Nanoscience and Nanotechnology

Nanoscience and Nanotechnology is an international and multidisciplinary peer-reviewed journal covering fundamental and applied research in all disciplines of science, engineering and medicine.


Ram Mohan

Editorial Board Member of Nanoscience and Nanotechnology

Associate Professor, Joint School of Nanoscience and Nanoengineering, North Carolina A&T State University, USA

Research Areas

Nanoengineered Materials, Nanomechanics, Computational Nanoengineering, Nanocomposites, Multi-Scale Modeling of Crystalline, Amorphous, Cementitious, Biological Material Systems, Material Interface and Interactions, Computational Multi-Physics Modeling,

Education

1997Ph.DMechanical Engineering, University of Minnesota
1990M.S.Theoretical and Applied Mechanics, University of Illinois at Urbana Champaign
1987M.S.M.E.Mechanical Engineering, West Virginia University
1985B.Engg.Mechanical Engineering, University of Madras, India

Experience

2011-presentAssociate Professor, Department of Nanoengineering, Joint School of Nanoscience and Nanoengineering (JSNN), Greensboro, NC.
2006-2011Tenured Associate Professor, Graduate Program Coordinator, Computational Science and Engineering
2003-2006Senior Research Scientist, Center for Advanced Materials and Smart Structures
2005-2006Adjunct Assistant Professor, Mechanical Engineering
2001-2003Assistant Research Professor, Mechanical Engineering, University of New Orleans
2001-2003Research Scientist, National Center for Advanced Manufacturing-Louisiana Partnership
1994-2001Resident Research Scientist, U.S. Army Research Laboratory
1991-1994Research Assistant, Army High Performance Computing Research Center, University of Minnesota
1987-1990Graduate Teaching and Research Assistant, Theoretical and Applied Mechanics, University of Illinois at Urbana-Champaign
1985-1987Teaching, Research Assistant and Instructor, Mechanical and Aerospace Engineering, West Virginia University

Publications: Conferences/Workshops/Symposiums/Journals/Books

[1]  R. Mohan, O. Akinyede, A. Kelkar, and J. Sankar, "Processing, Evaluation and Molecular Simulations in Hybrid Fiber Polymer Composites with Alumina Nanoparticles, Developments in Nanocomposites," Research Publishing Services, Singapore, ISBN 978-981-08-3711-2, (To be Published in 2011).
[2]  R. Mohan and Y. Liang, "Tensile and Flexural Deformation of Nickel Nanowires via Molecular Dynamics Simulations, Cutting Edge Nanotechnology," Intechweb.org, ISBN 978-953-7619-93-0, 2010.
[3]  E. Fefey, R. Mohan, A. Kelkar, "Computational Study of the Effect of Carbon Vacancy Defects on the Young's Modulus of (6,6) Single Wall Carbon Nanotube," Materials Science and Engineering-Part B, Vol. 176, No. 9, pp. 693-700, 2011.
[4]  E. Fefey, R. Mohan, A. Kelkar, "Vacancy Defects in SWCNT and its Effects on the Mechanical Properties of Epoxy-SWCNT Composite System-MD Simulations," Computational Material Science, (under review), 2011.
[5]  R. Mohan, Y. Purohit, Y. Liang, "Deformation Behavior of Nanoscale Material Systems with Applications to Tensile, Flexural and Crack Propagation," Journal of Computational and Theoretical Nanoscience, (accepted, in print) 2011.
[6]  Y. Purohit and R. Mohan, "Mechanical Properties and Behavior of Nanoscale Multilayer Metallic Composites," Materials Express, (under revision), 2011.
[7]  O. Akinyede, R. Mohan, A. Kelkar, J. Sankar, "Processing and Thermo-Physical Characterization of Alumina Particulate Reinforced 3-Phase Hybrid Composite Material System," Journal of Advanced Materials, July 2010.
[8]  O. Akinyede, R. Mohan, A. Kelkar, J. Sankar, "Static and Fatigue Behavior of Epoxy/Fiberglass Composites Hybridized with Alumina Nanoparticles," Journal of Composite Materials, Vol. 43, No. 7, pp. 769-781, 2009.
