater corrosion resistance is good, can be weldedRequire high strength, corrosion resistant parts
ZCuZn38Mn2Pb2Have higher mechanical properties and good corrosion resistance, abrasion resistance, good cutting performanceGeneral purpose structure, ship, instrument appearance, simple casting using such as sleeve, sleeve, bearings, slider, etc
ZCuZn40Mn3Fe1With high mechanical properties, good casting properties and machinability, and in the air, water, and water has good corrosion resistance, has a tendency to stress corrosion crackingSeawater corrosion parts, pipe fittings and under 300 °C, manufacturing and other large Marine propeller castings
ZCuZn33Pb2Structural material, feed temperature is 90 °C when good oxidation resistance, electrical conductivity of about 10 ~ 14 ms/mThe shell of gas and water supply equipment, machinery manufacturing, electronics, precision instruments and optical instruments of component parts
Other standard and materialASTM, JIS, AISI, EN, BS;
Manganese brass: C86300 and etc.;
Tin bronze: C83600, C93200, CuSn12, CuSn7Zn4Pb7 and etc.;
Aluminum Bronze: C62900, C95400, C95500, CuAl10Fe5Ni5 and etc..
 
SpecificationCustomized Bronze/Brass/Copper Alloy Centrifugal Casting Bushing with oil groove in China
MaterialStainless steel, Alloy Steel, Brass, Copper, Aluminum, Aluminum alloy, Iron
MachiningCNC machining center, CNC lathe
Casting toleranceIT5 - IT7,CT5-7
Machining tolerance+/- 0.005mm,ISO2768-f,ISO-mk
Heat treatmentSolid solution annealed, quench and tempering
Weight range0.1Kg-120Kg
Dimensions ≤1200mm×800mm×400mm
Surface finishRa 1.6-Ra 3.2
FinishPolishing ,Shoot blasting ,Glass bead sand blasting ,etc.

 
item
Customized copper casting
Place of Origin
China
 
Shaanxi
Brand Name
CXYS
Model Number
CXYS-ZT001
Application
Shaft, gear,bearing
Weight
Depends on customers' technical drawing
Dimensions
Customized
Grade
Tin bronze, lead bronze, aluminum bronze, aluminum brass, manganese brass, lead brass, silicon brass
Alloy Or Not
Non-Alloy
Powder Or Not
Not Powder
Cu Content (%)
56%-89%
Processing Service
Casting
Color
Yellow
Shape
Customer's Demand
Material
copper and brass
MOQ
1 PC
Our Advantages

 

9 THINGS TO KNOW ABOUT CASTING COPPER ALLOYS

Cast copper is a versatile material with a variety of alloys. The metal is used in plumbing fixtures, ship propellers, power plant water impellers and bushing and bearing sleeves because it is easy to cast, has a long history of successful use, is readily available from a multitude of sources, can achieve a range of physical and mechanical properties and is easily machined, brazed, soldered, polished or plated. In the U.S., copper accounts for approximately 2.8% of total casting production, according to the 2018 World Census of Casting Production reported by Modern Casting magazine. Following are 10 qualities of cast copper alloys design engineers should know.

1. Almost all copper alloys retain their mechanical properties at low temperatures. 

Typical mechanical properties of copper include good corrosion resistance, impact toughness, superior thermal and electrical conductivity, and the ability to inhibit marine organism growth.

2. All copper alloys can be produced via sand casting. 

Other casting methods conducive to copper alloys include centrifugal, continuous, permanent mold, investment and diecasting. The choice of alloy and casting method determines the mechanical and physical properties, section size, wall thickness and surface finish that can be achieved.

3. Leaded copper alloys still have several industrial applications

While leaded alloys are no longer used in potable water applications, they are still useful for other instances where low friction and wear rates are desired. For instance, high-leaded tin bronzes are cast into sleeve bearings and exhibit lower wear rates than steel.

4. As a class, cast copper-based alloys are easy to machine (especially when compared to stainless steels and titanium, their main competitors for corrosion resistance). 

Leaded copper-base alloys are the easiest to machine. These alloys are free-cutting and form small, fragmented chips while generating little heat. Next in order of machinability are moderate to high-strength alloys with second phases in their microstructures, such as unleaded yellow brasses, manganese bronzes and silicon brasses and bronzes. These alloys form short, brittle, tightly curled chips that tend to break into manageable segments. While the surface finish on these alloys will be good, the cutting speed will be lower and tool wear will increase.
The most difficult copper-base alloys for machining are the single-phase alloys such as high conductivity copper, chromium copper, beryllium copper, aluminum bronze and copper-nickel. Their general tendency during machining is to form long, stringy chips that interfere during high-speed machining operations. In addition, pure copper and high-nickel alloys tend to weld to the tool face, impairing surface finish.  

5. Post-casting processing can further enhance cast copper parts' appeal. 

Secondary steps such as polishing, plating, soldering, brazing and welding can be performed on cast copper alloys for improved surface finish and high tolerance control.

Both gas-tungsten-arc and gas-metal-arc can produce X-ray quality welds when repairing minor defects in copper castings. Shielded-metal-arc welding also can be used, but the method is more difficult to control. Oxyacetylene welding mainly is used to join thin sections. Electron beam welding produces precise welds of high quality in both oxygen-free and deoxidized copper.

In general, alloys containing appreciable amounts of lead cannot be welded, as the lead remains liquid after the weld solidifies, forming cracks in high stress fields. All cast copper alloys can be brazed and soldered to themselves and to steel, stainless steel and nickel-base alloys. Even leaded copper alloys can be brazed, but the conditions must be controlled.

Copper phosphorous alloys, silver-based brazing alloys and copper-zinc alloys are most often used as filler metals. Gold-based alloys are used for electrical applications, and tin-based solders are used for household plumbing.

The heat of brazing may cause some loss of strength in heat-treated copper alloys, but special techniques have been developed to remedy the problem. When necessary, the entire brazed casting can be heat treated to produce a uniform structure. The corrosion resistance of copper-base alloys is not affected by brazing, except in special situations.

6. Cast copper comes in a wide range of alloy choices, making it a suitable candidate for many applications, depending on design loads and environment corrosivity.

7. Designing for cast copper alloys requires careful planning for thick and thin sections. 

Using both should be avoided, but when both are necessary, the thicker section should always be blended or tapered gradually into the thinner one. Thick-to-thin section design becomes an even larger problem for copper-base alloys with wide freezing ranges such as red brasses, tin bronzes and, to some extent, the medium freezing range alloys such as the yellow brasses. These alloys, which account for the highest level of casting production, do not solidify directionally. While proper risering helps combat this, it doesn't have the same effect as directional solidification. 

To counteract the solidification issues with wide-freezing range copper alloys, metalcasters use chills and chromite and zircon sand cores to promote the proper solidification. Chilling these sections can be more effective than using a riser, though each of these tools increases the cost of a finished casting.

8. Whenever possible, L, T and X intersections should be avoided. 

When T sections cannot be avoided, adverse effects can be minimized by providing generous radii at corners and making the arms unequal in thickness. Additionally, "dimpling" (a small indent at the top of the T's intersection) can help reduce the severity of hot spots. X intersections have particularly adverse effects in copper castings. They are almost always avoidable, though, by converting an X intersection into two offset T sections, for example.

9. Costs are comparable to other metals due to high yield, low machining costs and little requirement for surface coatings, such as paint.    CS

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