Publications
Publications-Journal and peer reviewed articles:
- K. M. Kalayeh, P. G. Charalambides. “A Non-Linear Model of an All-Elastomer, in-Plane, Capacitive, Tactile Sensor Under the Application of Normal Forces”.
Sensors, Vol. 18, Issue 11, pp. 3614, 2018.
[PDF] - K. M. Kalayeh, P. G. Charalambides. “Large Deformation Mechanics of a Soft Elastomeric Layer Compressed by a Finite Flat Rigid Punch for Tactile Sensor Applications”.
International Journal of Non-Linear Mechanics, 2018.
[PDF] - K. M. Kalayeh, A. Charalambides, S. Bergbreiter, P. G. Charalambides. “Development and Experimental Validation of a Non-Linear, All-Elastomer In-Plane Capacitive Pressure Sensor Model”.
IEEE Sensor Journal,
vol. 17, Issue 2, pp. 274-285, 2017. [PDF] - X. Fang, P.G. Charalambides. “A J-integral Approach in Characterizing the Mechanics of a Horizontal Crack Embedded in a Cantilever Beam Under an End Transverse Force”.
Engineering Fracture Mechanics,
vol. 169, pp. 35-53, 2017. [PDF] - P.G. Charalambides, X. Fang. “The Mechanics of a Cantilever Beam with an Embedded Horizontal Crack Subjected to an End Transverse Force, Part A: Modelling”.
Mechanics, Materials Science & Engineering Journal,
vol. 5, pp. 132-157, 2016. [PDF] - P.G. Charalambides, X. Fang. “The Mechanics of a Cantilever Beam with an Embedded Horizontal Crack Subjected to an End Transverse Force, Part B: Results and Discussion”.
Mechanics, Materials Science & Engineering Journal,
vol. 5, pp. 158-176, 2016. [PDF] - J. Liu, W.D. Zhu, P.G. Charalambides, Y.M. Shao, Y.F. Xu, and K. Wu. “Four-beam Model for Vibration Analysis of a Cantilever Beam with an Embedded Horizontal Crack”.
Chin. J. Mech. Eng.,
vol. 29, no. 01, pp. 163-179, 2016. [PDF] - J. Liu, W.D. Zhu, P.G. Charalambides, Y.M. Shao, Y.F. Xu, and X.M. Fang. “A Dynamic Model of a Cantilever Beam with an Embedded Horizontal Crack Including Local Flexibilities at Crack Tips”.
Journal of Sound and Vibration,
vol. 382, pp. 274-290, 2016. [PDF] - K. M. Kalayeh, and P. G. Charalambides. “Large Deformation Mechanics of a Soft Elastomeric Layer Under Compressive Loading for a MEMS Tactile Sensor Application”.
International Journal of Non-Linear Mechanics
, vol. 76, pp. 120-134, 2015. [PDF] - X. Fang, and P. G. Charalambides. “The Fracture Mechanics of Cantilever Beams with an Embedded Sharp Crack Under End Force Loading”.
Engineering Fracture Mechanics
, vol. 149, pp. 1-17, 2015. [PDF] - M.P. Rao, M. Pantiuk and P.G. Charalambides. “Modeling the Effects of Stress Concentrations on the Initiation of Matrix Cracking in Woven CMCs”.
Journal of Composite Materials,
vol. 45, no. 10, pp 1121-1143, 2011. [PDF] - Panos G. Charalambides and Liwei Lu. “Modeling the Mechanical Response of Fibrous Monolith Composites”, Reviewed Proceedings,
USNCTAM 2010
, State College, PA, June 26-July 2, 2010. - Panos G. Charalambides and Liwei Lu, “Modeling the Mechanical Response of Fibrous Monolith Composites”, Reviewed Proceedings,
9th HSTAM 2010, Limasol, Cyprus
, July 12-14, 2010. - M.P. Rao, M. Pantiuk and P.G. Charalambides. “Modeling the Geometry of Satin Weave Fabric Composites”.
Journal of Composite Materials,
vol. 43, no. 01, pp. 19-56, 2009. [PDF] - Yong Zhao, Liwei Lu, Panos G. Charalambides, Ken L. Knittel and Mark C.L. Patterson. “Modeling the Stress-Induced Non-linear Mechanical Response of Energetic FMC Material Systems”,
Appeared in the CD Rom Proceedings of the Thirty Third International Pyrotechnic Seminar
, Fort Collins, Colorado, July 2006. - L. Lu, P.G. Charalambides and M.C.L. Patterson. “Modeling of Damage Response in High Abrasive Stress Fibrous Monolith Tools”.
