ANASTASIA HANIFAH MULIANA DEPARTMENT OF MECHANICAL ENGINEERING ENGINEERING PHYSICS BUILDING (EPB), ROOM 226 TEXAS A&M UNIVERSITY COLLEGE STATION, TEXAS 77843-3123 PHONE: 979-458-3579 EMAIL: [email protected] EDUCATIONAL BACKGROUND Degree Field Institution Year Ph.D. Civil Engineering Georgia Institute of Technology, Atlanta, GA 2004 M.S. Civil Engineering Georgia Institute of Technology, Atlanta, GA 1999 B.Sc. Civil Engineering Bandung Institute of Technology, Indonesia 1997 EMPLOYMENT HISTORY Title Institution Date Associate Professor Department of Mechanical Engineering 09/2010-present Texas A&M University Assistant Professor Department of Mechanical Engineering 09/2004-08/2010 Texas A&M University Graduate Research and Civil and Environmental Engineering 09/98-07/04 Teaching Assistant Georgia Institute of Technology Research and Design Civil Engineering Department 11/97-05/98 Engineer Bandung Institute of Technology, Indonesia Undergraduate Research Civil Engineering Department 09/95-10/97 and Teaching Assistant Bandung Institute of Technology, Indonesia RESEARCH INTERESTS Nonlinear and time dependent constitutive material models, thermal stress analyses, micromechanics of composite and functionally graded materials, multi-scale analyses of laminated and sandwich composites subject to coupled thermal, electrical, and mechanical stimuli, coupled mechanical and transport analyses in smart composites, delamination and crack growth in laminated composites, large-scale nonlinear structural analyses, numerical and finite element methods, and creep tests on polymer composites. January 2015 Page 1 of 22 NOTABLE AWARDS • Herbert H. Richardson Fellow Award, 2012-2013 • Gulf Oil/Thomas A. Dietz Career Development Professor II, 2011-2014 • 2008 Presidential Early Career Award for Scientists and Engineers (PECASE), awarded in 2009 • US Air Force Office of Scientific Research (AFOSR) Young Investigator Award, 2008 • National Science Foundation (NSF) CAREER Award, 01/2006-12/2010 • Texas A&M Engineering Experiment Station (TEES) Select Young Faculty Award, Texas A&M University, 2006 • Luther Long Award, Georgia Institute of Technology, 2004 • Humpus Fellowship, Indonesia, 1996-1997 • First rank in Civil Engineering, Institute Technology of Bandung, 1997 PROFESSIONAL MEMBERSHIP • American Society of Composites (ASC), 2004-present • American Institute of Aeronautics and Astronautics (AIAA), 2003-2006 • American Society of Mechanical Engineers (ASME), 2006-present COURSES TAUGHT A. Graduate MEMA 651: Viscoelastic of Solids and Structures MEEN 689/657: Design and Modeling of Viscoelastic Structures. MEEN 689: Linear Elasticity MEEN 688: Advanced Solid Mechanics B. Undergraduate CVEN 305: Mechanics of Materials MEEN 221: Statics and Particle Dynamics MEEN 368: Solid Mechanics in Mechanical Design MEEN 451: Viscoelastic Materials STUDENT RESEARCH ADVISING A. Doctorate 1. Sourabh Sawant, Spring 2005-Fall 2008 (currently at Deep Sea Drilling, Houston) Dissertation title: A Multiscale Framework for Thermo-Viscoelastic Analyses of Fiber Metal Laminates. Proposal defense on July 2, 2007 and final defense on September 2008. January 2015 Page 2 of 22 2. Jeong Sik Kim, Fall 2005-Fall 2009 (currently at Cameron, Houston, TX) Dissertation title: A Micromechanical Model for Viscoelastic+Viscoplastic Analyses of Particle Reinforced Composites. Proposal defense on August 29, 2008; final defense on August 27, 2009 3. Kamran Khan, Spring 2007-Spring 2011 (King Abdullah University KAUST as Post-doct, will be joining King Fahd University of Petroleum and Mineral as assistant professor in Sept. 2014) Dissertation title: A Multi-scale Model for Coupled Heat Conduction and Deformations of Viscoelastic Composites 4. Pradeep Gudlur, Spring 2009-Summer 2013 (co-advise with Miladin Radovic, currently at RJ Engineering, Houston) Dissertation title: Experimental