Wire C42

High carbon steel wire rods with carbon content of 0.4% to 0.85% and pearlitic microstructure are known as high strength wire rods which have wide range of applications in production of springs with various amount of stiffness, pre stressed concrete (PC) strands and wires, aerial conductors (ACSR), etc. High percent of carbon and manganese lead to high strain hardening rates, therefore after cold drawing process, predominant increase in ultimate tensile strength with respect to primary mechanical properties will be obtained. Several grades of this group of wire rods including C42, C47, C62, C68, C72 and C82 are manufactured according to specifications indicated by EN 10016 standard. Following tables indicate mechanical and chemical properties.  

High carbon steel wire rods :

Production process Microstructure Type of product Standard Grade
Hot rolling Pearlite+ferrite Wire rod EN 10016 C42D2

Mechanical properties :

Elongattion

Reduction of area R.A(%) Yield strength(MPa) Tensile strength(MPa) Tensile test standard
30-35 45-55 460-500 720-770

ISO 6892-1

Chemical Analysis :

Al

Cu Ni Mo Cr S P Mn Si C Alloy

-

- - - - - - 0.5 0.1 0.40

Min.

0.01 0.01 0.05 0.05 0.05 0.02 0.02 0.7 0.3 0.44

Max.

   

Max. of ovality

Available sizes(mm)

0.2mm

5.5,6.5

Wire C47

High carbon steel wire rods with carbon content of 0.4% to 0.85% and pearlitic microstructure are known as high strength wire rods which have wide range of applications in production of springs with various amount of stiffness, pre stressed concrete (PC) strands and wires, aerial conductors (ACSR), etc. High percent of carbon and manganese lead to high strain hardening rates, therefore after cold drawing process, predominant increase in ultimate tensile strength with respect to primary mechanical properties will be obtained. Several grades of this group of wire rods including C42, C47, C62, C68, C72 and C82 are manufactured according to specifications indicated by EN 10016 standard. Following tables indicate mechanical and chemical properties.  

High carbon steel wire rods :

Production process Microstructure Type of product Standard Grade
Hot rolling Pearlite+Ferrite Wire rod EN 10016 C47

Mechanical properties :

Elongattion

Reduction of area R.A(%) Yield strength(MPa) Tensile strength(MPa) Tensile test standard
30-35 45-55 480-550 780-840

ISO 6892-1

Chemical Analysis :

Al

Cu Ni Mo Cr S P Mn Si C Alloy

-

- - - - - - 0.5 0.1 0.45

Min.

0.01 0.01 0.05 0.05 0.05 0.02 0.02 0.7 0.3 0.49

Max.

   

Max. of ovality

Available sizes(mm)

0.2mm

5.5,6.5

 

Wire C62

High carbon steel wire rods with carbon content of 0.4% to 0.85% and pearlitic microstructure are known as high strength wire rods which have wide range of applications in production of springs with various amount of stiffness, pre stressed concrete (PC) strands and wires, aerial conductors (ACSR), etc. High percent of carbon and manganese lead to high strain hardening rates, therefore after cold drawing process, predominant increase in ultimate tensile strength with respect to primary mechanical properties will be obtained. Several grades of this group of wire rods including C42, C47, C62, C68, C72 and C82 are manufactured according to specifications indicated by EN 10016 standard. Following tables indicate mechanical and chemical properties.  

High carbon steel wire rods :

Production process Microstructure Type of product Standard Grade
Hot rolling Pearlite Wire rod EN10016 C62D2

Mechanical properties :

Elongattion

Reduction of area R.A(%) Yield strength(MPa) Tensile strength(MPa) Tensile test standard
23-35 35-45 580-610 910-960

ISO 6892-1

Chemical Analysis :

Al

Cu Ni Mo Cr S P Mn Si C Alloy

-

- - - - - - 0.5 0.1 0.60

Min.

0.01 0.01 0.05 0.05 0.05 0.02 0.02 0.7 0.3 0.64

Max.