[9]  A. Kelkar, R. Mohan, R. Bolick, S. Shendokar, "Effect of Nanoparticles and Nanofibers on Mode I Fracture Toughness of Fiber Glass Reinforced Polymeric Matrix Composites," Mat. Sci. Eng.-B, Vol. 168, pp. 85-89, 2010.
[10]  A. Kelkar, R. Mohan, R. Bolick, and S. Shendokar, "Effect of electrospun fibers on the interlaminar properties of woven composites," Advanced Materials Research Vols. 47-50 (2008), pp: 1031-1034.
[11]  S. Desai, R. Mohan, J. Sankar, T. Tiano, "Understanding Conductivity in a Composite Resin with Single Wall Carbon Nanotubes (SWCNTs) using Design of Experiments," Int. J. Nanomanufacturing, Vol. 2, No. 4, pp. 292-304, 2008.
[12]  B. Henz, R. Mohan, D. Shires, "A Hybrid Global Local Approach for Optimization of Injection Gate Locations in Liquid Composite Molding Process Simulations," Composites: Part A, Vol. 38, pp. 1932-1946, 2007.
[13]  N. Yamaaleev and R. Mohan, "Effect of Phase Transition on Intra-Tow Flow Behavior and Void Formation in Liquid Composite Molding," Int. J. Multiphase Flow, V. 32, pp. 1219-1233, 2006.
[14]  B. Henz, R. Mohan, N. Ngo, P. Chung, K. Tamma, "Process Modeling of Composites by Resin Transfer Molding: Sensitivity Analysis for Non-Isothermal Considerations," International Journal of Numerical Methods for Fluid Flow, Vol. 15, No. 7, 2005.
[15]  M. Allende, R. Mohan, S. Walsh, "Experimental and Numerical Analysis of Flow Behavior in the FASTRAC Liquid Composite Manufacturing Process," Polymer Composites, Vol. 25, No. 4, pp. 384-396, August 2004.
[16]  S. Walsh and R. Mohan, "Sensor-Based Control of Flow Fronts in Vacuum-Assisted RTM," Plastics Engineering, Vol. LV, No. 10, 1999.
[17]  R. Mohan, N. Ngo and K. Tamma, "On a Pure Finite Element Methodology for Resin Transfer Mold Filling Simulations," Polymer Engineering and Science, Volume 39, No. 1, pp. 26-43, January 1999.
[18]  S. Bickerton, R. Mohan, S. Advani and D. Shires, "Experimental Analysis and Numerical Modeling of Flow Channel Effects in Resin Transfer Molding," Polymer Composites, Vol. 21, No. 1, 2000.
[19]  R. Mohan, D. Shires, K. Tamma and N. Ngo, "Flow Channels and Fiber Impregnation Studies for the Process Modeling/Analysis of Complex Engineering Structures Manufactured by Resin Transfer Molding," Polymer Composites, Vol. 19, No. 5, pp. 527-542, October 1998.
[20]  N. Ngo, R. Mohan, P. Chung, K. Tamma and D. Shires, "Recent Developments Encompassing Non-Isothermal/Isothermal Liquid Composite Molding Process Modeling/Analysis: Physically Accurate, Computationally Effective and Affordable Simulations and Validations," Journal of Thermoplastic Composites-Special Issue on Affordable Composites, Volume 11, pp. 493-532, November, 1998.
[21]  R. Mohan, N. Ngo, K. Tamma, D. Shires, "Three-Dimensional Resin Transfer Molding: Isothermal Process Modeling and Implicit Tracking of Moving Fronts for Thick, Geometrically Complex Composites Manufacturing Applications-Part 2," Numerical Heat Transfer-Part A, Applications, Vol. 35, no. 8, pp. 839-858, 1999.
[22]  R. Mohan, N. Ngo and K. Tamma, "Three-Dimensional Resin Transfer Molding: Isothermal Process Modeling and Explicit Tracking of Moving Fronts for Developments for Thick, Geometrically Complex Composites Manufacturing Applications-Part 1," Numerical Heat Transfer-Part A, Applications, Vol. 35, no. 8, pp. 815-838, 1999.
