Continuously operated equipment calls for reliable components. Whether in lubrication oil applications or in processing plants, a pump is required to work inconspicuously yet reliably. Precisely the environment in which maag pump systems’ tried and established gear pumps develop their full potential. Thanks to the extensive range of components and materials of construction to choose from, maag gear pumps can be configured to suit customers’ specific requirements and are therefore far superior to standard pumps in terms of performance and reliability.
When it comes to manufacturing profiles and dealing with Strainers, high requirements are placed on pumping consistency and extrusion lines. The new gear pump series extrex® RV/RB from maag pump systems raises the performance of gear pumps for elastomer Extrusion to new levels in terms of both economy and processing technology. Product quality is guaranteed by a stable discharge, the lowest tolerance deviations and achieving process stability in quick time.
Polymer processes require pumps which will constantly and reliably feed oligomers and prepolymers through the system. The pump design is highly suitable for low-viscosity applications. The thermorex® RT eliminates the need for pressurized vessels/reactors. The high efficiency and long service life will enhance your production plant’s capacity.
No matter how your process is designed, Maag will offer the best solution for any customer-specific application. The system uses only high-quality proven components. Knowhow and combining are the cornerstones for achieving the ideal result for our customer.
Elastomeric processing requires positive displacement devices that gentle convey high viscosity rubber through the system. Specifically designed, low compression tooth design allow the extrex6 ER transfer, booster or metering gear pump to achieve both high pressure and low shear. The rubber compound is conveyed with a constant, precise flow even at high discharge pressures – and this also for extremely dry or sticky compounds, where former pump generations reached their limits due to scorch. Additionally, their anyway high efficiency and long life span will extend unrivaled due to reduced internal friction.
Maag guarantee constant conveying in extrusion lines and thus highest product quality. With its robust construction, the new trudex® high-pressure gear pump enables operation in pressure ranges up to 700 bar which is the upper limit for conventional gear pumps. The advanced trudex® pump is rounding off Maag's gear pump product program and with its usual quality, does justice to the ever-increasing demand for high-pressure pumps for applications in extrusion lines.
Chemical, refinery, and industrial plant applications are challenging. High process pressures, high temperatures, and viscous media are commonplace in such environments. Precisely the environment in which maag pump systems’ tried and established gear pumps develop their full potential. Thanks to the extensive range of components and materials of constructions to choose from, maag gear pumps can be configured to suit customers’ specific requirements and are therefore far superior to standard pumps in terms of performance and reliability.
Processes in the manufacture of polyolefins require high-pressure gear pumps which build up pressure for the units after the compounder. The new performance driven geometry of polyrex® x6 class results in high throughput rates at high flow rates and low shear stress. Polyrex6 can convey low viscosity polymers where earlier pump generations failed. Thanks to increased pump performance, the specific conveying capacity is 50% higher compared to same housing size pumps of older generations. For debottlenecking existing plants, Maag offers alternative housing designs with matching interfaces to older pump generations.
Polymer processes require units that gently discharge low and high-viscosity plastic melts from reactors and degassing equipment. Thanks to excellent fill behaviour and short residence times, the maag pump systems viscorex® gear pump is the ideal solution for such applications. Its high efficiency and long service life will enhance the capacity and availability of your production line. viscorex® gear pumps efficiently convey plastic melts with a constant, precise flow.
cinox® therminox® 齿轮泵正是为了满足严格的工艺要求而开发的耐腐蚀、不锈钢、可保温输送泵。 由于配置设计多样，材料可选性广泛，马格齿轮泵可根据客户工艺的具体要求提供灵活多变的适用方案。因此，马格齿轮泵拥有远胜于标准齿轮泵的性能和可靠性。无论是高纯度、强腐蚀性，还是高粘度，高温度介质，马格泵系统会为您提供专业的解决方案，同您一起从容面对挑战。
The pump models cinox®-V therminox®-V are discharge pumps. They have been designed for highly viscous fluids, which are gently extracted from reactors and de-gassing devices even when the inlet pressure is low, ensuring optimum fill characteristics and short dwell times. This new pump series combines the outstanding flow characteristics of the polymer pumps with the exacting requirements of the chemical industry.
The extrex® GPD (general purpose twin gear pump) combines optimally economic and operating efficiency for extrusion lines. An extrusion line fitted with maag’s newest pump will be capable of running two completely different die head assemblies with distinct throughput and pressure ratings to produce high quality products. The individual output and tool pressure is by design ensured and adjustable.
Thermoplastic processing requires positive displacement devices that gently convey any kind of thermoplastic grades from high to low viscosity through the system. Specifically designed, low compression tooth design allow the extrex®-x6 class transfer, booster or metering gear pump to achieve both high pressure and low shear.
Extrusion plants need extremely reliable units with high pumping consistency and a configuration to suit each application. The modular design of extrex® gear pumps makes light work of meeting diverse requirements. Three types are available: extrex® GP for a wide application range with moderate system pressures, extrex® HP for applications with high system pressures and extrex® HV having a 25% higher specific conveying capacity for pelletizing processes requiring low speeds.