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Carbon Steel

Technical Features of Carbon Steel
These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or p Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the c content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more def than carbon steels with higher carbon content.

                             
 
 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSi max.Mnmax.max.Cr max.Mo max.Ni max.     
     SAE 1008max. 0,100,30 – 0,500,0400,050     
     SAE 10100,08 – 0,130,30 – 0,600,0400,050     
     SAE 10200,18 – 0,230,30 – 0,600,0400,050     
     SAE 10300,28 – 0,340,60 – 0,900,0400,050     
     SAE 10400,37 – 0,440,60 – 0,900,0400,050     
     SAE 10450,43 – 0,500,60 – 0,900,0400,050     
     SAE 10500,48 – 0,550,60 – 0,900,0400,050     
     SAE 10600,55 – 0,650,60 – 0,900,0400,050     
     CK450,42 – 0,500,400,50 – 0,800,0350,030     
     C22E0,17 – 0,240,400,40 – 0,700,030max. 0,0350,400,100,40     
     C22R0,020 – 0, 040     
     C35E0,32 – 0,390,400,50 – 0,800,030max. 0,0350,400,100,40     
     C35R0,020 – 0, 040     
     C40E0,37 – 0,440,400,50 – 0,800,030max. 0,0350,400,100,40     
     C40R0,020 – 0, 040     
     C45E0,42 – 0,500,400,50 – 0,800,030max. 0,0350,400,100,40     
     C45R0,020 – 0, 040     
     C50E0,47 – 0,550,400,60 – 0,900,030max. 0,0350,400,100,40     
     C50R0,020 – 0, 040     
     C60E0,57 – 0,650,400,60 – 0,900,030max. 0,0350,400,100,40     
     C60R0,020 – 0, 040     
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
  ASTM A29: Carbon and Alloy Steels Standarts for General Requirements           
  DIN 17200:1987 Steels for Reclamation Process – Technical Delivery Conditions              
  EN 10083-2:2006 Steels for Reclamation – Part 2: Technical Delivery Conditions for Non-alloyed Steels         
                             
  3.AREAS OF USE                     
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
                             
                             
       1008 Carbon Steel Technical Features According to ASTM A29       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.
Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon
content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable than carbon steels with higher carbon content.		   
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  SAE 1008                 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSiMnPmax.Smax.CrMoNi     
     SAE 1008max. 0,10     –     0,30 – 0,500,0400,050     –          –          –          
          
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
                             
  ASTM A29: Carbon and Alloy Steels Standarts for General Requirements           
                             
  3.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
              1010 Carbon Steel Technical Features According to ASTM A29 These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus. Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable than carbon steels with higher carbon content.
                                         
 
 
                                                         
                                                         
    Material Name:               Material No:               Equivalent Qualities:  
    SAE 1010                               C10  
                                                         
    1.  CHEMICAL COMPOSITION                                        
                                                         
                Chemical Composition % by Mass          
          Quality C Si Mn Pmax. Smax. Cr Mo Ni          
          SAE 1010 0,08 – 0,13      –      0,30 – 0,60 0,040 0,050      –           –           –               
                   
                                                         
    2. TECHNICAL DELIVERY CONDITIONS                                        
                                                         
    ASTM A29: Carbon and Alloy Steels Standarts for General Requirements                      
                                                         
    3. AREAS OF USE                                          
                                                         
    Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.                  
       1020 Carbon Steel Technical Features According to ASTM A29
These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.
Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformablethan carbon steels with higher carbon content.		       
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  SAE 1020               C20 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSiMnPmax.Smax.CrMoNi     
     SAE 10200,18 – 0,23     –     0,30 – 0,600,0400,050     –          –          –          
          
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
                             
  ASTM A29: Carbon and Alloy Steels Standarts for General Requirements           
                             
  3.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         

1030 Carbon Steel Technical Features According to ASTM A29
These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus. Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable than carbon steels with higher carbon content.