Appeared in the Proceedings of the 32nd International Symposium on the Application of Computers and Operations Research in the Mineral Industry APCOM 2005
. Tucson, USA, 30 March - 01 April, 2005. - D. Zhang, D. Arola, P.G. Charalambides and M.C. L. Patterson. “On the Mechanical Properties of Carbon-Carbon Optic Grids Determined Using a Bi-axial Optical Extensometer“.
Journal of Material Science,
vol. 39 no. 14 pp. 4495-4505, 2004. [PDF] - M.P. Rao, M. Pantiuk, and P.G. Charalambides. “Initiation of matrix cracking in woven ceramic matrix composites”.
In Advances in Ceramic Matrix Composites X, Ceramic Transactions
, vol. 165, pp 165–180, Indianapolis, IN, April 2004. The American Ceramic Society. [PDF] - S.I. Haan, P.G. Charalambides and J.L. Kuhn and MCL. Patterson. “Supercritical Matrix Microcrcaking in Brittle Matrix Plain Weave Composites Under Uniaxial Tension”.
Mechanics of Materials
, vol. 35, pp. 1107-1126, 2003. [PDF] - K. Wardak, U. Tasch and P.G. Charalambides. “Optimal Fixture Design For Drilling Through Deformable Plate Workpieces. Part I: Formulation”.
J. of Manufacturing Systems
, vol. 20, no. 1, pp. 23-32, 2001. [PDF] - K. Wardak, U. Tasch and P.G. Charalambides. “Optimal Fixture Design For Drilling Through Deformable Plate Workpieces. Part II: Results”.
J. of Manufacturing Systems
, vol. 20, no. 1, pp. 32-43, 2001. [PDF] - S.I. Haan, P.G. Charalambides and M. Suri. “A Specialized Finite Element for the Study of Woven Composites.”
Computational Mechanics
, vol. 27, no.6, pp 445-462, 2001. [PDF] - J. L. Kuhn, S. I. Haan and P.G. Charalambides. “Stress Induced Matrix Microcracking in Brittle Matrix Plain Weave Ceramic Matrix Composites Under Uniaxial Tension.”.
Journal of Composite Materials
, vol. 34, no. 19, pp 1640-1664, 2000. [PDF] - J. L. Kuhn and P.G. Charalambides. “Modeling of Plain Weave Fabric Composite Geometry”.
Journal of Composite Materials
, vol. 33, no. 3, pp. 186-220, 1999. [PDF] - J. L. Kuhn, S.I. Haan and P.G. Charalambides. “A Semi-analytical Method for the Calculation of the Elastic Micro-fields in Plain Weave Fabric Composites Under Remote In-plane Loading”.
Journal of Composite Materials
, vol. 33, no. 3, pp. 221-266, 1999. [PDF] - M. Jha and P.G. Charalambides, “A Finite Element Analysis on Fracture Initiation in Ductile Brittle Periodically Layered Composites.”,
Int. J. Fracture
, 90 [4], pp. 299-323, 1999. - M. Jha and P.G. Charalambides, “Crack-Tip Micromechanical Fields in Layered Elastic Composites: Crack Parallel to the Interfaces.”,
Int. J. Solids and Structures
, 35, Nos. 1-2, pp. 149-179, 1998. - J. L. Kuhn and P.G. Charalambides, “Elastic Response of Porous Matrix Plain Weave Fabric Composites: Part I - Modeling”,
J. Comp. Materials
, Vol. 32, No. 16, pp. 1426-1471, (1998). [PDF] - J. L. Kuhn and P.G. Charalambides, “Elastic Response of Porous Matrix Plain Weave Fabric Composites: Part II - Results”,
J. Comp. Materials
, Vol. 32, No. 16, pp. 1472-1507, (1998). [PDF] - M. Jha, P.G. Charalambides and R. Ballarini, “Near-tip Mode-I Elastic Fields in Bimaterial Layered Systems.”,
Int. J. Solids and Structures
, 34, No. 15, pp. 1849-1871, 1997. [PDF] - W. A. Cutler, F. W. Zok, F. F. Lang and P. G. Charalambides, “Delamination Resistance of Hybrid Ceramic Composite Laminates.”,