   

Max. of ovality

Available sizes(mm)

0.2mm

5.5,6.5,8,10

Wire C68

High carbon steel wire rods with carbon content of 0.4% to 0.85% and pearlitic microstructure are known as high strength wire rods which have wide range of applications in production of springs with various amount of stiffness, pre stressed concrete (PC) strands and wires, aerial conductors (ACSR), etc. High percent of carbon and manganese lead to high strain hardening rates, therefore after cold drawing process, predominant increase in ultimate tensile strength with respect to primary mechanical properties will be obtained. Several grades of this group of wire rods including C42, C47, C62, C68, C72 and C82 are manufactured according to specifications indicated by EN 10016 standard. Following tables indicate mechanical and chemical properties.  

High carbon steel wire rods :

Production process Microstructure Type of product Standard Grade
Hot rolling Pearlite Wire rod EN 10016 C68D2

Mechanical properties :

Elongattion

Reduction of area R.A(%) Yield strength(MPa) Tensile strength(MPa) Tensile test standard
25-35 35-45 610-680 960-1040

ISO 6892-1

Chemical Analysis :

Al

Cu Ni Mo Cr S P Mn Si C Alloy

-

- - - - - - 0.5 0.1 0.66

Min.

0.01 0.01 0.05 0.05 0.05 0.02 0.02 0.7 0.3 0.70

Max.

   

Max. of ovality

Available sizes(mm)

0.2mm

5.5,6.5,8,10

Wire C72

High carbon steel wire rods with carbon content of 0.4% to 0.85% and pearlitic microstructure are known as high strength wire rods which have wide range of applications in production of springs with various amount of stiffness, pre stressed concrete (PC) strands and wires, aerial conductors (ACSR), etc. High percent of carbon and manganese lead to high strain hardening rates, therefore after cold drawing process, predominant increase in ultimate tensile strength with respect to primary mechanical properties will be obtained. Several grades of this group of wire rods including C42, C47, C62, C68, C72 and C82 are manufactured according to specifications indicated by EN 10016 standard. Following tables indicate mechanical and chemical properties.  

High carbon steel wire rods :

Production process Microstructure Type of product Standard Grade
Hot rolling Pearlite Wire rod EN 10016 C72D2

Mechanical properties :

Elongattion

Reduction of area R.A(%) Yield strength(MPa) Tensile strength(MPa) Tensile test standard
25-35 30-45 650-710 1030-1090

ISO 6892-1

Chemical Analysis :

Al

Cu Ni Mo Cr S P Mn Si C Alloy

-

- - - - - - 0.5 0.1 0.70

Min.

0.01 0.01 0.05 0.05 0.05 0.02 0.02 0.7 0.3 0.74

Max.

   

Max. of ovality

Available sizes(mm)

0.2mm

5.5,6.5,8,10

Wire C82

High carbon steel wire rods with carbon content of 0.4% to 0.85% and pearlitic microstructure are known as high strength wire rods which have wide range of applications in production of springs with various amount of stiffness, pre stressed concrete (PC) strands and wires, aerial conductors (ACSR), etc. High percent of carbon and manganese lead to high strain hardening rates, therefore after cold drawing process, predominant increase in ultimate tensile strength with respect to primary mechanical properties will be obtained. Several grades of this group of wire rods including C42, C47, C62, C68, C72 and C82 are manufactured according to specifications indicated by EN 10016 standard. Following tables indicate mechanical and chemical properties.  

High carbon steel wire rods :

Production process Microstructure Type of product Standard Grade
Hot rolling Pearlite Wire rod EN 10016 C82D2

Mechanical properties :

Elongattion

Reduction of area R.A(%) Yield strength(MPa) Tensile strength(MPa) Tensile test standard
20-30 30-45 730-820 1080-1200

ISO 6892-1

Chemical Analysis :

Al

Cu Ni Mo Cr S P Mn Si C Alloy

-

- - - - - - 0.5 0.1 0.80

Min.

0.01 0.01 0.05 0.05 0.05 0.02 0.02 0.7 0.3 0.84

Max.

   

Max. of ovality

Available sizes(mm)

0.2mm

5.5,6.5,8,10