                             
 
 
                             
                             
  Material Name:       Material No::       Equivalent Qualities: 
  SAE 1030               C30 
                             
  1. CHEMICAL COMPOSITION                     
                             
        KChemical Composition % by Mas     
     QualityCSiMnPmax.Smax.CrMoNi     
     SAE 10300,28 – 0,34     –     0,60 – 0,900,0400,050     –          –          –          
          
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
                             
  ASTM A29: Carbon and Alloy Steels Standarts for General Requirements           
                             
  3.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
       1040 Carbon Steel Technical Features According to ASTM A29       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon  
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  SAE 1040               C40 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSiMnPmax.Smax.CrMoNi     
     SAE 10400,37 – 0,44     –     0,60 – 0,900,0400,050     –          –          –          
          
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
                             
  ASTM A29: Carbon and Alloy Steels Standarts for General Requirements           
                             
  3.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
1045 Carbon Steel Technical Features According to ASTM A29
These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.
Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon
content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable
than carbon steels with higher carbon content.
Material Name: Material No: Equivalent Qualities:
SAE 1045 C45
1.  CHEMICAL COMPOSITION
Chemical Composition % by Mass
Quality C Si Mn Pmax. Smax. Cr Mo Ni
SAE 1045 0,43 – 0,50      –      0,60 – 0,90 0,040 0,050      –           –           –     
2. TECHNICAL DELIVERY CONDITIONS
ASTM A29: Carbon and Alloy Steels Standarts for General Requirements
3. AREAS OF USE
Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.
1050 Carbon Steel Technical Features According to ASTM A29
These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.
Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon
content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable
than carbon steels with higher carbon content.
Material Name: Material No: Equivalent Qualities:
SAE 1050 C50
1.  CHEMICAL COMPOSITION
Chemical Composition % by Mass
Quality C Si Mn Pmax. Smax. Cr Mo Ni
SAE 1050 0,48 – 0,55      –      0,60 – 0,90 0,040 0,050      –           –           –     
2. TECHNICAL DELIVERY CONDITIONS
ASTM A29: Carbon and Alloy Steels Standarts for General Requirements
3. AREAS OF USE
Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.
       1060 Carbon Steel Technical Features According to ASTM A29       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon  
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  SAE 1060               C60 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSiMnPmax.Smax.CrMoNi     
     SAE 10600,55 – 0,65     –     0,60 – 0,900,0400,050     –          –          –          
          
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
                             
  ASTM A29: Carbon and Alloy Steels Standarts for General Requirements           
                             
  3.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
       CK45 Carbon Steel Technical Features According to DIN17200       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon  
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  CK45       1.1191       SAE 1045 
                             
  1. CHEMICAL COMPOSITION                     
                             
        Chemical Composition % by Mass     
     QualityCSimax.MnPmax.Smax.CrMoNi     
     CK450,42 – 0,500,400,50 – 0,800,0350,030    –        –        –         
          
                             
  2.TECHNICAL DELIVERY CONDITIONS                    
                             
  DIN 17200:Steels for 1987 Reclamation Process – Technical Delivery Conditions              
                             
  3.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
       C22 Carbon Steel Technical Features According to EN10083-2       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon  
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  C22E       1.1151       SAE 1020 
  C22R       1.1149       AFNOR XC18  
                        AFNOR XC18u 
                             
  1. CHEMICAL COMPOSITION                     
                             
        Chemical Composition % by Mass     
     QualityCSimax.MnPmax.SCrmax.Momax.Nimax.     
     C22E0,17 – 0,24  0,40  0,40 – 0,70  0,030 max. 0,0350,400,100,40     
     C22R0,020 – 0, 040     
        % Cr + Mo + Ni ≤ 0,63     
                             
  2.MECHANICAL FEATURES                     
                             
  Cold Cutability Annealing (+S):Under suitable conditions, the relevant qualities with hardenability requirements can be  
         cut without heat treatment.               
  Soft Annealing (+A):                   
                             
  Reclamation (Quench and Temper) (+QT):                  
                             
         Mechanical features in a reclaimed state (+QT) in room temperature     
         d ≤ 16mm16mm< d ≤40 mm40mm< d ≤100mm100mm< d ≤160mm160mm< d ≤250mm     
         t ≤ 8 mm8mm< t ≤20mm20mm< t ≤60mm60mm< t ≤100mm100mm< t ≤160mm     
     Re min.340290     
     Rm500 – 650470 – 620     
     Amin.2022     
     Zmin.5050     
     KVb min.50     
                             
                             
  Normalised (+N):                    
                             
        Mechanical features in a normalised state (+N) in room temperature       
        d ≤ 16mm16mm< d ≤100 mm100mm< d ≤250mm      
        t ≤ 16 mm16mm< t ≤100mm100mm< t ≤250mm      
    Re min.240290      
    Rm430470 – 620      
    Amin.2422      
                             
    Yield StrengthRe min.MPa      
    Tensile StrengthRmMPa      
    ElongationAmin.%      
    Cross Section ShrinkageZmin.%      
    Notch Impact StrengthKVb min.Joule      
    1 MPa = 1 N/mm2      
                             
