SimAcademy Webinar Archive: Total Life and Crack Initiation in MSC Fatigue
Fatigue analysis usually refers to one of two methodologies: either the stress life (S-N method) or the local strain (strain-life (ε-N) method. It has been recognized that a metal subjected to a repeated or fluctuating load can fail at a stress level lower than that required to cause fracture on a single application of the load. The nominal stress (S-N) method was the first approach developed to try to understand this failure process. This method is still widely used in applications where the applied stress is nominally within the elastic range of the material, and the number of cycles to failure is large. The nominal stress approach is best suited to the area of the fatigue process known as high-cycle fatigue. The nominal stress method does not work well in the low-cycle region where the applied strains have a significant plastic component. In this region, a strain-based methodology must be used.
SimAcademy Webinar Archive: Flexible Body (.mnf) Generation and Verification Using Adams and MSC Nastran
Adams/Flex is a module for Adams/Solver which lets user incorporate flexible structures into their Adams models. This produces a higher-fidelity system representation that can result in more accurate system kinematics (displacements, velocities, accelerations) and dynamics (loading profiles). It is easy to produce the Modal Neutral Files (.mnf) required by Adams/Flex from MSC Nastran. This seminar will examine the contents of the MNF file format, the setup considerations in MSC Nastran and the ways to validate the resulting flexible body in Adams versus MSC Nastran.
SimAcademy Webinar Archive: Tire Models Comparison, Basic Theory, and Usage Scenario Discussion Using Adams
Tire/road interaction can be both highly complex and a dominant component in vehicle models for handling, durability, and ride analysis. Both in the open-ended Adams/View, and the template based Adams/Car, Adams users have access to several tire models, ranging to the simple Fiala model to high fidelity element based FTire model, and including special adaptations for motorcycles, aircraft and soft soil applications.
SimAcademy Webinar Archive: Restart in MSC Nastran
A restart is a logical way of continuing from a previous run without having to start from the beginning. The savings can be in terms of both time and money. You use some forms of restarts practically every day in your life--perhaps without realizing it. An example of a restart can be as simple as reading a book. Each time that you continue from where you left off is a restart. This analogy can be applied to MSC Nastran.
SimAcademy Webinar Archive: Advanced Thermal Analysis in MSC Nastran Using SOL400
MSC Nastran is the most widely used, and commonly recognized as the most trusted Finite Element Analysis (FEA) Solver. It excels in Dynamics, Structural, Thermal, Composites, Aeroelasticity and Optimization analysis. MSC Nastran 2012 has added features of multi-discipline analysis where various analyses can be coupled or chained.
SimAcademy Webinar Archive: Marc User Subroutine
Marc’s user subroutines enhance the software in allowing the users to perform robust functionalities that are not available in standard input format. These robust functionalities include user-defined material models, user-defined constraints and loads, user-defined properties for contact bodies, user-defined geometry, and user-defined output for post-processing.
SimAcademy Webinar Archive: Crack Propagation Fatigue
Study and analysis of crack propagation under fatigue loading is an essential component of a “Damage Tolerant” design. It assumes that considerable amount of life can be accounted for, with an existing defect. If the service loading conditions, material data and other critical modifying factors are known, then growth of crack in a structure can be modeled accurately, hence increasing the useful life of a structure.
SimAcademy Webinar Archive: Introduction to Poroelastic Materials in MSC Nastran
Vibroacoustics with poroelastic trim components involves complex multi-physics in terms of the solid-fluid interaction at the microscopic level, as well as its unique applications in finite-element based analyses. Porous materials are widely used in automotive NVH applications for noise suppression. FFT, with its software product, Actran, has broad experiences on acoustics in general and poroelasto-vibroacoustics in particular. The integration of Actran's technologies expands the capability of Fluid-Structural Interaction analysis in MSC Nastran. The goal of this capability is to enable MSC Nastran to perform the modal frequency analysis of trimmed structure, such as a trimmed car body, for vibroacoustic simulation.
SimAcademy Webinar Archive: Optimization Beyond Sizing - Topology, Topography, and Topometry
Design optimization refers to the search for a structural design that, in some sense, “optimal”, or “the best,” while varying structural parameters. Historically, the most common is sizing optimization. This is used to size airframes, thicknesses, bar/beam properties, etc., as interest is to save material when design is at final stage, however there are few other options available in optimization at concept level of Design, like Topology optimization. There are some specific areas where one can use Topometry & Topography optimization effectively.
SimAcademy Webinar Archive: Monitor Points in Nastran
Monitor points are convenient way to output data into F06 file. The MONITOR case control command is an output request for load summation, element results and displacement output requests beyond the normal case control commands of DISP, STRESS, etc. This is a convenient means to monitor: loads, element results and average motion at user specified location, coordinate system and apply user defined labels to the results. This is an alternative to the usual case control output requests. Monitor point output also provides a means of spot checking results written to the f06 while allowing results of DISP, STRESS, etc requests to be written to the xdb or op2 file.
SimAcademy Webinar Archive: Overview of the MSC Nastran f04 file and DMAP
MSC Nastran is written in a high-level language called DMAP (Direct Matrix Abstraction Program) which has its own compiler and grammatical rules. During an analysis MSC Nastran produces a summary of the DMAP instructions as they are executed. This is known as the Execution Summary Table for the analysis and it is written to the .f04 file. This lecture will examine the Execution Summary Table and its various components. MSC Nastran provides the user with the ability to customize an analysis solution by modify the DMAP source. This lecture will introduce the user to the syntax of the DMAP commands and demonstrate how they interface with the solution.
SimAcademy Webinar Archive: Defining User Specified Crack Growth Criteria and Direction
MSC Marc is widely used in different industries for different applications. Its unique capabilities, including general contact, global adaptive remeshing, crack propagation and multi-physics, allow users to tackle difficult nonlinear simulation problems.
SimAcademy Webinar Archive: Leaf Spring Modelling in Adams Car
In Adams/Car we can create the leaf spring using the leaf spring (ltf) file. Data provide to the ltf file is in the unloaded condition. Adams/Car builds the leaf spring element and it actually uses makeleaf program in background. The present webinar will talk about the leaf spring editor in the leaf spring property files, communicators required for connection of leaf spring with subsystem like suspension and body and how to create the leaf spring with more than 10 leaves.
SimAcademy Webinar Archive: Doing it Explicitly - Introduction to Explicit Analysis and Capabilities of SOL700
Finite Element Analysis (FEA) problem involving non-linearity can be solved by either implicit or explicit solution technique. Finite Element Analysis (FEA) involving simulating short-time large deformation problems such as complex contact/impact problem are solved by explicit solution technique. SOL700 is a powerful explicit solver of MSC Nastran which is based on Dytran+LS-Dyna module. So it offers combined advantages of both Dytran & LS-Dyna. The present webinar will talk about basics of explicit analysis, where to use it & the capabilities of SOL700.
How to Find Cross Section Properties in Patran for Complex Shape
Customer would like to use Patran to calculate cross section properties for arbitrary shapes... but in particular, where there is a 'hole' in the cross section. This is more difficult than the standard shapes, so a brief recording is provided to lay out the steps and considerations.