and Numerical Studies of Aluminum-Alumina Composites 5. Chien Hong Lin, Summer 2009-Spring 2014 (final defense on Feb. 13, 2014) Dissertation title: Micromechanics modeling of nonlinear and time-dependent responses of piezoelectric 1-3, 0-3, and hybrid Composites 6. Jaehyeuk Jeon, Spring 2010-Summer 2013 (current position: Riser Specialist at Genesis, Houston) Dissertation title: A Viscoelastic-viscoplastic Analysis of Fiber Reinforced Polymer Composites undergoing Mechanical Loading and Temperature Changes 7. Hassene Ben Attitalah, Spring 2009-current (co-advise with Z. Ounaies, Aerospace Engr., currently at Penn State since 2011, expected graduation Fall 2014) 8. Amir Sohrabi, Spring 2010-current (expected graduation Fall 2014) Dissertation title: Nonlinear and Rate-dependent Hysteretic Electro-mechanical Responses of Ferroelectric Materials 9. Vahid Tajeddini, Spring 2011-current 10. Huanlin Zhu, Spring 2012-current (co-advise with KR Rajagopal) 11. Junwei Xing, Fall 2011-current (co-advise with Miladin Radovic) 12. Sudharsan Parthasarathy, Spring 2012-current (co-advise with KR Rajagopal) 13. Hoda Davoodi, Spring 2013-current 14. Yiming Fan, Summer 2014- 15. Zhi Yuan, Fall 2014 B. Master 1. Aravind Nair, Fall 2004-Summer 2006 (currently at Marine Computation Services, Houston, TX). Thesis title: Characterization of Thermo-mechanical and Long-term Behaviors of Multi-layered Composite Materials January 2015 Page 3 of 22 2. Kamran Khan, Spring 2005- Fall 2006 (continued PhD study at TAMU) Thesis title: A Time Integration Scheme for Stress and Temperature Dependent Viscoelastic Behaviors of Isotropic Materials 3. Maithri Muddasani, Fall 2006-Summer 2008 (currently at Terex corp., Denison, TX as Mechanical Engineer) Thesis title: Nonlinear Viscoelastic Behaviors of Multi-layered (pultruded) Composites at Various Temperatures and Stresses 4. Sneha Shah, Spring 2007-Summer 2008, co-advised with K.R. Rajagopal (currently at Siemens Energy Inc. as Mechanical Integrity Consultant) Thesis title: Coupled Heat Conduction and Deformation in Viscoelastic Composite Cylinders 5. Nikhil Joshi, Fall 2006-Summer 2008 (currently at Technip Subsea Engineering Lead Flexible Pipe Department, as Graduate Engineer) Thesis title: Analyses of Deformation in Viscoelastic Sandwich Composites Subject to Moisture Diffusion 6. Pradeep Gudlur, Spring 2007-Fall 2008 (continued PhD at TAMU) Thesis title: Thermoelastic Properties of Particle Reinforced Composites at the Micro and Macro Scales 7. Altramese Roberts, Fall 2006-Fall 2009 Thesis title: Viscoelastic Analysis of Sandwich Beams Having Aluminum and Fiber-Reinforced Polymer Skins with a Polystyrene Foam Core 8. Kuo-An Li, Summer 2008-Fall 2009 (current position is at Asus computer) Thesis title: Modeling Time-dependent Responses of Piezoelectric Fiber Composites 9. Arun Ravishankari (MS), Spring 2009- Spring 2011, co-advised with K.R. Rajagopal Thesis title: Finite element analysis of indentation in fiber-reinforced polymer composites 10. Ramachandran Kuravi (MS), Spring 2009- Fall 2010, co-advised with K.R. Rajagopal (currently at Aker Solutions) Thesis title: Controlling Deformation in Linearly Elastic and Viscoelastic Beams due to Temperature and Moisture Changes using Piezoelectric Actuator 11. Zeaid Hasan (MS), Fall 2009-Fall 2010, (currently at Boeing, Arizona) Thesis title: Controlling Performance of Laminated Composites using Piezoelectric Materials 12. Sukanya Doshi (MS), Spring 2011-Fall 2012, co-advise with JN Reddy (currently at Technip) Thesis title: Study of Thermo-electro-mechanical Coupling in Functionally Graded Metal-Ceramic Composites 13. Valentin Steenken (Master thesis, Bochum University, Germany), Summer 2013-Dec. 2013 Thesis title: Processing and Characterization of Metal Ceramic Composites for Solid Oxide Fuel Cells January 2015 Page 4 of 22 14. Mrudula Ane (M.Eng, non-thesis), Summer 2008-Spring 2009 Project title: Thermal Stress Analyses of Fiber Reinforced Composites 15. Jacob Manuel (M. Eng, non-thesis), Summer 2010, currently at Stress Engineering Services, Inc Project title: FE Analysis of Sandwich Composite Beam 16. Kyle Murphy (MS), Summer 2012-Fall2014 Thesis Title: Finite Element Analyses of A Cyclically Loaded Linear Viscoelastic Biodegradable Stent 17. Penny Luo (M. Eng, non thesis), Summer 2013-Fall 2014 Project title: A Mathematical Model for Hygro-thermal Analyses of Concrete Walls 18. Ruyue Song (MS), Summer 2014- C. Undergraduate Research 1. Shannon Wagner, Summer 2005 (completed). Internal paper report and poster presentation title: Time-temperature Behaviors of Multi-layered Fiber Reinforced Polymers (FRP) Composites. The poster was also presented at the Annual Biomedical Research Conference for Minority Students (ABRCMS 2005), Atlanta, November 2-5, 2005 and won the best student poster presentation award in the area of Chemical Science. 2 Adam Forsner, Spring 2010-Fall2010 Project title: Thermo-Mechanical Characterization of Al2O3-Al Composites at Elevated Temperatures. Internal paper report and poster presentation have been completed on August 2010 as part of Undergraduate Summer Research Grant (USRG) program at TAMU. The poster presentation won a second prize 3. Lars Lueckemeyer (German Exchange Student), Spring 2010 (co-advised with KR. Rajagopal) Project title: Response of Inhomogeneous Elastic Bodies due to Diffusion of a Fluid 4. Jonathan Lentz (German Exchange Student), Fall 2010 Project title: Mechanical and Thermal Behavior of Aluminum-alumina Composites 5. Artur Boznek (German Exchange Student), Spring 2012 Project title: Mechanical Behavior of Aluminum-alumina Composites: Experiment and Finite Element Analyses 6. Coleman Fincher, Summer 2014- D. RESEARCH ADVISING FOR HIGH SCHOOL TEACHERS 1. Elizabeth Rodriguez, Crystal City High School, Crystal City, TX. June 2007. Topic: Understanding mechanical behaviors, including elastic, viscoelastic, and inelastic responses, January 2015 Page 5 of 22 of multi-layered composite and other materials. Creep and quasi-static tests were conducted and the experimental data were fitted using different mathematical functions. 2. Miguel Sandoval, Gladys Porter High School, Brownsville, TX. June 2007 Topic: Understanding viscoelastic responses of polymer based materials at different temperatures. Creep tests were conducted and the experimental data were fitted using different mathematical functions. PUBLICATIONS (*graduate/undergraduate students) A. BOOKS, BOOK CHAPTERS, OR AUTHORITATIVE REFERENCES 1. Muliana, A., “A Multi-scale Formulation for Smart Composites with Field Coupling Effects” part of Advances in Mathematical Modeling and Experimental Methods for Materials and Structures. The Jacob Aboudi Volume, Vol. 168, pp. 73-87, 2010. 2. Kaminski, M. and Muliana, A., ”Computational Methods in Composite Materials and Structures”, International Journal for Multiscale Computational Engrg., Preface 2009 3. Li*, K.A. and Muliana, A.H., “Time-dependent Behavior of Active Polymer Matrix Composites”, part of Creep and Fatigue in Composites, Ed. RM Guedes, pp. 70-112, Woodhead Publishing 2011 4. Sohrabi*, A and Muliana, AH, “Nonlinear Hysteretic Response of Piezoelectric Ceramics” part of Ferroelectrics: Characterization and Modeling, Ed. Mickael Lallart, Intech 2011 5. Doshi*, S., Sohrabi*, A, Muliana, AH, and Reddy, JN “Analyses of Multifunctional Layered Composite Beams” part of Mechanics and Design of Smart Composites, Ed. Elhajjar et al., CRC Press Boca Raton, Florida 2013 6. El-Hajjar, R, Law, C, and Muliana, AH, “Behavior and Characterization of Magnetostrictive Composites,” part of Mechanics and Design of Smart Composites, Ed. Elhajjar et al., CRC Press Boca Raton, Florida 2013 7. Elhajjar R, La Saponara V, and