J. Am. Ceram. Soc.
, 80, [12], 3029-37 (1997). [PDF] - P.G. Charalambides and W. Zhang, “An Energy Method for Calculating the Stress Intensities in Orthotropic Bimaterial Fracture.”,
Int. Journal of Fracture
, 76, 97-120, 1996. [PDF] - R. Ballarini, S. Islam and P.G. Charalambides, “Near-tip Dual-Length Scale Mechanics of Mode I Cracking in Laminated Brittle Matrix Composites.”,
Int. Journal of Fracture
, 70, 275-304, 1995. [PDF] - R. K. Bordia, B. Dalgleish, P.G. Charalambides and A. G. Evans, “Cracking and Damage in a Notched Unidirectional Fiber-Reinforced Brittle Matrix Composite”,
J. Am. Ceram. Soc.
, 74[11], 2776-2780 (1991). [PDF] - P.G. Charalambides, “Steady-State Delamination Cracking in Laminated Ceramic Matrix Composites.”,
J. Am. Ceram. Soc.
, 74 [12], 3066-80 (1991). [PDF] - P. G. Charalambides, H. C. Cao, J. Lund and A. G. Evans, “Development of a Test Method for Measuring the Mixed Mode Fracture Resistance of Bimaterial Interfaces.”,
Mech. of Mat.
, 8, 269-283 (1990). [PDF] - P. G. Charalambides, “Fiber Debonding in Residually Stressed Brittle Matrix Composites.”,
J. Am. Ceram. Soc.
, 73 [6], 1674-80 (1990). [PDF] - O. Spaizero, P. G. Charalambides and A. G. Evans, “Delamination Cracking in a Laminate Ceramic Matrix Composite.”,
J. Am. Ceram. Soc.
, 73 [7] 1936-40 (1990). [PDF] - A. G. Evans, M. Ruehle, B. J. Dalgleish and P.G. Charalambides, “The Fracture Energy of Bimaterial Interfaces.”,
Mater. Sci. Engng.
, A126, 53-64 (1990). [PDF] - P. P. L. Matos, R. M. McMeeking P. G. Charalambides and M. D. Drory, “A Method for Calculating Stress Intensities in Bimaterial Fracture.”,
Int. Journal of Fracture
, 40, 235-254 (1989). [PDF] - P. G. Charalambides and A. G. Evans, “Debonding Properties of Residually Stressed Brittle Matrix Composites”,
J. Am. Ceram. Soc.
, 72[5], 746-753 (1989). [PDF] - C. P. Ostertag, P. G. Charalambides and A. G. Evans, “Observations and Analysis of Sintering Damage.”,
Acta Metall.
, 37[7], 2077-2084 (1989). [PDF] - P. G. Charalambides, J. Lund, A. G. Evans and R. M. McMeeking, “A Test Specimen for Determining the Fracture Resistance of Bimaterial Interfaces.”,
J. Appl. Mech.
, 56, 77-82 (1989). [PDF] - P. G. Charalambides and R. M. McMeeking, “Near Tip Mechanics of Stress Induced Microcracking in Brittle Materials.”,
J. Am. Ceram. Soc.
, 71 [6] (1988), 465-72. [PDF] - M. Ruehle, A. G. Evans, R. M. McMeeking, P. G. Charalambides and J. W. Hutchinson, “Microcrack Toughening in Alumina/Zirconia.”,
Acta Metall.
, Vol 35 No. 11 (1987), 2701-2710. [PDF] - P. G. Charalambides and R. M. McMeeking, “Finite Element Method Simulation of Crack Propagation and R-Curve Phenomena for a Microcracking Solid.”,
Mech. of Mat. Journal
, 6(1987), 71-87. [PDF]
Books
- P.G. Charalambides, J.L. Kuhn and M.P. Rao, A Guide to Finite Element Modeling", Department of Mechanical Engineering, The University of Maryland, Baltimore County, Baltimore, MD 21228. January, 1996. Revised 2006.
Posters
- Modeling the Mechanical Response of Fibrous Monolith Composites, Liwei Lu, Panos G. Charalambides
- Finite Element Modeling of Woven Fabric Composites, M. Prabhakar Rao, Panos G. Charalambides