[23]  B. Henz, D. Shires, R. Mohan, "Development and Integration of Parallel Multi-Disciplinary Computational Software for Modeling a Modern Manufacturing Process," Lecture Notes in Computer Science, Vol. 3402, Springer Verlag, April 2005.
[24]  D. Shires and R. Mohan, "Optimization and Performance of a FORTRAN 90 MPI-Based Unstructured Code on Large Scale Parallel Systems," Journal of Supercomputing, Vol. 25, pp. 131-141, 2003.
[25]  D. Shires, R. Mohan, "An Evaluation of HPF and MPI Approaches and Performance in Unstructured Finite Element Simulations," Journal of Mathematical Modeling and Algorithms, Vol. 1, pp. 153-167, 2002.
[26]  R. Mohan, D. Shires, A. Mark and K. Tamma, "Advanced Manufacturing of Large Scale Composite Structures: Process Modeling, Manufacturing Simulations and Massively Parallel Computing Platforms," Advances in Engineering Software, Volume 29, No. 3-6, pp. 249-264, Elsevier, UK, 1998.
[27]  W. Poon, R. Kanapady, R. Mohan, and K. Tamma, "Multi-Disciplinary Flow/Thermal and Induced Stresses in Convectively Cooled Structures," J. of Thermal Stresses, Vol. 25, pp. 319-339, 2002.
[28]  R. Mohan, A. Avila and K. Tamma, "Flux-Based Finite Volume Formulations and Adaptive Time Stepping Strategies for Modeling of Re-entry Thermal Protection Systems," Numerical Heat Transfer-Part B, Vol. 30, no. 2, pp. 117-136, 1996.
[29]  R. Mohan, A. Avila, K. Tamma and R. Namburu, "Three-Dimensional Transient Thermal Analysis with Explicit Finite Element Representations-Parallel Implementations and Performance Studies: The Connection Machine (CM-5)," Numerical Heat Transfer-Part B, Vol. 28, pp. 277-291, 1995.
[30]  Y. Mei, R. Mohan and K. Tamma, "Evaluation and Applicability of a New Explicit Time Integral Methodology for Transient Thermal Problems-Finite Volume Formulations," Numerical Heat Transfer-Part B, Vol. 26, pp. 313-333, 1994.
[31]  X. Chen, R. Mohan and K. Tamma, "Instantaneous Response of Elastic Thin-Walled Structures to Rapid Heating," International Journal for Numerical Methods in Engineering, Vol. 37, pp. 2389-2408, 1994.
[32]  R. Mohan and K. Tamma, "Finite Element/Finite Volume Approaches with Adaptive Time Stepping Strategies for Transient Thermal Problems," Sadhana-Academy Proceedings in Engineering Sciences, Vol. 19, part 5, pp. 765-783, 1994.
[33]  Prediction of Mechanical Properties of EPON 862 (DGEBF) Cross-Linked with Curing Agent W (DETDA) and SWCNT using MD Simulations, American Institute for Aeronautics and Astronautics (AIAA), Denver, CO, April 2011 (F. Komuves, A. Kelkar, R. Mohan, V. Kelkar).
[34]  Molecular Dynamics Modeling and Simulations in the Processing and Mechanics of Hybrid and Nano Composites, International Conference on Composites for 21st Century: Current and Future Trends, Indian Institute of Science, Bangalore, 2011 (R. Mohan, O. Akinyede, E. Fefey, and A. Kelkar).
[35]  Molecular Dynamics of Crack Growth in Nickel and Nickel-Aluminum Bimetallic Interface System under Cyclic Loading, IMECE2011-65150, ASME Congress, 2011 (Y. Purohit and R. Mohan).
[36]  Thermophysical and Tensile Behavior of Hybrid Epoxy Composites with Boron Carbide Particulates, 18th International Conference on Composite Materials (ICCM 18), Jeju, South Korea, August 2011 (S. Patankar, R. Mohan, and A. Kelkar).
