24 Coolest 321 Stainless Steel Sheets

 

321 Stainless Steel Sheets 14GA x 36 x 36

321 Stainless Steel Sheets 14GA x 36″ x 36″

321 Stainless Steel Sheets 14GA x 36″ x 36″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheets 14GA x 12 x 96

321 Stainless Steel Sheets 14GA x 12″ x 96″

321 Stainless Steel Sheets 14GA x 12″ x 96″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheet Unpolished Mill Finish Annealed ASTM A240AMS 5510 025 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Annealed, ASTM A240/AMS 5510, 0.25″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Annealed, ASTM A240/AMS 5510, 0.25″ Thick, 12″ Width, 12″ Length - Duplex grades are heat treatable and roughly twice as strong as austenitic grades. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. Magnetism characterizes how much the material is repelled by or attracted to a magnet. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. The 321 stainless steel sheet has an unpolished (mill) surface, has been annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. Formability indicates how easily the material can be permanently shaped. The material has been annealed to modify its properties after shaping. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. Martensitic grades can be heat treated. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening. The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability.

 

321 Stainless Steel Sheets 14GA x 48 x 96

321 Stainless Steel Sheets 14GA x 48″ x 96″

321 Stainless Steel Sheets 14GA x 48″ x 96″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheets 150 x 48 x 96

321 Stainless Steel Sheets 1.50″ x 48″ x 96″

321 Stainless Steel Sheets 1.50″ x 48″ x 96″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheet Unpolished Mill Finish Annealed ASTM A240AMS 5510 01875 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Annealed, ASTM A240/AMS 5510, 0.1875″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Annealed, ASTM A240/AMS 5510, 0.1875″ Thick, 12″ Width, 12″ Length - The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. The material has been annealed to modify its properties after shaping. Magnetism characterizes how much the material is repelled by or attracted to a magnet. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. Martensitic grades can be heat treated. Formability indicates how easily the material can be permanently shaped. The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. The 321 stainless steel sheet has an unpolished (mill) surface, has been annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards. Duplex grades are heat treatable and roughly twice as strong as austenitic grades. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium.

 

321 Stainless Steel Sheet Unpolished Mill Finish Cold Finished Annealed ASTM A240AMS 5510 0016 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.016″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.016″ Thick, 12″ Width, 12″ Length - Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. Formability indicates how easily the material can be permanently shaped. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium. It has been annealed to modify its properties after shaping. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. Magnetism characterizes how much the material is repelled by or attracted to a magnet. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening. Martensitic grades can be heat treated. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. The 321 stainless steel sheet has an unpolished (mill) surface, has been cold finished and annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards. The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. The sheet has been cold finished, a process of removing the outer layer to achieve the specified dimensions. Duplex grades are heat treatable and roughly twice as strong as austenitic grades.

 

321 Stainless Steel Sheets 14GA x 12 x 36

321 Stainless Steel Sheets 14GA x 12″ x 36″

321 Stainless Steel Sheets 14GA x 12″ x 36″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheets 125 x 48 x 96

321 Stainless Steel Sheets 1.25″ x 48″ x 96″

321 Stainless Steel Sheets 1.25″ x 48″ x 96″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheet Unpolished Mill Finish Cold Finished Annealed ASTM A240AMS 5510 0025 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.025″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.025″ Thick, 12″ Width, 12″ Length - The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. Magnetism characterizes how much the material is repelled by or attracted to a magnet. It has been annealed to modify its properties after shaping. The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. Martensitic grades can be heat treated. Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. The 321 stainless steel sheet has an unpolished (mill) surface, has been cold finished and annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. The sheet has been cold finished, a process of removing the outer layer to achieve the specified dimensions. The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. Duplex grades are heat treatable and roughly twice as strong as austenitic grades. Formability indicates how easily the material can be permanently shaped.

 

321 Stainless Steel Sheets 16GA x 36 x 72

321 Stainless Steel Sheets 16GA x 36″ x 72″

321 Stainless Steel Sheets 16GA x 36″ x 72″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheet Unpolished Mill Finish Cold Finished Annealed ASTM A240AMS 5510 0062 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.062″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.062″ Thick, 12″ Width, 12″ Length - It has been annealed to modify its properties after shaping. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. Martensitic grades can be heat treated. The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. Duplex grades are heat treatable and roughly twice as strong as austenitic grades. Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. Formability indicates how easily the material can be permanently shaped. The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening. The sheet has been cold finished, a process of removing the outer layer to achieve the specified dimensions. The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. Magnetism characterizes how much the material is repelled by or attracted to a magnet. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability. The 321 stainless steel sheet has an unpolished (mill) surface, has been cold finished and annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards.