  3. TECHNICAL DELIVERY CONDITIONS                    
                             
  EN 10083-2 : Steels for 2006 Reclamation – Part 2: Non-alloyed Steels for Technical Delivery Conditions         
                             
  4.AREAS OF USE                     
                             
  Carbon steels; are used in the making of general machine components such as mil, shaft, bolt, and nut.         
       C35 Carbon Steel Technical Features According to EN10083-2       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.    
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon   
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  C35E       1.1181       SAE 1035 
  C35R       1.1180       AFNOR XC38 
                        AFNOR XC38u 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass
     
     QualityCSimax.MnPmax.SCrmax.Momax.Nimax.     
     C35E0,32 – 0,390,400,50 – 0,800,030max. 0,0350,400,100,40     
     C35R0,020 – 0, 040     
        % Cr + Mo + Ni ≤ 0,63     
                             
  2.MECHANICAL FEATURES                     
                             
  Cold Cutability Annealing (+S):Under suitable conditions, the relevant qualities with hardenability requirements can be  
         cut without heat treatment.               
  Soft Annealing (+A):                   
  Surface Hardening Operation*:min. 48 HRC                 
  *after flame or induction hardening                   
                             
  Reclamation (Quench and Temper) (+QT):                  
                             
         Islah Edilmiş Durumda (+QT) Oda Sıcaklığında Mekanik Özellikler     
         d ≤ 16mm16mm< d ≤40 mm40mm< d ≤100mm100mm< d ≤160mm160mm< d ≤250mm     
         t ≤ 8 mm8mm< t ≤20mm20mm< t ≤60mm60mm< t ≤100mm100mm< t ≤160mm     
     Re min.430380320     
     Rm630 – 780600 – 750550 – 700     
     Amin.171920     
     Zmin.404550     
     KVb min.3535     
                             
  Normalised (+N):                    
                             
        Normalize Yapılmış Durumda (+N) Oda Sıcaklığında Mekanik Özellikler      
        d ≤ 16mm16mm< d ≤100 mm100mm< d ≤250mm      
        t ≤ 16 mm16mm< t ≤100mm100mm< t ≤250mm      
    Re min.300270245      
    Rm550520500      
    Amin.181919      
                             
    Yield StrengthRe min.MPa      
    Tensile StrengthRmMPa      
    ElongationAmin.%      
    Cross Section ShrinkageZmin.%      
    Notch Impact StrengthKVb min.Joule      
    1 MPa = 1 N/mm2      
                             
  3. TECHNICAL DELIVERY CONDITIONS                    
                             
  EN 10083-2: Steels for 2006 Reclamation – Part 2: Non-alloyed Steels for Technical Delivery Conditions         
                             
  4.AREAS OF USE                     
                             
  Carbon steels; are used in making all kinds of machine components such as mil, shaft, bolt, and nut.         
              C40 Carbon Steel Technical Features According to EN10083-2 These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus. Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deforma
                                         
 
 
                                                         
                                                         
    Material Name:               Material No:               Equivalent Qualities:  
    C40E               1.1186               SAE 1040  
    C40R               1.1189               AFNOR XC42H1  
                                                AFNOR XC42H1u  
                                                         
    1.  CHEMICAL COMPOSITION                                        
                                                         
                Chemical Composition % by Mass          
          Quality C Simax. Mn Pmax. S Crmax. Momax. Nimax.          
          C40E 0,37 – 0,44 0,40 0,50 – 0,80 0,030 max. 0,035 0,40 0,10 0,40          
          C40R 0,020 – 0, 040          
                % Cr + Mo + Ni ≤ 0,63          
                                                         
    2. MECHANICAL FEATURES                                          
                                                         
    Under suitable conditions, the relevant qualities with hardenability requirements can be cut without heat treatment.    
                             