[37]  Modeling and Analysis of Dynamic Crack Propagation in a Nanoscale Bi-Layer Metallic Composite, 19th International Conference on Composites and Nanoengineering, Shanghai, China, July 2011 (R. Mohan and Y. Purohit).
[38]  Molecular Dynamics of Crack Propagation in Nickel and Nickel-Aluminum Bimetal Interface, IMECE2010-38677, ASME Congress, 2010. (Y. Purohit and R. Mohan).
[39]  Molecular Dynamics Simulation of an Epoxy-Defective SWCNT Composite System, 18th International Conference on Composites and Nanoengineering, July 2010, Anchorage, AK (E. Fefey, R. Mohan, A. Kelkar).
[40]  Effect of Interleavened Electrospun Nanofiber on Flexural Properties of Fiber Glass Composites, IMECE2010-39186, 2010. (S. Shendokar, A. Kelkar, R. Mohan, and R. Bolick).
[41]  Prediction of Mechanical Properties of EPON 862 (DGEBF)-W (DETDA) using MD Simulations, AIAA-2010-2814, American Institute for Aeronautics and Astronautics (AIAA), Orlando, FL, April 2010 (F. Komuves, A. Kelkar, R. Mohan).
[42]  Modeling and Experimental Investigation on the Effect of Interlaminar Nanofiber Layers on the Delamination Behavior in Epoxy Fiber Glass Composite, 14th European Conference on Composite Materials, Paper No: 389-ECCM14, Budapest, Hungary, June 2010 (R. Mohan, N. Chinnanavar, S. Shendokar, A. Kelkar).
[43]  Experimental and Molecular Modeling Analysis of Property Improvements by Nanomaterial Functionalization in Hybrid Composites, International Conference on Composite Materials (ICCM 17), Edinburgh, July 2009. (O. Akinyede, R. Mohan, A. Kelkar).
[44]  Parametric Investigations on the Effect of Electrospinning Processing Variables on the Macroscopic Properties of Hybrid Composites, ASME Congress, November 2009. (S. Shendokar, A. Kelkar, R. Mohan, R. Bolick).
[45]  Molecular Dynamics Simulations and Analysis of Material Interactions in Alumina Particulate Hybrid Composites, AIAA-2008-2097, 2008 AIAA Structural Dynamics and Materials Conference, April 2008. (R. Mohan, O. Akinyede, A. Kelkar, J. Sankar).
[46]  Effect of Sintering Temperature on Mechanical Properties of Electrospun Silica Nanofibers, IMECE2008-68033, ASME Congress, November 2008. (S. Shendokar, A. Kelkar, R. Mohan, R. Bolick).
[47]  Comparative Study of Different Weave Architectures of Woven Textile Composites under Low Velocity Impact Loading, IMECE2008-67887, ASME Congress, November 2008. (G. Chandekar, B. Thate, A. Kelkar, R. Mohan).
[48]  Molecular Dynamics Simulations of Flexural Deformation of Nickel Nanowires, IEEE NANO 2008, August 2008 (R. Mohan and Y. Liang).
[49]  Prediction of Material Properties of Single Walled Carbon Nanotube using MD Simulations, IEEE NANO 2008, August 2008. (G. Chandekar, R. Mohan, A. Kelkar).
[50]  Modeling of Hybrid Composites under Low Velocity Impact Loading, International Conference on Advances in Structural Engineering and Mechanics (ASEM 2008), Jeju Island, South Korea, May 2008. (A. Kelkar, G. Chandekar, B. Thatte, R. Bolick, R. Mohan).
[51]  Effect of XD-Carbon Nanotubes on the Mechanical Properties of Epoxy-962 W Resin, Proc. 2008 SAMPE, Long Beach, CA. (A. Kelkar, R. Bolick, R. Mohan).
[52]  Investigation of Particulate Filtration of Alumina Nano-Particles in VARTM Processing of Hybrid Composites, IMECE2007-41225, Proc. 2007 ASME Mechanical Engineering Congress, Seattle, November 2007. (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[53]  A Model for the Two-Phase Through a Dual Scale Porous Medium in Liquid Composite Molding, IMECE2007-41226, Proc. 2007 ASME Mechanical Engineering Congress, Seattle, November 2007. (N. Yamaleev, R. Mohan).
