NASA Technical Reports Server (NTRS) 20160009767: Development Of A Subcell Based Modeling Approach For Modeling The Architecturally Dependent Impact Response Of Triaxially Braided Polymer Matrix Composites - Info and Reading Options
By NASA Technical Reports Server (NTRS)
"NASA Technical Reports Server (NTRS) 20160009767: Development Of A Subcell Based Modeling Approach For Modeling The Architecturally Dependent Impact Response Of Triaxially Braided Polymer Matrix Composites" and the language of the book is English.
“NASA Technical Reports Server (NTRS) 20160009767: Development Of A Subcell Based Modeling Approach For Modeling The Architecturally Dependent Impact Response Of Triaxially Braided Polymer Matrix Composites” Metadata:
- Title: ➤ NASA Technical Reports Server (NTRS) 20160009767: Development Of A Subcell Based Modeling Approach For Modeling The Architecturally Dependent Impact Response Of Triaxially Braided Polymer Matrix Composites
- Author: ➤ NASA Technical Reports Server (NTRS)
- Language: English
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- Internet Archive ID: NASA_NTRS_Archive_20160009767
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"NASA Technical Reports Server (NTRS) 20160009767: Development Of A Subcell Based Modeling Approach For Modeling The Architecturally Dependent Impact Response Of Triaxially Braided Polymer Matrix Composites" Description:
The Internet Archive:
Understanding the high velocity impact response of polymer matrix composites with complex architectures is critical to many aerospace applications, including engine fan blade containment systems where the structure must be able to completely contain fan blades in the event of a blade-out. Despite the benefits offered by these materials, the complex nature of textile composites presents a significant challenge for the prediction of deformation and damage under both quasi-static and impact loading conditions. The relatively large mesoscale repeating unit cell (in comparison to the size of structural components) causes the material to behave like a structure rather than a homogeneous material. Impact experiments conducted at NASA Glenn Research Center have shown the damage patterns to be a function of the underlying material architecture. Traditional computational techniques that involve modeling these materials using smeared homogeneous, orthotropic material properties at the macroscale result in simulated damage patterns that are a function of the structural geometry, but not the material architecture. In order to preserve heterogeneity at the highest length scale in a robust yet computationally efficient manner, and capture the architecturally dependent damage patterns, a previously-developed subcell modeling approach where the braided composite unit cell is approximated as a series of four adjacent laminated composites is utilized. This work discusses the implementation of the subcell methodology into the commercial transient dynamic finite element code LS-DYNA (Livermore Software Technology Corp.). Verification and validation studies are also presented, including simulation of the tensile response of straight-sided and notched quasi-static coupons composed of a T700/PR520 triaxially braided [0deg/60deg/-60deg] composite. Based on the results of the verification and validation studies, advantages and limitations of the methodology as well as plans for future work are discussed.
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