    Soft Annealing (+A):                                      
    Surface Hardening Operation*: min. 48 HRC                                  
    *after flame or induction hardening                                      
                                                         
    Reclamation (Quench and Temper) (+QT):                                    
                                                         
                  Mechanical features in a reclaimed state (+QT) in room temperature          
                  d ≤ 16mm 16mm< d ≤40 mm 40mm< d ≤100mm 100mm< d ≤160mm 160mm< d ≤250mm          
                  t ≤ 8 mm 8mm< t ≤20mm 20mm< t ≤60mm 60mm< t ≤100mm 100mm< t ≤160mm          
          Re min. 460 400 350          
          Rm 650 – 800 630 – 780 600 – 750          
          Amin. 16 18 19          
          Zmin. 35 40 45          
          KVb min. 30 30          
                                                         
    Normalised (+N):                                        
                                                         
                Mechanical features in a normalised state (+N) in room temperature            
                d ≤ 16mm 16mm< d ≤100 mm 100mm< d ≤250mm            
                t ≤ 16 mm 16mm< t ≤100mm 100mm< t ≤250mm            
        Re min. 320 290 260            
        Rm 580 550 530            
        Amin. 16 17 17            
                                                         
        Yield Strength Re min. MPa            
        Tensile Strength Rm MPa            
        Elongation Amin. %            
        Cross Section Shrinkage Zmin. %            
        Notch Impact Strength KVb min. Joule            
        1 MPa = 1 N/mm2            
                                                         
    3.  TECHNICAL DELIVERY CONDITIONS                                        
                                                         
    EN 10083-2: Steels for 2006 Reclamation – Part 2: Non-alloyed Steels for Technical Delivery Conditions                  
                                                         
    4. AREAS OF USE                                          
                                                         
    Carbon steels; are used in making all kinds of machine components such as mil, shaft, bolt, and nut.                  
       C45 Carbon Steel Technical Features According to EN10083-2       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon  
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  C45E       1.1191       SAE 1045 
  C45R       1.1201       AFNOR XC45 
                        AFNOR XC45u 
                             
  1. CHEMICAL COMPOSITION                     
                             
        Chemical Composition % by Mass
     
     Quality
CSimax.MnPmax.SCrmax.Momax.Nimax.     
     C45E0,42 – 0,500,400,50 – 0,800,030max. 0,0350,400,100,40     
     C45R0,020 – 0, 040     
        % Cr + Mo + Ni ≤ 0,63     
                             
  2.MECHANICAL FEATURES                     
                             
  Cold Cutability Annealing (+S):max. 255 HB                 
  Soft Annealing (+A):max. 207 HB                 
  Surface Hardening Operation*:min. 55 HRC                 
  *after flame or induction hardening                   
                             
  Reclamation (Quench and Temper) (+QT):                  
                             
         Mechanical features in a reclaimed state (+QT) in room temperature     
         d ≤ 16mm16mm< d ≤40 mm40mm< d ≤100mm100mm< d ≤160mm160mm< d ≤250mm     
         t ≤ 8 mm8mm< t ≤20mm20mm< t ≤60mm60mm< t ≤100mm100mm< t ≤160mm     
     Re min.490430370     
     Rm700 – 850650 – 800630 – 780     
     Amin.141617     
     Zmin.354045     
     KVb min.2525     
                             
  Normalize İşlemi Yapılmış (+N):                    
                             
        Normalize Yapılmış Durumda (+N) Oda Sıcaklığında Mekanik Özellikler      
        d ≤ 16mm16mm< d ≤100 mm100mm< d ≤250mm      
        t ≤ 16 mm16mm< t ≤100mm100mm< t ≤250mm      
    Re min.340305275      
    Rm620580560      
    Amin.141616      
                             
    Yield StrengthRe min.MPa      
    Tensile StrengthRmMPa      
    ElongationAmin.%      
    Cross Section ShrinkageZmin.%      
    Notch Impact StrengthKVb min.Joule      
    1 MPa = 1 N/mm2      
                             
  3. TECHNICAL DELIVERY CONDITIONS                    
                             
  EN 10083-2: Steels for 2006 Reclamation – Part 2: Non-alloyed Steels for Technical Delivery Conditions         
                             
  4.AREAS OF USE                     
                             
  Carbon steels; are used in making all kinds of machine components such as mil, shaft, bolt, and nut.         
       EN10083-2 Standardına Göre C50 Karbon Çeliği Teknik Özellikleri       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon  
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  C50E       1.1206       SAE 1050 
  C50R       1.1241       AFNOR XC50 
                        AFNOR XC50u 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSimax.MnPmax.SCrmax.Momax.Nimax.     
     C50E0,47 – 0,550,400,60 – 0,900,030max. 0,0350,400,100,40     
     C50R0,020 – 0, 040     
        % Cr + Mo + Ni ≤ 0,63     
                             
  2.MECHANICAL FEATURES                     
                             
  Cold Cutability Annealing (+S):max. 255 HB                 
  Soft Annealing (+A):max. 217 HB                 
  Surface Hardening Operation*:min. 56 HRC                 
  *after flame or induction hardening                   
                             