[54]  Effect of Processing on the Dynamic Behavior and Material Failure in Hybrid Composites, SAMPE Proceedings, Baltimore, June 2007. (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[55]  Static and Dynamic Loading Behavior of Hybrid Epoxy Composite with Alumina Nanoparticles, 16th International Conference on Composite Materials, July 2007. (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[56]  Investigation of Inter-Laminar Failure in Epoxy Composite Hybridized with Alumina Nanoparticles, Proc. 21st Technical Conference, American Society for Composites, DasTech Publications (ISBN 9781932068602), 2006 (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[57]  Effect of Grafting Methodology on Nano-Particle Reinforcement on the Performance of Structural Hybrid Composites, IMECE2006-13873, Proc. 2006 ASME International Mechanical Engineering Congress and Exposition, 2006. (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[58]  Bending Deformation Behavior of Nickel Nanobeams via Molecular Dynamics Simulations, ICCE-14, International Conference on Composites/Nano Engineering, Boulder, CO, July 2006 (R. Mohan, Y. Liang).
[59]  Processing and Characterization of Alumina Nano Particle Dispersed Hybrid Polymer Composites, ICCE-14, International Conference on Composites/Nano Engineering, Boulder, CO, July 2006 (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[60]  Analysis of the Coupled Inter-and Intra-Tow Flow through Porous Fiber Preform in Liquid Composite Molding, ICCE-14, International Conference on Composites/Nano Engineering, Boulder, CO, July 2006 (N. Yamaleev, R. Mohan).
[61]  Processing and Evaluation of Hybrid Composite Laminates with Nanomaterial Functionalized Fiber and Resin Systems, SAMPE Proceedings 2006, May 2006 (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[62]  Tensile Deformation of Nickel Nanowires under Uniaxial Tension through Molecular Dynamics Simulations, 23rd South Eastern Conference on Theoretical and Applied Mechanics, May 2006, (Y. Liang, R. Mohan).
[63]  Analysis of Macroscopic and Intra-Tow Flow Behavior through Porous Fiber Preform during Liquid Composite Molding, 23rd South Eastern Conference on Theoretical and Applied Mechanics, May 2006 (R. Mohan).
[64]  Performance Evaluation of Z-Pinned Carbon Composites under Tension Compression Fatigue Loading, Aerospace Testing Expo 2006, Hamburg, Germany (R. Bolick, A. Kelkar, and R. Mohan).
[65]  VARTM Processing and Characterization of Composite Laminates From Epoxy Resins Dispersed with Alumina Particles, SAMPE Proceedings, Long Beach, May 2005 (O. Akinyede, R. Mohan, A. Kelkar).
[66]  Processing and Characterization of Hybrid Nanoparticle Infused Structural Fiber Composites, ASME Congress 2005, IMECE2005-81731 (O. Akinyede, R. Mohan, A. Kelkar, J. Sankar).
[67]  Modeling of Transient Flow inside a Fiber Tow during Liquid Composite Molding, ASME Congress 2005, IMECE2005-82436 (N. Yamaleev, R. Mohan).
[68]  Coupled Flow-Thermal Scalable Process Modeling and Simulations in Liquid Composite Molding of Composite Structures, NASA Thermal and Fluids Analysis Workshop, August 2005 (R. Mohan).
[69]  Process Modeling and Simulations for Liquid Composite Molding of Aerospace Structures, ICASI/CM-C25, International Conference on Advances in Structural Integrity, Bangalore, India, July 2004 (R. Mohan).
[70]  A Model for Intra-Tow Flow Behavior and Void Formation during Resin Infusion in Liquid Composite Molding, International Conference, 11th International Conference on Composites/Nano Engineering, Hilton Head, August 2004. (N. Yamaleev, R. Mohan).
[71]  Coupled Scalable Multi-Physics Simulations for Liquid Composite Molding Processes: Recent Developments and Computational Performance, 11th International Conference on Composites/Nano Engineering, Hilton Head, August 2004. (R. Mohan, B. Henz, D. Shires).
