A572 plate is a high-strength, low-alloy structural steel that includes five grades42, 50, 55, 60, and 65according to their minimum specified yield strength. For applications requiring notch toughness, Kloeckner Metals also supplies A572 charpy tested. Advantages/Disadvantages Industries Applications Machining Welding Heat Treatment
A572 Grade 42, 50, 55, 60, 65 Steel Plates Leeco Steel, LLCAvailable in five grades:42, 50, 55, 60 and 65. Available in standard and heavy (3-inches or greater) plate thickness. May be certified to multiple standards on Mill Test Report, but guaranteed to be certified to meet ASTM A572 standards.
Universal Steel stocks A572-50 from 3/16 thick up to 4 thick, and A572-42 above 4 thick up to 6 thick. A572 is used in structural applications where strength and notch toughness are more critical than the general A36 requirements. Standard stock is provided in the as-rolled condition; however, normalized material can be obtained.
A572 Structural, Carbon & HSLA Steel Plate - Chapel Steel25 rows · ASTM A572 A high-strength low-alloy steel plate that is utilized in a variety of structural
ASTM A572 Grade 50 Pipe - HYSP Steel Pipe SupplierAs you know, ASTM A572 covers five grades of high-strength low-alloy structural steel shapes, plates, sheet piling, and bars.Grades 42 , 50 , and 55  are intended for riveted, bolted, or welded structures. Grades 60  and 65  are intended for riveted or bolted construction of bridges, or for riveted, bolted, or welded construction in other applications.
On one hand, it is similar to A572-50 in low ratio of weight-to-strength. on the other hand, the alloy elements optimize the inside structure of the steel and improves its properties. ASTM A992 Steel I beam is the prime alternative for bridge construction and building frames for its yield strength reaches 65 ksi.
ASTM Structural Steel Standards Infra-Metals Co.One of the most commonly used A572 grades is A572-50. This grade has an ultimate tensile strength of 65,300 psi and a high tensile yield strength of 50,000 psi. It is used in a broad array of structural applications, some of which include buildings, transmission
Hot Rolled, Galvanized & Rigid i steel beam a572 - Known to be made from pure galvanized steel, these i steel beam a572 are anti-corrosive and anti-rust and can withstand heavy weight loads. These i steel beam a572 are available in customized length, breadth and width options, making them convenient for any property sizes.
A572 Grade 50 A992 Tensile Strength, min 65 ksi Tensile Strength, min 65 ksi Yield Point, min 50 ksi Yield Point 50 to 65 ksi Yield to tensile ratio, max 0.85 Elongation in 8 in., min 18% Elongation in 8 in., min 18% (ASTM A572 Gr 50 with special requirements) As announced, effective May 1, 1997, structural steel shapes will be commercially
Speedy Metals Information for ASTM A572 Grade 50 PlateASTM A572 Grade 50 is considered a "workhorse" grade and is widely used in many applications. Steel mills produce channel and heavy beams with Grade 50. It is commonly used in structural applications, heavy construction equipment, building structures, heavy duty anchoring systems, truck frames, poles, liners, conveyors, boom sections
Welding ASTM 572 grade 65 - CR4 Discussion ThreadJun 26, 2007 · Basically, for the A572 grades 60 and 65, you want to use filler metals as follows:SMAW (stick):use AWS specification A5.5, E 8015, E8016, or E8018 classification, SAW (submerged arc) use AWS specification A5.23, F8XXX-EXXX-XX or F8XXX-ECXXX-XX classifications, GMAW (gas metal arc welding) use AWS specification A 5.28, ER80S-XXX or E80C-XXX
Wide Flange Beam Gerdau hot-rolled wide flange (WF) beams are used in structural steel construction, in applications from industrial facilities and health care to commercial buildings and multi-family residential projects. ASTM A572-65 ASTM A588 (A709-50w) ASTM A992/A572-50 (A709-50S/50) Additional grades may be available upon request.MECHANICAL PROPERTIES GRADE 65 STEELDesign in A572 (Grade 65) ·Steel" was sponsored in early 1967 by the American Institute of Steel Construction with a view towards extending plastic design techniques to include st~els with a yield strength of 65 ksi. A comprehensive progr~mwas proposa which included study of mechanical properties, stub columns, beams, etc., details of which are,