Aluminiumbronze CuAl10Ni5Fe4 hexagon

Aluminiumbronze

CuAl10Ni5Fe4 (DIN)
CuAl10Ni5Fe4 (EN)

zeskant

HEXAGON

width across flats (mm) CuAl10Ni5Fe4 (DIN 17665 / 17672) ca. kg/m  
13 1,1  
14 1,3  
17 1,9  
19 2,3  
22 3,2  
24 3,8  
27 5,0  
30 5,9  
32 6,7  
36 8,5  
41 11,1  
46 13,9  
50 16,5  
55 19,9  

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Supply program / Dimensions

 

bar
round bar

tube
tube

square
square

rectangle
rectangle

sheet
sheet


hexagon
hexagon


CuAl10Ni 17 - 304 mm

32 x 18 mm -
213 x 157 mm

32 - 152 mm 32 x 22 mm -
384 x 105 mm
   
CuAl11Ni on request on request        
CuAl10Fe
(=Concast 954)
14 - 385 mm 33 x 17 mm -
232 x 174 mm
14 - 154 mm 26 x 8 mm -
384 x 105 mm
   
CuAl10Ni5Fe4 8 - 363 mm - 20 - 160 mm 20 x 10 mm -
160 x 25 mm
2 - 130 mm 10 - 70 mm

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Tolerances (sufficient for lengths up to 250 mm)

  Outside Inside
CuAl10Ni (DIN 1714) bars + 0 / + 2 mm  
CuAl10Ni (DIN 1714) tubes <150 mm + 0 / + 2 mm - 0 / - 2 mm
CuAl10Ni5Fe4 bars Ø 12 t/m Ø 20 mm
bars Ø 21 t/m Ø 30 mm
bars Ø 31 t/m Ø 80 mm
bars Ø 81 t/m Ø 100 mm
bars Ø 101 t/m Ø 162 mm
h11  
+ 0,5 mm  
+ 1 mm  
+ 1,5 mm  
+ 2,5 mm  
     


The machining allowance on the finished sizes is sufficient for lengths up to 250 mm. For finished part lengths over 250 mm - especially diameters over 172 mm - a higher machining allowance is necessary.

Standard lengths: ca. 3000 mm, 2000 mm, 1000 mm and 500 mm.

Our foundries are able to centrifugally cast (flanged) tubes in any size, up to a diameter of Ø 2000 mm and length up to 3000 mm in all current alloys.

On request:

  • Finished machined components to your requirements
  • Pattern casting
The given weights are theoretical.

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The differences between aluminiumbronze according Din 1714 and DIN 17665
 
Aluminiumbronze according DIN 1714 and EN 1982
 
These standards are applicable for all aluminiumbronzes which are produced by continuous casting and centrifugally casting. The given machining allowances are in use for maximum part lengths of 250 mm. For longer part lengths more machining allowance is necessary. The tolerances on the cast size are mostly -0/+2 mm for wallthicknesses of 12 mm and more. Deviations are always possible.
 
Aluminiumbronze according DIN 17665, 17672 en EN 12163, 21267, 12420
 
These standards are applicable for all aluminiumbronzes which are produced by extrusion or extrusion and cold drawing. This production form mainly produces round bars, hexagons, squares and rectangles. Material produced according these standards does not have a machining allowance. Tubes can only be produced according DIN 1714 (see above).

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CuAl9Ni | CuAl10Ni3Fe2-C

       
  DIN EN  
Alloy CuAl9Ni CuAl10Ni3Fe2-C  
  NiAlBz-F50    
Standard DIN 1714 EN 1982  
Alloy number 2.0970 CC332G  
       
Chemical composition   Mechanical properties
     
Cu 82,0 min. 80,0 - 86,0   DIN EN
Al 8,5 - 10,0 8,5 - 10,5 Rm ≥ 530 ≥ 550
Ni 1,5 - 4,0 1,5 - 4,0 Rp 0,2 ≥ 230 ≥ 220
Fe 1,0 - 3,0 1,0 - 3,0 A5 ≥ 20 ≥ 20
Mn 2,5 max. 2,0 max. HB ≥ 120 ≥ 120
       
kg/dm3 ca. 7,5    
Condition GZ, GK GC, GZ  

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CuAl10Ni | CuAl10Fe5Ni5-C

       
  DIN EN  
Alloy CuAl10Ni CuAl10Fe5Ni5-C  
  NiAlBz-F60    
Standard DIN 1714 EN 1982  
Alloy number 2.0975 CC333G  
       
Chemical composition   Mechanical properties
     
Cu 76,0 min. 76,0 - 83,0   DIN EN
Al 8,5 - 11,0 8,5 - 10,5 Rm ≥ 700 ≥ 650
Ni 4,0 - 6,5 4,0 - 6,0 Rp 0,2 ≥ 300 ≥ 280
Fe 3,5 - 5,5 4,0 - 5,5 A5 ≥ 13 ≥ 13
Mn 3,0 max.. 3,0 max. HB ≥ 160 ≥ 150
       
kg/dm3 ca. 7,6    
Condition GC, GK, GZ GC, GK, GZ  

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CuAl11Ni | CuAl11Fe6Ni6-C

       
  DIN EN  
Alloy CuAl11Ni CuAl11Fe6Ni6-C  
  NiAlBz-F68    
Standard DIN 1714 EN 1982  
Alloy number 2.0980 CC334G  
       