[72]  A Parallel Computational Environment for Modeling the Resin Transfer Molding Process, 8th International Conference on Numerical Methods in Industrial Forming Processes, June 2004 (B. Henz, D. Shires, R. Mohan).
[73]  Large Scale Integrated Process Modeling Simulations Enabling Composite Materiel Developments and Applications, National Space and Missile Materials Symposium, Seattle, June 2004. (R. Mohan, B. Henz, D. Shires).
[74]  Development and Integration of Parallel Multidisciplinary Computational Software for Modeling a Modern Manufacturing Process, 6th International Meeting on High Performance Computing for Computational Science, June 2004 (B. Henz, D. Shires, R. Mohan).
[75]  Process Model Optimizations and Simulations for Net-Shape Rotary Composite Structural Components, American Society of Materials Conference, Pittsburgh, 2003, (B. Henz, R. Mohan, D. Shires).
[76]  Characterization and Analysis of Flow Behavior in the FASTRAC Process for the Manufacture of Sandwich and Core Composite Structures, SAMPE 2003, Long Beach, 2003. (M. Allende, R. Mohan, S. Walsh).
[77]  Analysis of the Effect of Induced Distribution Network in New Resin Infusion Process Developments, 10th International Conference on Composites Engineering, 2003. (M. Allende, R. Mohan, S. Walsh).
[78]  Optimization of Resin Transfer Molding Processes with a Hybrid Global-Local Approach, 10th International Conference on Composites Engineering, 2003. (B. Henz, R. Mohan, D. Shires).
[79]  Process Model Optimizations and Simulations for Net-Shape Rotary Composite Structural Components, National Space and Missiles Materials Symposium, San Diego, June 2003. (R. Mohan, B. Henz, D. Shires).
[80]  A Composite Manufacturing Process Simulation Environment (COMPOSE) Utilizing Parallel Processing and Object-Oriented Techniques, International Conference on Parallel Processing, Vancouver, Canada, August 2002. (B. Henz, D. Shires, R. Mohan).
[81]  Operating System Independent Interfaces for Process Simulation Visualization and Remote Interaction, Proceedings of the 2002 International Conference on Parallel and Distributed Processing Techniques and Applications, June 2002. (B. Henz, D. Shires, R. Mohan).
[82]  Architecture Driven Communication Improvements for Domain Decompositions, Proceedings of the 2002 International Conference on Parallel and Distributed Processing Techniques and Applications, June 2002. (D. Shires, B. Henz, R. Mohan).
[83]  Experimental and Numerical Analysis of Flow Behavior in FASTRAC Liquid Composite Manufacturing Process, National Space and Missiles Materials Symposium, Colorado Springs, June 2002. (M. Allende, R. Mohan, S. Walsh).
[84]  Development and Application of a Cross-Platform Analysis and Visualization Interface for Liquid Composite Process Modeling Simulations, National Space and Missiles Materials Symposium, Colorado Springs, June 2002. (B. Henz, D. Shires, R. Mohan).
[85]  The Application of Liquid Molding Simulation Tools to Structural Rotorcraft Components: Challenges and Opportunities, 9th International Conference on Composites Engineering, San Diego, July 2002. (R. Mohan, B. Henz, D. Shires, S. Walsh).
[86]  A Composite Manufacturing Process Simulation Environment Utilizing Parallel Processing and Object Oriented Techniques, International Conference on Parallel Processing, Vancouver, Canada, August 2002. (B. Henz, D. Shires, R. Mohan).
[87]  The Application of Process Simulation Tools to Reduce Risks in Liquid Molding of Composites, Proceedings of the 57th Annual Forum of American Helicopter Society, Washington, D. C., May 2001. (R. Mohan, D. Shires, A. Mark, W. Roy, S. Walsh, J. Sen).
[88]  Scalable Large Scale Process Modeling and Simulations in Liquid Composite Molding, Proceedings of the 2001 International Conference on Computational Science, Springer-Verlag Lecture Notes in Computer Science, San Francisco, May 2001. (R. Mohan, D. Shires, A. Mark).
