MSC Nastran

MSC Nastran is a multidisciplinary structural analysis application used by engineers to perform static, dynamic, and thermal analysis across the linear and nonlinear domains, complemented with automated structural optimization and award winning embedded fatigue analysis technologies, all enabled by high performance computing.

Engineers use MSC Nastran to ensure structural systems have the necessary strength, stiffness, and life to preclude failure (excess stresses, resonance, buckling, or detrimental deformations) that may compromise structural function and safety. MSC Nastran is also used to improve the economy and passenger comfort of structural designs.

Manufacturers leverage MSC Nastran’s unique multidisciplinary approach to structural analysis at various points in the product development process. MSC Nastran may be used to:

  • Virtually prototype early in the design process, saving costs traditionally associated with physical prototyping.
  • Remedy structural issues that may occur during a product’s service, reducing downtime and costs.
  • Optimize the performance of existing designs or develop unique product differentiators, leading to industry advantages over competitors.

MSC Nastran is based on sophisticated numerical methods, the most prominent being the Finite Element Method. Nonlinear FE problems may be solved either with built-in implicit or explicit numerical techniques. A number of optimization algorithms are available, including MSCADS and IPOPT. The fatigue capability in MSC Nastran has been developed jointly by nCode International Ltd. and MSC Software.

Common structural analysis solutions are dedicated to one or a few analysis disciplines. To build up a comprehensive level of engineering analysis capability, multiple software solutions must be acquired, and users must be trained with each new tool. MSC Nastran features multiple analysis disciplines, enabling customers with one structural analysis solution for a wide variety of engineering problems.

  • Use one platform to perform linear or nonlinear analysis for the following disciplines: static, dynamic (NVH & Acoustics included), thermal, and buckling, and reduce the dependency on multiple structural analysis programs from various vendors
  • Perform fatigue analysis with embedded fatigue technologies and reduce the time usually associated with fatigue life determination
  • Assess the behavior of advanced composites and fiber reinforced plastics with built in Progressive Failure Analysis and User Defined Services for Mean-field Homogenization coupling with Digimat

One structural member is rarely analyzed independently. Structural systems consist of numerous components, and must be analyzed as a whole. MSC Nastran features a number of methods to join multiple components for system level structural analysis.

  • Expedite meshing with Permanent Glue, enabling you to connect incongruent meshes that would traditionally require time consuming mesh transitions
  • Save time constructing assemblies that consists of welds or fasteners via specialized connector elements
  • Speed up the re-analysis of large assemblies by constructing Superelements, and optionally, share Superelements with other manufacturers while concealing confidential design information
  • Perform contact analysis and determine contact stresses and contact regions in multi-component designs

Design optimization is a critical element in product development, but is often very iterative and requires a great deal of manual effort. MSC Nastran includes optimization algorithms that automatically seek optimal configurations in an allowed design space.

  • Optimize for stress, mass, fatigue, etc. while varying design variables such as material properties, geometric dimensions, loads, etc.
  • Enhance the shape or profile of structural members with shape optimization
  • Find optimal composite laminate ply thicknesses with topometry optimization
  • Determine optimal bead or stamp patterns for sheet metal parts with topography optimization
  • Remove excess and unnecessary volume with topology optimization
  • Simultaneously optimize multiple models across disciplines with Multi Model Optimization

Analysis models can be very large in size, requiring an extended period of time to solve. Such models can take hours or days to solve with traditional FEM applications. MSC Nastran features a number of High Performance Computing capabilities enabling engineers to solve large problems fast.

  • Take advantage of multi-core and multi-node clusters with parallelization technologies: Shared Memory Parallel and Distributed Memory Parallel
  • Utilize nVidia GPU Cards to accelerate the analysis of models composed of solid finite elements
  • Perform modal analysis faster by using a highly tuned Lanczos solver or Automated Component Modal Synthesis

 

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Kuala Lumpur Office

No. 13, Jalan Astaka U8/84A, i-Parc 1,
Taman Perindustrian Bukit Jelutong,
Seksyen U8, Bukit Jelutong,
40150 Shah Alam, Selangor.

Tel.: +603 – 7831 4028 / +603 – 7832 4028 / +603 – 7859 6028 / +603 – 7859 7028
Fax.: +603 – 7859 9028
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Penang Office

No. 39-1, Jalan Dagangan 10, Pusat Bandar Bertam Perdana, 13200 Kepala Batas, Penang.

Tel.: +604 – 577 0128 / +604 – 577 0228 / +604 – 577 0328
Fax.: +604 – 577 0928
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