Chemical composition   Mechanical properties
     
Cu 73,0 min. 72,0 - 78,0   DIN EN
Al 9,0 - 12,3 10,0 - 12,0 Rm ≥ 750 ≥ 750
Ni 5,0 - 7,5 4,0 - 7,5 Rp 0,2 ≥ 400 ≥ 380
Fe 4,0 - 7,0 4,0 - 7,0 A5 ≥ 5 ≥ 5
Mn 2,5 max.. 2,5 max. HB ≥ 185 ≥ 185
       
kg/dm3 ca. 7,6    
Condition GC GZ  
Characteristics Comparable with CuAl10Ni, but this alloy had better cavitation and wear resistance properties. Typical use for heavy duty bearings or machine parts.

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CuAl10Fe | CuAl10Fe2-C

       
  DIN EN  
Alloy CuAl10Fe CuAl10Fe2-C  
  FeAlBz-F50    
Standard DIN 1714 EN 1982  
Alloy number 2.0940 CC331G  
       
Chemical composition   Mechanical properties
     
Cu 83,0 min. 83,0 - 89,5   DIN EN
Al 8,0 - 11,0 8,5 - 10,5 Rm ≥ 550 ≥ 550
Ni 3,0 max. 1,5 max. Rp 0,2 ≥ 200 ≥ 200
Fe 2,0 - 4,0 1,5 - 3,5 A5 ≥ 15 ≥ 15
Mn 1,0 max.. 1,0 max. HB ≥ 115 ≥ 130
       
kg/dm3 ca. 7,5    
Condition GZ GC, GZ  
Characteristics Aluminiumbronze with higher tensile strength, good wear resistance and a fine microstructure. Due to lower nickel content this alloy is not corrosion resistant. See also Concast 954

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CuAl10Ni5Fe4

       
  DIN EN  
Alloy CuAl10Ni5Fe4 CuAl10Ni5Fe4  
Standard DIN 17665, 17672 EN 12163, 12167, 12420, 1653  
Alloy number 2.0966 CW307G  
       
Chemical composition   Mechanical properties
     
Cu rest rest   DIN EN
Al 8,5 - 11,0 8,5 - 11,0 Rm ≥ 640 ≥ 680
Ni 4,0 - 6,0 4,0 - 6,0 Rp 0,2 ≥ 270 ≥ 480
Fe 2,0 - 5,0 3,0 - 5,0 A5 ≥ 15 ≥ 10
Mn 1,5 max.. 1,0 max. HB ≥ 180  
       
kg/dm3 ca. 7,5    
Condition Drawn or pressed depending on the size  
Characteristics Construction and bearing material with good corrosion resistance, cavitation and mechanical wear, also at higher temperatures.

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CuAl10Fe3Mn2

       
  DIN EN  
Alloy CuAl10Fe3Mn2 CuAl10Fe3Mn2  
Standard DIN 17665, 17672 EN 12163, 12167, 12420  
Alloy number 2.0936 CW306G  
       
Chemical composition   Mechanical properties
     
Cu rest rest   DIN EN
Al 8,5 - 11,0 9,0 - 11,0 Rm ≥ 590 ≥ 590
Ni 2,0 - 4,0 2,0 - 4,0 Rp 0,2 ≥ 250 ≥ 330
Fe 1,5 - 3,5 1,5 - 3,5 A5 ≥ 12 ≥ 12
Mn 1,0 max.. 1,0 max. HB ≥ 150  
       
kg/dm3 ca. 7,6    
Condition Drawn or pressed depending on the size  
Characteristics Construcion material used in chemical machine building and fire resistant parts.
   
Remarks 1) mechanical properties are for instance depending on the size and specification of the alloy. The given values are from the most common standards.

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CuAl11Ni6Fe5 | CuAl11Fe6Ni6

       
  DIN EN  
Alloy CuAl11Ni6Fe5 CuAl11Fe6Ni6  
Standard DIN 17665, 17672 EN 12163, 12167, 12420  
Alloy number 2.0978 CW308G  
       
Chemical composition   Mechanical properties
     
Cu rest rest   DIN EN
Al 10,5 - 12,5 10,5 - 12,0 Rm ≥ 590 ≥ 590
Ni 5,0 - 7,5 5,0 - 7,0 Rp 0,2 ≥ 250 ≥ 330
Fe 4,8 - 7,3 5,0 - 7,0 A5 ≥ 12 ≥ 12
Mn 1,5 max.. 1,5 max. HB ≥ 150  
       
kg/dm3 ca. 7,4    
Condition Drawn or pressed depending on the size  
Characteristics Comparable with CuAl10Ni5Fe4 though with higer mechanical values. Typical use heavy duty bearings and machine parts,
   
Remarks 1) Mechanical properties are for instance depending on the sizes and specification of the alloy. The given values are from the most common standards.

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