  Reclamation (Quench and Temper) (+QT):                  
                             
         Mechanical features in a reclaimed state (+QT) in room temperature     
         d ≤ 16mm16mm< d ≤40 mm40mm< d ≤100mm100mm< d ≤160mm160mm< d ≤250mm     
         t ≤ 8 mm8mm< t ≤20mm20mm< t ≤60mm60mm< t ≤100mm100mm< t ≤160mm     
     Re min.520460400     
     Rm750 – 900700 – 850650 – 800     
     Amin.131516     
     Zmin.303540     
     KVb min.     
                             
  Normalised (+N):                    
                             
        Mechanical features in a normalised state (+N) in room temperature       
        d ≤ 16mm16mm< d ≤100 mm100mm< d ≤250mm      
        t ≤ 16 mm16mm< t ≤100mm100mm< t ≤250mm      
    Re min.355320290      
    Rm650610590      
    Amin.131414      
                             
    Yield StrengthRe min.MPa      
    Tensile StrengthRmMPa      
    ElongationAmin.%      
    Cross Section ShrinkageZmin.%      
    Notch Impact StrengthKVb min.Joule      
    1 MPa = 1 N/mm2      
                             
  3. TECHNICAL DELIVERY CONDITIONS                    
                             
  EN 10083-2: Steels for 2006 Reclamation – Part 2: Non-alloyed Steels for Technical Delivery Conditions         
                             
  4.AREAS OF USE                     
                             
  Carbon steels; are used in making all kinds of machine components such as mil, shaft, bolt, and nut.         
       C60 Carbon Steel Technical Features According to EN10083-2       
              
   These are the steels that don’t contain alloy elements, only containing a small amount of elements such as manganese, silicium, sulphur or phosphorus.   
  Because their chemical composition contains a really small amount of elements, their features are controlled by carbon. While the increase of the carbon   
  content decreases ductility and satiety, it increases the yield-tensile strength and hardenability. Carbon steels with low carbon content are more deformable  
  than carbon steels with higher carbon content.           
                             
 
 
                             
                             
  Material Name:       Material No:       Equivalent Qualities: 
  C60E       1.1221       SAE 1060 
  C60R       1.1223       AFNOR XC60 
                        AFNOR XC60u 
                             
  1. CHEMICAL COMPOSITION                    
                             
        Chemical Composition % by Mass     
     QualityCSimax.MnPmax.SCrmax.Momax.Nimax.     
     C60E0,57 – 0,650,400,60 – 0,900,030max. 0,0350,400,100,40     
     C60R0,020 – 0, 040     
        % Cr + Mo + Ni ≤ 0,63     
                             
  2.MECHANICAL FEATURES                     
                             
  Cold Cutability Annealing (+S):max. 255 HB                 
  Soft Annealing (+A):max. 242 HB                 
                             
  Reclamation (Quench and Temper) (+QT):                  
                             
         Mechanical features in a reclaimed state (+QT) in room temperature     
         d ≤ 16mm16mm< d ≤40 mm40mm< d ≤100mm100mm< d ≤160mm160mm< d ≤250mm     
         t ≤ 8 mm8mm< t ≤20mm20mm< t ≤60mm60mm< t ≤100mm100mm< t ≤160mm     
     Re min.580520450     
     Rm850 – 1000800 – 950750 – 900     
     Amin.111314     
     Zmin.253035     
     KVb min.     
                             
  Normalised (+N):                    
                             
        Mechanical features in a normalised state (+N) in room temperature       
        d ≤ 16mm16mm< d ≤100 mm100mm< d ≤250mm      
        t ≤ 16 mm16mm< t ≤100mm100mm< t ≤250mm      
    Re min.380340310      
    Rm710670650      
    Amin.101111      
                             
    Yield StrengthRe min.MPa      
    Tensile StrengthRmMPa      
    ElongationAmin.%      
    Cross Section ShrinkageZmin.%      
    Notch Impact StrengthKVb min.Joule      
    1 MPa = 1 N/mm2      
                             
  3. TECHNICAL DELIVERY CONDITIONS                    
                             
  EN 10083-2: Steels for 2006 Reclamation – Part 2: Non-alloyed Steels for Technical Delivery Conditions         
                             
  4.AREAS OF USE                     
                             
  Carbon steels; are used in making all kinds of machine components such as mil, shaft, bolt, and nut.         

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