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Analysis Chaining using MSC Nastran

Engine fan blade out (FBO) is one of the most catastrophic events in the aerospace industry and is a primary concern for the aircraft and jet engine manufacturers to accurately predict the fan blade out loads and comply with the Federal Aviation Administration (FAA) safety requirements for certification. This webcast presents an efficient multi-disciplinary, implicit-explicit-implicit chaining analysis process for more accurate simulation of engine fan blade-out condition using MSC Nastran. FBO event is extremely nonlinear due to heavy wide cord fan blades incorporated for new generation of high by-pass ratio jet engines to meet airframe manufacturers' demand for higher thrust engines with improved performance and optimum weight. Analytical procedures are used by airframers and by engine manufacturers to support design of propulsion installation and adjacent wing structures. An example problem is presented which illustrates the application of the new technologies in MSC Nastran to predict the complex FBO event followed by rotor dynamics to simulate the engine unbalance.

Hyperleastic Analysis Using MSC Nastran

Though elastomers are widely used in engineering structures, their modeling and analysis is not very well understood among engineers. Because of large deformations and their unique nonlinear behavior, close attention needs to be paid while modeling these materials. This webinar provides you an overview of some key aspects of elastomer modeling and how you can simulate elastomeric components in MSC Nastran.

Elastic-Plastic Analysis

Elastic-plastic material models are one of the most commonly ones in nonlinear FEA. Accurate modeling of both the boundary conditions and the materials used in the designs is critical in obtaining results that can benefit product development. Attend this webinar for an overview of the elastic-plastic material models available in MSC Nastran and to learn how you can benefit from using these general purpose large strain nonlinear models for your analyses.

Thermal Structural Coupled Analysis

RaceCar Engineering - MSC Simulation Technology Drives Success at Red Bull Racing

Desktop Engineering: Watch Progressive Ply Failure Using MSC Nastran

Transmisiones y Equipos Mecánicos S.A. de C.V.

Sikorsky Aircraft Corporation - Certifying Helicopter Components

Diagnostic Simulations, Inc. - Designing Palatal Implants

MSC Fatigue Datasheet

Easy5 Datasheet

Benelli Armi S.p.A. - Developing New Customizable Armaments

Race-Tec Sealing Limited - High Performance Seals

Aerospace

Defense

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