The use of chopped fibers in the manufacturing of carbon fiber composite parts is becoming more popular in order to reduce production costs, especially in the automotive, wind, and gas storage industries. The orientation of the fibers in a chopped fiber part is important because the material properties of the part depend upon it. Phenomena such as shear alignment can result in undesired material properties, and therefore, a method for detecting the presence of undesired fiber orientations is needed. In this paper, a metric based on a part's curvature mode shapes is developed to identify the presence and location of fibers whose orientation is different from that of a desired alignment. A proof-of-concept experimental analysis shows the effectiveness of the metric at locating a region in a carbon fiber laminate plate that has been modified by rotating the fibers 90 deg. A finite element model is also developed to validate the experimental results and explore other modification scenarios. In each case, the metric is effective in identifying areas in which fiber alignment changed relative to a baseline model. In one case, a change as small as 3 deg was identified.
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Research-Article
Detecting Changes in Fiber Orientation in a Simulated Chopped Fiber Plate Using Curvature Mode Shapes
Janette J. Meyer,
Janette J. Meyer
Laboratory for Systems Integrity
& Reliability (LASIR),
Vanderbilt University,
566 Mainstream Dr., Suite 700,
Nashville, TN 37228
& Reliability (LASIR),
Vanderbilt University,
566 Mainstream Dr., Suite 700,
Nashville, TN 37228
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Douglas E. Adams
Douglas E. Adams
Laboratory for Systems Integrity
& Reliability (LASIR),
Vanderbilt University,
Nashville, TN 37228
e-mail: janette.j.meyer@vanderbilt.edu
& Reliability (LASIR),
Vanderbilt University,
566 Mainstream Dr., Suite 700
,Nashville, TN 37228
e-mail: janette.j.meyer@vanderbilt.edu
Search for other works by this author on:
Janette J. Meyer
Laboratory for Systems Integrity
& Reliability (LASIR),
Vanderbilt University,
566 Mainstream Dr., Suite 700,
Nashville, TN 37228
& Reliability (LASIR),
Vanderbilt University,
566 Mainstream Dr., Suite 700,
Nashville, TN 37228
Douglas E. Adams
Laboratory for Systems Integrity
& Reliability (LASIR),
Vanderbilt University,
Nashville, TN 37228
e-mail: janette.j.meyer@vanderbilt.edu
& Reliability (LASIR),
Vanderbilt University,
566 Mainstream Dr., Suite 700
,Nashville, TN 37228
e-mail: janette.j.meyer@vanderbilt.edu
1Corresponding author.
Contributed by the Applied Mechanics Division of ASME for publication in the JOURNAL OF APPLIED MECHANICS. Manuscript received December 21, 2017; final manuscript received February 26, 2018; published online March 19, 2018. Assoc. Editor: Junlan Wang.
J. Appl. Mech. May 2018, 85(5): 051009 (8 pages)
Published Online: March 19, 2018
Article history
Received:
December 21, 2017
Revised:
February 26, 2018
Citation
Meyer, J. J., and Adams, D. E. (March 19, 2018). "Detecting Changes in Fiber Orientation in a Simulated Chopped Fiber Plate Using Curvature Mode Shapes." ASME. J. Appl. Mech. May 2018; 85(5): 051009. https://doi.org/10.1115/1.4039479
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