Size Range: The A2FM series comes in various frame sizes, ranging from 5 to 250 cc/rev, allowing for flexibility in selecting the right motor for your specific application.
Pressure Rating: These motors are designed to operate at high pressures, typically up to 450 bar (6,527 psi). This high-pressure capability ensures reliable performance in heavy-duty applications.
Speed Range: A2FM motors offer a wide speed range, making them adaptable to different operating conditions. They can operate at speeds up to 10,000 RPM, depending on the model and displacement.
Efficiency: Rexroth's A2FM motors are designed for high efficiency, which helps in reducing energy consumption and improving overall system performance.
Mounting Options: These motors are available with various mounting options, including flange and shaft-end mounting, allowing for easy integration into different hydraulic systems.
Control Options: A2FM motors can be equipped with various control options, such as proportional control, to precisely regulate motor speed and torque as needed.
The A2FE series is another line of high-pressure hydraulic motors from Rexroth, offering similar reliability and performance benefits as the A2FM series. Here are some key specifications:
Size Range: A2FE motors are available in a range of displacements, from 6 to 1000 cc/rev, catering to a wide spectrum of applications.
Pressure Rating: These motors are designed for high-pressure operation, with maximum pressure ratings of up to 450 bar (6,527 psi).
Speed Range: A2FE motors offer a versatile speed range, making them suitable for both high-speed and high-torque applications.
Efficiency: Rexroth places a strong emphasis on efficiency in the A2FE series, ensuring that hydraulic systems using these motors can achieve energy savings.
Mounting Flexibility: A2FE motors come with various mounting options, ensuring compatibility with diverse hydraulic system designs.
Control Features: These motors can be equipped with advanced control features, including feedback sensors, to provide precise control over motor performance.
