Q355B steel and A588 grade A structural steel plate steelBoth Q345B and Q355B are low alloy steels. The difference is that the yield strength of Q345B low alloy steel and Q345B low alloy steel is different. In Q345B low-alloy steel, q represents the yield strength of this material, and the latter 345 represents the yield value of this material is around 345mpa. Q in Q355B low-alloy steel also represents the yield strength of this material, and the latter 355 indicates that the yield value of this material is around 355mpa.
For A588 grade A structural steel plate buyers, the impact of the rise and fall of A588 grade A structural steel plate prices is great. Because of the large amount of A588 grade A structural steel plate purchases and the large amount of funds involved, many A588 grade A structural steel plate purchasers will carefully consider the price issue, and some A588 grade A structural steel plate purchasers who are far away will also consider the freight issue. When the price of A588 grade A structural steel plate overall drops, a large number of A588 grade A structural steel plate buyers will hoard in large quantities. When A588 grade A structural steel plate prices rise, we should predict and stock up appropriately.
5mm 6mm hot rolled thin plates product A588 grade A structural steel plate inventory: 5*3000*8000, 5*3000*8400, 6*2800*9390, 5*2800*11880, 6*2614*7050, 5*3000*11650, 5*3000*9900, 5*3000*8300, 6*2854*8200, 5*2790*10500, 6*2854*9680, 5*3000*8800, 6*2854*7480, 6*2614*9250, 5*2990*10470, 5*3000*8600, 6*2800*9390, 6*2854*8500, 5*2990*10400, 5*2990*9000, 6*2854*6480, 6*2854*6800, 5*3000*7550, 6*2854*9390.
The main function of boron in A588 grade A structural steel plate and so on steel is to increase the hardenability of steel, so as to save other rare and precious metals, such as nickel, chromium and molybdenum. For this purpose, the boron content is generally regulated in the range of 0.001% - 0.005%. It can replace 1.6% nickel, 0.3% chromium or 0.2% molybdenum. It should be noted that molybdenum can prevent or reduce temper brittleness, while boron slightly promotes temper brittleness, so molybdenum can not be completely replaced by boron.