 

321 Stainless Steel Sheets 16GA x 12 x 48

321 Stainless Steel Sheets 16GA x 12″ x 48″

321 Stainless Steel Sheets 16GA x 12″ x 48″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheets 125 x 36 x 72

321 Stainless Steel Sheets 1.25″ x 36″ x 72″

321 Stainless Steel Sheets 1.25″ x 36″ x 72″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheets 11ga x 24 x 36

321 Stainless Steel Sheets 11ga x 24″ x 36″

321 Stainless Steel Sheets 11ga x 24″ x 36″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheets 250 x 36 x 48

321 Stainless Steel Sheets .250″ x 36″ x 48″

321 Stainless Steel Sheets .250″ x 36″ x 48″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheets 16GA x 24 x 96

321 Stainless Steel Sheets 16GA x 24″ x 96″

321 Stainless Steel Sheets 16GA x 24″ x 96″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheet Unpolished Mill Finish Cold Finished Annealed ASTM A240AMS 5510 0105 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.105″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.105″ Thick, 12″ Width, 12″ Length - The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. Martensitic grades can be heat treated. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium. Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. Formability indicates how easily the material can be permanently shaped. Magnetism characterizes how much the material is repelled by or attracted to a magnet. It has been annealed to modify its properties after shaping. The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. The 321 stainless steel sheet has an unpolished (mill) surface, has been cold finished and annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. The sheet has been cold finished, a process of removing the outer layer to achieve the specified dimensions. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. Duplex grades are heat treatable and roughly twice as strong as austenitic grades. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded.

 

321 Stainless Steel Sheets 11ga x 24 x 120

321 Stainless Steel Sheets 11ga x 24″ x 120″

321 Stainless Steel Sheets 11ga x 24″ x 120″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheet Annealed AMS 5510 14 Thick 24 Width 48 Length

321 Stainless Steel Sheet, Annealed, AMS 5510, 1/4″ Thick, 24″ Width, 48″ Length

321 Stainless Steel Sheet, Annealed, AMS 5510, 1/4″ Thick, 24″ Width, 48″ Length - Resists polythionic acid stress corrosion cracking. High temperature chemical process equipment. Oxidation resistant to 1600°f.

 

321 Stainless Steel Sheets 14GA x 12 x 24

321 Stainless Steel Sheets 14GA x 12″ x 24″

321 Stainless Steel Sheets 14GA x 12″ x 24″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.

 

321 Stainless Steel Sheets 12ga x 24 x 96

321 Stainless Steel Sheets 12ga x 24″ x 96″

321 Stainless Steel Sheets 12ga x 24″ x 96″ - For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking. 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range.

 

321 Stainless Steel Sheet Unpolished Mill Finish Cold Finished Annealed ASTM A240AMS 5510 009 Thick 12 Width 12 Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.09″ Thick, 12″ Width, 12″ Length

321 Stainless Steel Sheet, Unpolished (Mill) Finish, Cold Finished, Annealed, ASTM A240/AMS 5510, 0.09″ Thick, 12″ Width, 12″ Length - Formability indicates how easily the material can be permanently shaped. The duplex class offers high resistance to pitting and chloride stress corrosion cracking. The austenitic class contains the most formable, weldable, and corrosion-resistant stainless steel grades, but they cannot be heat treated. The 321 stainless steel sheet has an unpolished (mill) surface, has been cold finished and annealed, and meets american society for testing and materials international astm a240 and sae aerospace material specifications ams 5510 standards. The precipitation-hardening (ph) class can be heat treated after fabrication to achieve some of the highest hardness ratings in stainless steel. Tensile strength, used to indicate the material’s overall strength, is the peak stress it can withstand before it breaks. The ferritic class contains moderately formable and corrosion-resistant grades compared to other stainless steel classes, but they cannot be heat treated. Magnetism characterizes how much the material is repelled by or attracted to a magnet. Martensitic grades can be heat treated. Toughness describes the material’s ability to absorb energy before breaking, while hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. Corrosion resistance describes the material’s ability to prevent deterioration caused by atmosphere, moisture, or other medium. The 321 stainless steel grade includes titanium for corrosion resistance in high temperatures and after welding. Stainless steel is an iron alloy with resistance to staining and rusting in many environments where steel would typically degrade. Duplex grades are heat treatable and roughly twice as strong as austenitic grades. The martensitic class includes some of the hardest and strongest stainless steel grades that also offer mild corrosion resistance, high hardness, and good formability. It has been annealed to modify its properties after shaping. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded. The sheet has been cold finished, a process of removing the outer layer to achieve the specified dimensions. An austenitic stainless steel, 321 is typically nonmagnetic and can be cold worked to increase its hardness and strength while maintaining most of its formability. The chemical composition of each grade creates a grain structure that falls into one of five classes austenitic, duplex, ferritic, martensitic, and precipitation hardening.

 

321 Stainless Steel Sheets 16GA x 24 x 36

321 Stainless Steel Sheets 16GA x 24″ x 36″

321 Stainless Steel Sheets 16GA x 24″ x 36″ - 321 stainless is a titanium stabilized grade commonly used for service in the 1000-1600°f temperature range. For service temperatures up to about 1600°f, a stabilizing treatment at 1550-1650°f, air cool, may be used to provide optimum resistance to intergranular corrosion and to polythionic acid stress corrosion cracking.