The yield strength of deformed steel bars, commonly used in construction, typically ranges from 250 MPa (megapascals) to 600 MPa, depending on the grade of the steel. For example, grade 40 deformed bars have a yield strength of approximately 280 MPa, while grade 60 bars have a yield strength of about 420 MPa. The specific yield strength can vary based on the standards and specifications of the manufacturer and the region. Always refer to relevant codes and standards for precise values.
ASTM A615 is a standard specification that covers deformed and plain carbon-steel bars intended for use as reinforcement in concrete structures. The bars are available in various grades, which determine their yield strength and ductility. This specification ensures that the steel bars meet specific mechanical properties and chemical compositions, making them suitable for reinforcing concrete in construction applications. The use of ASTM A615 bars enhances the structural integrity and durability of concrete elements.
The abbreviation Fe stands for Ferrous material ie ironfrom which the reinforcement steel bars are manufactured.The reinforcement steel bars used in RCC (Reinforced Cement Concrete) are designated as Fe415 or Fe500 depending on their Yield Strength. (The numbers 415 and 500 tell about this Yield Strength in N/mm2 the bars are designed and manufactured to have.)Fe415 indicates that the Yield Strength (tensile strength) of steel is 415 N/mm2.
The abbreviationFe stands for Ferrous material ie iron from which the reinforcement steel bars are manufactured.The reinforcement steel bars used in RCC (Reinforced Cement Concrete) are designated as Fe415 or Fe500 depending on their Yield Strength. (The numbers 415 and 500 tell about this Yield Strength in N/mm2 the bars are designed and manufactured to have.)As per IS : 1786 Yield Stress (also known as 0.2%proof stress) of Fe 500 is 500 N/mm2.So, Fe500 steel means the reinforcement steel rods (or bars) that can safely withstand an Yield Stress of 500 N/mm2.
In the context of TMT (Thermo-Mechanically Treated) bars, "Fe" stands for iron, which is the primary component of the bars. The grade designation, such as Fe415, Fe500, or Fe600, indicates the yield strength of the steel in megapascals (MPa). For example, Fe500 means the steel has a yield strength of 500 MPa. Higher grades indicate stronger steel, suitable for various construction applications.
KSI steel bar refers to a type of steel reinforcement bar (rebar) that is designated by its yield strength in kilopounds per square inch (KSI). Common grades include 40 KSI, 60 KSI, and 75 KSI, indicating the minimum yield strength. These bars are used in construction and civil engineering to reinforce concrete structures, providing tensile strength and improving durability. The higher the KSI rating, the stronger the bar, allowing for lighter designs and reduced material usage.
High yeild strength deformed bars. The characteristic strength of these bars are higher than mild steel.
Mild steel is of a general steel grade. HYSD stands for high yield strength deformed steel, which is of a 40 percent stronger steel grade.
There are primarily three types of steel bars: mild steel bars, deformed steel bars, and high strength deformed bars. Each type serves specific purposes in construction, offering varying degrees of strength and flexibility. Kalinga TMT, renowned in the steel industry, provides top-quality TMT bars, ensuring durability and structural integrity in buildings. With a commitment to innovation and excellence, Kalinga TMT stands as a trusted supplier, contributing to the robustness and safety of construction projects nationwide.
Deformed steel bar is more commonly known as reinforcing bar, or rebar. These steel bars are imbedded in concrete to provide tensile strength. Smooth bars are run through rollers which "deform" the bar thereby adding ribs. The ribs provide a mechanical bond between the steel bars and the surrounding concrete.
The abbreviation Fe stands for Ferrous material ie iron from which the reinforcement steel bars are manufactured.The reinforcement steel bars used in RCC (Reinforced Cement Concrete) are designated in grades of Fe250, Fe415 or Fe500 depending on their Yield Strength.(The numbers 215, 415 and 500 tell about this Yield Strength in N/mm2 the bars are designed and manufactured to have.)Fe415 indicates that the Yield Strength (tensile strength when it is subjected to elongation) of steel is 415 N/mm2.
The abbreviation Fe stands for Ferrous material ie ironfrom which the reinforcement steel bars are manufactured.The reinforcement steel bars used in RCC (Reinforced Cement Concrete) are designated as Fe415 or Fe500 depending on their Yield Strength. (The numbers 415 and 500 tell about this Yield Strength in N/mm2 the bars are designed and manufactured to have.)Fe415 indicates that the Yield Strength (tensile strength) of steel is 415 N/mm2.
yield strength of 10 mm is 32214 mpa 0r 3287 kgyield strength of 16 mm is 82467 mpa
The abbreviation Fe stands for Ferrous material ie iron from which the reinforcement steel bars are manufactured.The number 415 indicates that the Yield Strength (tensile strength when it is subjected to elongation) of steel is 415N/mm2.The reinforcement steel bars used in RCC (Reinforced Cement Concrete) are designated in grades of Fe250, Fe415 or Fe500 depending on their Yield Strength.(The numbers 215, 415 and 500 tell about this Yield Strength in N/mm2 the bars are designed and manufactured to have.)
Specifics of their alloys, they'll have different proportions of carbon, iron, chrome etc. These changes will make the one known as steel a little stronger and harder to machine than the one called mild steel.
The abbreviationFe stands for Ferrous material ie iron from which the reinforcement steel bars are manufactured.The reinforcement steel bars used in RCC (Reinforced Cement Concrete) are designated as Fe415 or Fe500 depending on their Yield Strength. (The numbers 415 and 500 tell about this Yield Strength in N/mm2 the bars are designed and manufactured to have.)As per IS : 1786 Yield Stress (also known as 0.2%proof stress) of Fe 500 is 500 N/mm2.So, Fe500 steel means the reinforcement steel rods (or bars) that can safely withstand an Yield Stress of 500 N/mm2.
In the context of TMT (Thermo-Mechanically Treated) bars, "Fe" stands for iron, which is the primary component of the bars. The grade designation, such as Fe415, Fe500, or Fe600, indicates the yield strength of the steel in megapascals (MPa). For example, Fe500 means the steel has a yield strength of 500 MPa. Higher grades indicate stronger steel, suitable for various construction applications.
22mm diameter deformed bars unit weight kilogram per meter