Muliana AH, Smart Composites: Mechanics and Design, CRC Press Boca Raton, Florida 2013 B. ARTICLES IN REFEREED JOURNALS 1. Gudlur* P, Radovic M, and Muliana A, “Performance of Al-Al O Composites under Coupled 2 3 Mechanical and Thermal Stimuli” in revision 2. Tajeddini* V and Muliana A, “Nonlinear deformations of beams with piezoelectric patches subjected to electric and mechanical actuations” in review January 2015 Page 6 of 22 3. Lin* CH and Muliana AH, “Nonlinear Electro-mechanical Responses of Functionally Graded Piezoelectric Beams,” Composites Part B, in press 2014 4. Ben-Atitallah* H, Ounaies Z and Muliana AH, “On the temperature and time dependence of the electro-mechanical properties of flexible active fiber composites” in review 5. Davoodi* B, Muliana A, Tscharnuter D, and Pinter G, “Analyses of Viscoelastic Solid Polymers undergoing Degradation” in review 6. Muliana AH, Rajagopal KR, and Tscharnuter, D, “A Nonlinear Integral Model for Describing Responses of Viscoelastic Solids” Int. J. Solids and Structure, accepted 2014 7. Sohrabi* A and Muliana AH, ”Nonlinear and Time-dependent Behaviors of Piezoelectric Materials and Structures,” in review 8. Li P, White K, Lin* C, Kim D, Muliana A, Krishnamoorti R, Nishimura R, Sue HJ, “Ultrastrong Epoxy Nanocomposites Containing Self-assembled Synthetic Clay in Smectic Order” American Chemical Society, Applied Materials & Interfaces, 6, pp. 10188-10195, 2014 9. Ben-Atitallah H, Ounaies Z and Muliana AH, “A Parametric Study on Flexible Electro-Active Composites: Importance of Geometry and Matrix properties” J. Intelligent Material Systems and Structures, in press 2014 10. Muliana AH “Large deformations of nonlinear viscoelastic and multi-responsive beams” Int. J. Nonlinear Mechanics, in press 2014 11. Tajeddini* V, Ben Attitalah* H, Muliana A, and Ounaies Z, “Nonlinear viscoelastic behavior of active fiber composites”, ASME J. Engineering Materials and Technology, 136, p.021005, 2014 12. Gudlur* P, Muliana A, and Radovic M, “The Effect of Microstructural Morphology on the Elastic, Inelastic, and Degradation Behaviors of Aluminum - Alumina Composites” Mechanics Research Communications, 57, pp. 49-56, 2014 13. Lin* CH and Muliana A, “Polarization Switching Responses of 1-3 and 0-3 Active Composites” Composite Structures, 116, pp. 535-551, 2014 14. La Saponara V, Farrugia A, Lestari W, and Muliana A, “Analysis of ultrasonic waveforms from smart sandwich composite structures under creep bending at elevated temperature” J. Intelligent Material Systems and Structures, in press 2014 15. Zhu* H, Muliana A, and KR Rajagopal, “Effect of Prestress on the Mechanical Performance of Composites” ASCE J. Engineering Mechanics, accepted 2014 16. Jeon* J, Muliana A, and La Saponara V, “Thermal Stress and Deformation Analyses in Fiber Reinforced Polymer Composites undergoing Heat Conduction and Mechanical Loading” Composite Structures, 111, pp. 31-44, 2014 17. Muliana A, “Nonlinear Viscoelastic-Degradation Model for Polymeric Based Materials” Int. J. Solids and Structures, 51, pp. 122-132, 2014 January 2015 Page 7 of 22 18. Tajeddini* V, Lin* CH, Muliana AH, and Lévesque M, “Average Electro-mechanical Properties and Responses of Active Composites” Computational Material Science, 82, pp. 405-414, 2014 19. Lin* CH and Muliana A, “Micromechanical Models for the Effective Time-dependent and Nonlinear Electro-mechanical Responses of Piezoelectric Composites” J. Intelligent Material Systems and Structures, 25, pp. 1306-1322, 2014 20. Gudlur* P, Boczek* A, Radovic M, and Muliana A, “On Characterizing the Mechanical Properties of Aluminum - Alumina Composites” Material Science and Engineering A, 590, pp.352–359, 2014 21. Gudlur*, P., Muliana, A., and Radovic, M, “Thermo-mechanical Properties of Aluminum-Alumina Composites based on its Microstructural Characteristics,” Composite Part B, 58C, pp. 