Mill Precision Tolerance 3/32 Leg Lengths 260 Brass H-Beam 3/32 Leg Lengths 0.09375 Width Small Parts H02/H03 Temper 0.018 Wall Thickness Equal Leg Length ASTM B16 Rounded Corners Unpolished 36 Length Pack of 3 0.09375 Width Finish
260 Brass H-Beam, Unpolished (Mill) Finish, H02/H03 Temper, Precision Tolerance, ASTM B16, Equal Leg Length, Rounded Corners, 3/32' Leg Lengths, 0.09375' Width, 0.018' Wall Thickness, 36' Length (Pack of 3): Industrial & Scientific. 260 Brass H-Beam, Unpolished (Mill) Finish, H02/H03 Temper, Precision Tolerance, ASTM B16, Equal Leg Length, Rounded Corners, 3/32" Leg Lengths, 0.09375" Width, 0.018" Wall Thickness, 36" Length (Pack of 3): Industrial & Scientific. The 60 brass H-beam with equal leg length and rounded corners has an H0/H03 temper, is unpolished, meets American Society for Testing and Materials International ASTM B6 specifications, and has a precision tolerance. The 60 brass alloy, also known as yellow brass and cartridge brass, is corrosion resistant and has high formability due to its zinc content. The material has an H0/H03 temper, meaning it has been cold worked to a / to 3/4 hard temper. .Copper, brass, and bronze are known as red metals because they contain copper, which has a reddish color. Copper, a term that applies to alloys containing at least 99.3% copper, offers very high thermal and electrical conductivity and provides corrosion resistance, formability, and machinability. is an alloy of copper and varying levels of zinc, sometimes with additional elements. It provides greater strength and better machinability than copper or bronze. Bronze is commonly an alloy of copper and tin, but sometimes it is copper alloyed with other elements such as aluminum, phosphorus, manganese, or silicon. Tin gives bronze more corrosion resistance than brass and greater strength than copper. Copper and its alloys have temper designations, meaning the material has undergone a process to achieve certain properties of strength and hardness..Tensile strength, used to indicate the material's overall strength, is the peak stress it can withstand before it breaks. Corrosion resistance describes the material's ability to prevent deterioration caused by atmosphere, moisture, or other medium. Wear resistance indicates the ability to prevent surface damage caused by contact with other surfaces. Hardness (commonly measured as indentation hardness) describes its resistance to permanent surface deformation. Formability indicates how easily the material can be permanently shaped. Machinability describes how easily it can be cut, shaped, finished, or otherwise machined, while weldability characterizes the ability to be welded.. . . .