785okg/m3
The only difference between Y12 and T12 is the Kilos per meter. In a Y12 there is 0.888 Kilos and a T12 bar has 0.612 Kilos.
It is a deformed round steel bar and has a diameter of 12mm.
In the context of concrete reinforcement steel, a Y12 bar refers to a deformed steel bar with a diameter of 12 millimeters. The "Y" indicates that it is a high-strength deformed steel bar. On the other hand, an R10 bar refers to a round steel bar with a diameter of 10 millimeters. The "R" signifies that it is a mild steel bar without any deformations.
Formula for steel bar weight per meter = D2/162 where D is diameter of bar
density of galvanized steel 7850kg/m3
The only difference between Y12 and T12 is the Kilos per meter. In a Y12 there is 0.888 Kilos and a T12 bar has 0.612 Kilos.
It is a deformed round steel bar and has a diameter of 12mm.
To determine how many Y12 bars can replace a Y16 bar in a column, you need to consider the area of steel provided by each bar. The area of a Y16 bar is approximately 201 mm², while a Y12 bar has an area of about 113 mm². Therefore, to replace one Y16 bar, you would need about 201/113 ≈ 1.78, meaning you would need at least 2 Y12 bars to provide a similar cross-sectional area of steel.
170 Y12 Bar to the ton at 6000 M long
A Y12 bar typically has a cross-sectional area of 113 square millimeters.
12mm
In the context of concrete reinforcement steel, a Y12 bar refers to a deformed steel bar with a diameter of 12 millimeters. The "Y" indicates that it is a high-strength deformed steel bar. On the other hand, an R10 bar refers to a round steel bar with a diameter of 10 millimeters. The "R" signifies that it is a mild steel bar without any deformations.
Yes - It does
Formula for steel bar weight per meter = D2/162 where D is diameter of bar
0.887 kg per m
The density of a Y8 bar would depend on the specific material it is made of. You would need to know the material type (e.g. steel, aluminum) to calculate its density.
No, a solid steel bar will sink in water because steel is denser than water. Only objects with a lower density than water will float.