534-543, 2014 22. Reddy, J. N., Doshi*, S., and Muliana, A., "Theoretical Formulations for Finite Element Models of Functionally Graded Beams with Piezoelectric Layers," Journal of Solid Mechanics, Vol. 3, No. 4, 2013 23. Sohrabi*, A. and Muliana, AH, “Rate-dependent and Electro-mechanical Coupling Response of Ferroelectric Materials: A Finite Element Formulation” Mechanics of Materials (MOM), 62, pp. 44-59, 2013 24. Muliana, AH, Rajagopal, KR, and Wineman, A, “A new class of quasi-linear models for describing the non-linear viscoelastic response of materials” Acta Mechanica, 224, pp. 2169-2183, 2013 25. Tscharnuter, D and Muliana AH, “Nonlinear Response of Viscoelastic Polyoxymethylene (POM) at Elevated Temperatures” Polymer, 54, pp. 1208-1217, 2013 26. Lin*, CH and Muliana, AH, “Micromechanics Models for the Effective Nonlinear Electro-mechanical Responses of Piezoelectric Composites” Acta Mechanica, 224, pp. 1471–1492, 2013 27. Jeon*, J., Kim*, J., and Muliana, AH, “Modeling Time-dependent and Inelastic Response of Fiber Reinforced Polymer Composites” Computational Material Science, 70, pp. 37-50, 2013 28. Muliana, A., Rajagopal, KR, and Wineman, A, “On a Burgers’ Fluid with Pressure Dependent Moduli” Mechanics Time-dependent Materials, 17(2), pp. 147-169, 2013 29. Chaitanya*, KRS, Muliana, A., and Rajagopal, KR, “Controlling Deformation in Linearly Elastic and Viscoelastic Structures due to Temperature and Moisture Changes using Piezoelectric Actuator” J. Intelligent Material Systems and Structures, 23(17) pp. 1949–1967, 2012 30. Hasan*, Z. and Muliana, A., “Analyzing Deformation and Failure of Smart Laminated Composites” Mechanics of Composite Materials, 48(4), pp. 391-404, 2012 31. Khan*, K and Muliana, A., “Fully Coupled Heat Conduction and Deformation Analyses of Viscoelastic Composites” Composite Structures, 94(6), pp. 2025-2037, 2012 32. Muliana, A “The Effects of Residual Stresses and Degradation on the Response of Viscoplastic Functionally Graded Materials” Composite Structures, 94(11), pp. 3354-3363, 2012 January 2015 Page 8 of 22 33. Khan*, KA and Muliana, A, “Fully Coupled Heat Conduction and Deformation Analyses in Viscoelastic Structures” Mechanics Time-dependent Materials, 16(4), pp. 461-489, 2012 34. Jeon* J. and Muliana, A. “A Simplified Micromechancial Model for Analyzing Viscoelastic-Viscoplastic Response of Unidirectional Fiber Composites” ASME J Engineering Materials and Technology, 134, 031003:1-9, 2012 35. Muliana, A and Rajagopal, KR, “On the Response of Viscoelastic Biodegradable Polymeric Solids,” Mechanics Research Communications, 39(1), pp. 51-58, 2012 36. Muliana, A and Rajagopal, KR, “Modeling the Response of Nonlinear Viscoelastic Biodegradable Polymeric Stents,” Int. J Solids and Structures, 49(7-8), pp. 989-1000, 2012 37. Gudlur*, P, Forness*, A., Lentz*, J., Radovic, M., and Muliana, A. “Thermal and Mechanical Properties of Al/Al O at Elevated Temperatures” Material Science and Engineering A, 531, pp. 2 2 18-27, 2012 38. Khan*, KA, Barello, R., Muliana, AH. and Levesque, M., “Coupled Heat Conduction and Thermal Stress Analyses in Particulate Composites,” Mechanics of Materials, 43, pp. 608-625, 2011 39. Muliana, A., “Time-temperature Dependent Behavior of Ferroelectric Materials undergoing Cyclic Electric Field” Int. J. Solids and Structures, 48 (19), pp. 2718-2731, 2011 40. Muliana, A and Lin* CH, “A Multi-scale Formulation for Predicting Nonlinear Thermo-electro-mechanical Response in Heterogeneous Bodies,” J. Intelligent Material Systems and Structures, 22, pp. 723-738, 2011 41. Kim* JS, Arronche L, Farrugia A, Muliana A, La Saponara, V, “Multi-scale Modeling of Time-dependent Response of Smart Sandwich Constructions” Composite Structures, 93, pp. 2196-2207, 2011 42. Farrugia, A., Winkelman, C., La Saponara, V., Kim*, J.S. and Muliana, A. “Creep Responses of Smart Sandwich