Factory provide nice price 1000 Series Aluminum Plate to Latvia Manufacturers
With our rich experience and considerate services, we have been recognized as a reliable supplier for many international buyers for Factory provide nice price 1000 Series Aluminum Plate to Latvia Manufacturers, Our final goal is "To try the best, To be the Best". Please feel free to contact with us if you have any requirements.
1000 series aluminum plate
Delivery time: about 30 days after deposit
Payment term: T/T or irrevocable L/C at sight
Supply ablity: 15000MT/Month
Packaging: Export standard packing,wooden pallet
Chinese galvanized steel coil manufactory
JIS G3302/EN10142/ASTM A653 cold rolled
a)PPGI SGCC, SGCD, SGCE according to JIS G3302
b) DX51D+Z, DX52D+Z, DX53D+Z, DX54D+Z to EN 10142
Standard:AISI, ASTM, BS, DIN, GB, JIS, etc
(1) Galvanized steel plate. It is the most common galvanized steel plate at present
(2) Metal-compound galvanized steel plate. This kind of steel plate possesses a cheap wholesale of painting viscosity and weld ability
(3) Electro-galvanized steel plate. This kind of steel plate is of good machine ability, but its erosion resistance is not as good as that of the hot-dipped galvanized steel plate because of its thinner galvanized layer
Our website: https://www.galvanized-sheet.com
Magnets make electricity. Green Dan shows magnets making electricity. This video shows two different wire wound coils producing different voltage while the rotor travels at the same speed. One coil is wrapped 300 turns while the other coil is wrapped 500 turns. This experimental rotor is only spinning at 61 RPMs. The goal of this experiment is to build a low RPM generator which produces 75 volts to 140 volts while never exceeding 120 RPM’s. I am building a 2-phase stator, rotor design with a total 40 neodymium magnets and 20 coils. That’s 10 coils on 2 phases, equaling 20 coils.
Example Calculation on a 2-phase rectified stator/rotor spinning at 61 RPM’s as stated above. If one coil produces 6 volts and you have 10 coils on one phase, then multiply 6 volts X 10 coils. This equals 60 volts per phase. Since I have 2 phases, I will then need to multiply 60 volts X 1.41. This equals 84.6 volts as the rotor spins at 61 RPM’s. If the rotor slows down, the voltage will drop. If the rotor increases in speed, the voltage will rise. The reason I want to limit my voltage to 140 is the fact my charge controller on my grid-tied battery backed up inverter has a maximum input of 150 volts DC.