%0 Journal Article %1 Nguyen:2008 %A Nguyen, Ba Nghiep %A Bapanapalli, Satish K. %A Holbery, James D. %A Smith, Mark T. %A Kunc, Vlastimil %A Frame, Barbara J. %A Phelps, Jay H. %A III, Charles L. Tucker %D 2008 %J Journal of Composite Materials %K imported %N 10 %P 1003-1029 %R 10.1177/0021998308088606 %T Fiber Length and Orientation in Long-Fiber Injection-Molded Thermoplastics — Part I: Modeling of Microstructure and Elastic Properties %U http://jcm.sagepub.com/content/42/10/1003.abstract %V 42 %X This article develops a methodology to predict the elastic properties of long-fiber injection-molded thermoplastics (LFTs). The corrected experimental fiber length distribution and the predicted and experimental orientation distributions were used in modeling to compute the elastic properties of the composite. First, from the fiber length distribution (FLD) data in terms of number of fibers versus fiber length, the probability density functions were built and used in the computation. The two-parameter Weibull's distribution was also used to represent the actual FLD. Next, the Mori—Tanaka model that employs the Eshelby's equivalent inclusion method was applied to calculate the stiffness matrix of the aligned fiber composite containing the established FLD. The stiffness of the actual as-formed composite was then determined from the stiffness of the computed aligned fiber composite that was averaged over all possible orientations using the orientation averaging method. The methodology to predict the elastic properties of LFTs was validated via experimental verification of the longitudinal and transverse moduli determined for long glass fiber injection-molded polypropylene specimens. Finally, a sensitivity analysis was conducted to determine the effect of a variation of FLD on the composite elastic properties. Our analysis shows that it is essential to obtain an accurate fiber orientation distribution and a realistic fiber length distribution to accurately predict the composite properties.

@article{Nguyen:2008, abstract = {This article develops a methodology to predict the elastic properties of long-fiber injection-molded thermoplastics (LFTs). The corrected experimental fiber length distribution and the predicted and experimental orientation distributions were used in modeling to compute the elastic properties of the composite. First, from the fiber length distribution (FLD) data in terms of number of fibers versus fiber length, the probability density functions were built and used in the computation. The two-parameter Weibull's distribution was also used to represent the actual FLD. Next, the Mori—Tanaka model that employs the Eshelby's equivalent inclusion method was applied to calculate the stiffness matrix of the aligned fiber composite containing the established FLD. The stiffness of the actual as-formed composite was then determined from the stiffness of the computed aligned fiber composite that was averaged over all possible orientations using the orientation averaging method. The methodology to predict the elastic properties of LFTs was validated via experimental verification of the longitudinal and transverse moduli determined for long glass fiber injection-molded polypropylene specimens. Finally, a sensitivity analysis was conducted to determine the effect of a variation of FLD on the composite elastic properties. Our analysis shows that it is essential to obtain an accurate fiber orientation distribution and a realistic fiber length distribution to accurately predict the composite properties.}, added-at = {2010-09-15T11:05:47.000+0200}, author = {Nguyen, Ba Nghiep and Bapanapalli, Satish K. and Holbery, James D. and Smith, Mark T. and Kunc, Vlastimil and Frame, Barbara J. and Phelps, Jay H. and III, Charles L. Tucker}, biburl = {https://www.bibsonomy.org/bibtex/256dcd8b362a9bdeee0d25c5871a8b723/vdmeulen}, doi = {10.1177/0021998308088606}, eprint = {http://jcm.sagepub.com/content/42/10/1003.full.pdf+html}, file = {:Artikel\\2008 Nguyen - Fiber Lenght and Orientation in Long-Fiber Injection-Molded Thermoplastics.pdf:PDF}, interhash = {5a57216992472e64f6f5fecf224a528b}, intrahash = {56dcd8b362a9bdeee0d25c5871a8b723}, journal = {Journal of Composite Materials}, keywords = {imported}, number = 10, pages = {1003-1029}, timestamp = {2010-09-15T11:05:47.000+0200}, title = {Fiber Length and Orientation in Long-Fiber Injection-Molded Thermoplastics — Part I: Modeling of Microstructure and Elastic Properties}, url = {http://jcm.sagepub.com/content/42/10/1003.abstract}, volume = 42, year = 2008 }