Composites at Multiple Length Scales: Experiments and Modeling” ASME, J of Engineering Materials and Technology (JEMT), Vol. 133, pp. 1-6, 2011 43. Muliana, AH and Rajagopal, KR, “Changes in the Response of Viscoelastic Solids to Changes in Their Internal Structures” Acta Mechanica, 217, pp. 297-316, 2011 44. Muliana, AH and Li*, K.A., “Time-dependent Response of Active Composites with Thermal, Electrical, and Mechanical Coupling Effect” Int. J. Engineering Science, 48, pp. 1481-1497, 2010 45. Muliana, A.H., “A Micromechanical Formulation for Piezoelectric Fiber Composites with Nonlinear and Viscoelastic Constituents” Acta Materialia, 58, pp. 3332-3344, 2010 46. Muliana, A. and Kim*, J.S., “A Two-scale Homogenization Framework for the Effective Thermal Conductivity of Laminated Composites“ Acta Mechanica, 212(3-4), pp. 319-347, 2010 47. Kim*, J.S. and Muliana, A., “A Combined Viscoelastic-Viscoplastic Behavior of Particle Reinforced Composites” Int. J. Solids and Structures, 47, pp. 580-594, 2010 January 2015 Page 9 of 22 48. Muddasani*, M., Sawant*, S., and Muliana, A., “Thermo-viscoelastic Responses of Multilayered Polymer Composites: Experimental and Numerical Studies” Composite Structures, 92(11), pp. 2641-2652, 2010 49. Joshi*, N. and Muliana, A., “Deformation in Viscoelastic Sandwich Composites Subject to Moisture Diffusion” Composite Structures, 92, pp. 254-264, 2010 50. Khan*, K. A. and Muliana, A., “Effective Thermal Properties of Viscoelastic Composites Having Field Dependent Constituent Properties“ Acta Mechanica, 209, pp. 153-178, 2010 51. Kim*, J.S. and Muliana, A., “Time-dependent and Inelastic Responses of Fiber and Particle Hybrid Composites” Structural Engineering and Mechanics, An International Journal, 34, pp. 525-539, 2010 52. Kim*, J. S. and Muliana, A. H. ,”A Time Integration Method for the Viscoelastic-Viscoplastic Analyses of Polymers and Finite Element Implementation” Int. J. Numerical Method in Engr, 79, pp. 550-575, 2009 53. Rajagopal, K.R. and Muliana, A.H., “Shear Deformation of a Non-linear Solid Undergoing Deterioration of Material Properties,” International Journal of Structural Changes in Solids, Vol. 1, pp. 1-19, 2009 54. Shah*, S., Muliana, A., and Rajagopal, K.R., “Coupled Heat Conduction and Deformation in a Viscoelastic Composite Cylinder“ Mechanics of Time-dependent Materials, 13, pp. 121-147, 2009 55. Muliana, A.H., “A Micromechanical Model for Predicting Thermal Properties and Thermo-viscoelastic Responses of Functionally Graded Materials“ Int. J. Solids and Structures, 46(9), pp. 1911-1925, 2009 56. Khan*, K. A. and Muliana, A., “A Multi-scale Model for Coupled Heat Conduction and Deformations of Viscoelastic Functionally Graded Materials,” Special Issue on ’Blast resistance of Nano-engineered Composites” Composite part B, 40, pp. 511-521, 2009 57. Muliana, A. H. and Sawant*, S., “Viscoelastic Responses of Polymer Composites with Temperature and Time Dependent Constituents” Acta Mechanica, 204, pp. 155-173, 2009 58. Sawant*, S. and Muliana, A.H., “Nonlinear Viscoelastic Analyses of Fiber Metal Laminates”, Int. Journal for Multiscale Computational Engineering, 7(4), pp. 351-371, 2009 59. Muliana, A. H. and Haj-Ali, R., ”A Multi-scale Framework for the Thermo-rheologically Complex Multi-layered Composites,” Int. J. Solids and Structures, 45, pp. 2937-2963, 2008 60. Muliana, A., Subramanian, S.C., and Rajagopal, K. R., “Degradation of an Elastic Composite Cylinder due to the Diffusion of a Fluid,” J. Composite Materials, 43, pp. 1225-1249, June, 2009 61. Sawant*, S. and Muliana A.,”A Thermo-mechanical Viscoelastic Analysis of Orthotropic Media” Composite Structures, 83, pp. 61-72, 2008. 62. Muliana, A. H. and Khan*, A. K., ”A Time Integration Scheme for Stress-temperature Behaviors of Adhesive Polymer” Computational Materials Science, 41, pp. 576-588, 2008 January 2015 Page 10 of 22