LMS Imagine.Lab Mobile Hydraulics Actuation Systems

LMS Imagine.Lab Mobile Hydraulic Actuation Systems helps design fluid power actuation systems for crane, crawler, earthmoving and mining equipment and machine tools. Users can develop products with components actuated by hydraulic and pneumatic fluid power systems. The solution delivers the required insights to improve product quality, robustness and reliability, reduce power generation and develop new functionality.

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LMS Imagine.Lab Mobile Hydraulic Actuation Systems solution helps to design fluid power actuation systems for crane, crawler, earthmoving & mining equipments, machine tools and more. It delivers the required insights to improve product quality, robustness and reliability, reduce power generation (variable displacement pumps, load-sensing), and to develop new functions (self-leveling, control strategies).

LMS Imagine.Lab Mobile Hydraulic Actuation Systems provides engineers with a set of cutting-edge features and advanced simulation tools for:

Developing products with components actuated by hydraulic and pneumatic fluid power systems
Improving product quality with robustness and reliability
Reducing power generation (variable displacement pumps, load-sensing)
Developing & optimizing new functions (self-leveling, control strategies) regardless of loads & machines kinematics

The dynamic behavior of such systems is hard to predict since every subsystem needs to be taken into account. For prototyping early in the development cycle, it is efficient to use a single simulation environment in which users can couple different modules. This results in enhanced compatibility, reduced implementation time, user-friendliness of the interface and no programming effort.

AMESim helps the visualization of mobile hydraulics systems with AMEAnimation, a 3D visualization tool which seamlessly imports your CAD data, automatically generates a CAD view from your AMESim model and animates simulation results.

Features

A unique concept for Hydraulic component design (HCD) modeling
Integrated 2D mechanism modeling facilities
Interfaces with all major multi-body software and provides 3D animation capabilities
Import/export capabilities to Matlab/Simulink for control integration from SiL to HiL
Total vehicle modeling capability by linking dedicated application libraries (Engine, Drive, Cooling)

Benefits

Predefine valve design on virtual prototypes before any test
Integrate control strategies from the beginning of the design process
Define actuator impact on mechanical structures
Analyze full vehicle system on a single platform

Covering a range of industries, LMS application cases let you discover how LMS solutions help our customers solve their real-life engineering challenges.

diesel engines modeling design software 3.gif Delphi cuts next-generation diesel engines ECU development time with LMS Imagine.Lab AMESim

Working together with LMS Imagine.Lab engineering services, Delphi engineers use LMS Imagine.Lab AMESim multi-domain system modeling software to efficiently develop advanced HiL simulators to design and test electronic control units for tomorrow’s fuel-efficient, clean-running diesel engines.

Messier-Bugatti optimized the A380 nosewheel steering and braking system with LMS Imagine.Lab AMESim

To save weight on the A380 superjumbo aircraft, Messier-Bugatti used LMS Imagine.Lab AMESim and the Ground Loads solution to design an innovative decentralized hydraulic generation system with lightweight micro-pumps delivering power locally to emergency braking and landing gear steering systems.

Renault applies AMESim to streamline its cooling and air-conditioning systems development process

To comply with the multiple constraints relative to vehicle designs that affect the thermal management of underhood systems, and to ensure high-quality passenger comfort, Renault decided to rely more on simulation to engineer the underhood thermal environment. The French car maker deployed the AMESim solution as a collaborative system simulation platform.

More cases:

Brochures

Download the LMS Imagine.Lab Overview Brochure

Download the LMS Imagine.Lab AMESim Fluids Systems Brochure


	The Hydraulic Component Library concept helps predefine and design complex components such as load-sensing pumps on virtual prototypes before any test.		Since most mechanical systems are planar mechanisms, the Planar Mechanical Library is fully dedicated to the study of mobile hydraulics actuation systems.		Interactions between the fluid actuation systems and complex multi-body systems can be easily managed thanks to the interface with specialized multi-body packages.

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