Dr. Linda (Xiaolin) Chen
Referred Journal Publications:
X. L. Chen, "Comparison of numerical methods for noise source identification", submitted to Noise Control Engineering Journal (2006).
P. Allen and X.
L. Chen, “Process simulation of micro electro-discharge machining on
molybdenum“, submitted to Journal of
Materials Processing Technology (2006).
X. L. Chen and Y. J. Liu, "An advanced 3-D boundary element method for characterizations of composite materials," Engineering Analysis with Boundary Elements, 29, No. 6, 513-523 (2005).
Y. J. Liu, N. Nishimura, Y. Otani, T. Takahashi, X. L.
Chen and H. Munakata, “A fast boundary element method for the analysis of
fiber-reinforced composites based on a rigid-inclusion model,” ASME Journal of
Applied Mechanics, 72, No.1, 115-128 (2005).
X. L. Chen and Y. J. Liu, “Square representative volume elements for evaluating the effective material properties of carbon nanotube-based composites,” Computational Materials Science, 29, No. 1, 1-11(2004).
Y. J. Liu and X. L. Chen, “Modeling considerations in characterizing carbon nanotube-based composites by the FEM and BEM,” Electronic Journal of Boundary Elements, 1, No. 2, 316-335, (2003).
Y. J. Liu and X. L. Chen, “Evaluations of the
effective material properties of carbon nanotube-based composites using a
nanoscale representative volume element,” Mechanics of Materials, 35,
No. 1-2, 69-81 (2003).
X. L. Chen and Y. J. Liu, “Thermal stress analysis
of multi-layer thin films and coatings by an advanced boundary element
method,” CMES: Computer Modeling in Engineering & Sciences, 2, No. 3, 337-349 (2001).
X. L. Chen and Y. J. Liu, "Multiple-cell modeling
of fiber-reinforced composites with the presence of interphases using the
boundary element method," Computational Materials Science, 21,
No. 1, 86-94 (2001).
Proceeding
Papers:
P.
Allen, X. L. Chen, and D. Kim, “Numerical and experimental study on
micro-electrical discharge micromachining characteristics on molybdenum,”
Proceedings of ASME-IMECE, November, Orlando, FL. (2005).
X. L. Chen, D. Kim
and H. Gurocak, "Outreach program with summer camps and manufacturing
engineering workshops," Conference Proceedings of the American Society
for Engineering Education,
X. L. Chen and Y. J. Liu,
“Modeling of advanced composite materials by the boundary element
method”, in: Computational Engineering I. Advances in Continuum Mechanics
and Electromagnetics (ICOME 2003 Sapporo, Japan), edited by T. Honma, M.
Tanaka, H. Igarashi and T. Matsumoto, JASCOME, p. 13-20, (2004).
Y. J. Liu and X. L. Chen,
“Analysis of carbon nanotube-based composites by an advanced boundary
element method,” in: Proceedings of the Third International
Conference on Boundary Element Techniques (BETeq,
Y. J. Liu, N. Xu and X. L.
Chen, “Development of the boundary element method for the analysis of thin
and layered structures,” in: Advances in Computational Engineering &
Sciences (ICES 2000, Los Angeles), edited by S. N. Atluri and R. W. Brust,
Tech Science Press, p. 51-56, (2000).
X. L. Chen, H. X. Hua and Y.
J. Liu, “A higher-order FEM for vibration control of composite plates with
distributed piezoelectric sensors and actuators,” in: Advances in
Computational Engineering & Sciences (ICES 2000, Los Angeles), edited by
S. N. Atluri and R. W. Brust, Tech Science Press, p. 1506-1511, (2000).
X. L. Chen, H. X. Hua and H.
Sol, “Composite plate stiffness identification using neural networks,”
Proceedings of the 6th International Modal Conference, Canada, (1998).
Conference
Presentations:
X. L. Chen, Y. J.
Liu and N. Nishimura, “Modeling biomaterials using an integrated imaging and
computation approach”, the 7th World Congress on Computational
Mechanics, Los Angeles, LA, July 16-22, 2006
X. L. Chen, Y. J. Liu and N. Nishimura, “A boundary element approach to modeling and characterization of scaffold materials”, the 7th US National Congress on Computational Mechanics, Austin, Texas, August 25-27, 2005.
X. L. Chen and Y.
J. Liu, “Modeling and characterization of composite materials by the boundary
element method”, the 7th US National Congress on Computational
Mechanics,
Y. J. Liu and X.
L. Chen, “Evaluations of the effective material properties of carbon nanotube-based
composites by the finite element and boundary element methods,” (Invited)
In symposium: Modeling and Characterization of Nanocomposites, 2002 ASME
International Mechanical Engineering Congress,
Y. J. Liu and X.
L. Chen, “Analysis of carbon-nanotube based composites by the boundary element
method,” (Invited) In symposium: Advances in Boundary Element Methods, 2002
ASME International Mechanical Engineering Congress,
X. L. Chen and Y.
J. Liu, “On the use of the boundary element method for the analysis of
fiber-reinforced composites and thin films,” The Sixth US National Congress
on Computational Mechanics,
Y. J. Liu, H. Fan
and X. L. Chen, “A boundary element method for analyzing thin piezoelectric
solids with applications to MEMS devices,” The Sixth US National Congress
on Computational Mechanics,
Dissertation/Thesis:
“Development
of the Boundary Element Method for the Analyses of Various Advanced Materials,”
Ph.D. Dissertation, Department of Mechanical Engineering, University of
“Active
Vibration Control of Composite Plates with Distributed Piezoelectric Sensors and
Actuators,” M.S.
Thesis, National Laboratory of Vibration, Shock and Noise,
Publisher Links:
Computer Methods in Applied Mechanics and Engineering, by Elsevier Science
CMES: Computer Modeling in Engineering & Sciences, by Tech Science Press
Engineering Analysis with Boundary Elements, by Elsevier Science
International Journal for Numerical Methods in Engineering, by John Wiley & Sons
The Journal of the Acoustical Society of America, by The Acoustical Society of America