[89]  An Evaluation of HPF and MPI Approaches and Performance in Unstructured Finite Element Simulations, Proceedings of the 2001 International Conference on Parallel and Distributed Processing Techniques and Applications, June 2001. (D. Shires, R. Mohan, A. Mark).
[90]  Optimization and Performance of an MPI-Based Unstructured Grid Code on Large Scale Parallel Systems, Proceedings of the 2001 International Conference on Parallel and Distributed Processing Techniques and Applications, June 2001. (D. Shires, R. Mohan, A. Mark).
[91]  Improving Data Locality and Expanding the Use of HPF in Parallel FEM Implementations, Proceedings of the 2000 International Conference on Parallel and Distributed Processing Techniques and Applications (PDPTA), June 2000. (D. Shires, R. Mohan, A. Mark).
[92]  Study of Staggered Flow Fronts with Applications to Sensor-Based Control, 57th Annual Technical Meeting of the Society of Plastic Engineers, Vol. 2, pp. 2681--2685, May 1999. (S. Walsh and R. Mohan).
[93]  Development of in-process RTM Sensors for Thick Composite Sections, 1998 American Control Conference, Philadelphia, PA, June 1998. (M. Rooney, P. Biermann, B. Carkhuff, D. Shires, R. Mohan).
[94]  Finite Element Methods and Flow/Thermal Modeling and Analysis: Process Modeling and Porous Media Effects in Composites Manufacturing, Proceedings of the 10th International Conference on Finite Elements in Fluids, Tucson, AZ, January 1998. (K. Tamma, R. Mohan, N. Ngo, P. W. Chung).
[95]  Analysis and Characterization of Flow Channels During Manufacturing of Composites by Resin Transfer Molding, Proceedings of the 55th Annual Technical Meeting of the Society of Plastic Engineers: ANTEC 97, Vol. 2, pp. 2388-2400, Toronto, Canada, April 1997. (R. Mohan, S. Bickerton, D. Shires, S. Advani and K. Tamma).
[96]  Process Modeling and Implicit Tracking of Moving Fronts for Three-Dimensional Thick Composites Manufacturing, AIAA-96-0725, 34th Aerospace Sciences Meeting, Reno, NV, January 1996. (R. Mohan, N. Ngo, K. Tamma, D. Shires, K. Fickie).
[97]  Flow Channels and Fiber Impregnation Studies for the Process Modeling/Analysis of Complex Engineering Structures Manufactured by Resin Transfer Molding, ASME 96-WA/AMD-5, Proceedings of the 1996 ASME International Mechanical Engineering Congress & Exhibition, Atlanta, GA, November 1996. (R. Mohan, D. Shires, K. Tamma, N. Ngo).
[98]  On a Pure Finite Element Methodology for Resin Transfer Mold Filling Simulations, Session on Process Modeling and Manufacturing of Composites, Proc. of Numerical Methods in Thermal Problems, Vol. IX, pp. 1287-1310, Pineridge Press, Swansea, England, July 1995. (R. Mohan, N. Ngo, K. Tamma, K. Fickie).
[99]  Data Parallel Finite Element Computations for Resin Transfer Mold Filling Manufacturing Simulations on the Connection Machine System, Proceedings of the special session on process modeling and manufacturing of composites at the Symposium for Numerical Methods for Thermal Problems, Vol. IX, pp. 1361-1377, Pineridge Press, July 1995. (R. Mohan, N. Ngo, K. Tamma, K. Fickie).
[100]  An Explicit Unconditionally Stable Adaptive Time Stepping Strategy with Applications to Finite Volume Based Thermal Analysis Formulations, Proceedings of the ASME-JSME Thermal Engineering Joint Conference, Vol. 1, pp. 531-540, ASME, New York, 1995. (R. Mohan, Y. Mei, K. Tamma).
[101]  A Data Parallel Explicit Sub-Cycling Time Integration Strategy for Computational Heat Transfer, 93-WA/HT-82, ASME Winter Annual Meeting, New Orleans, November 1993. (R. Mohan, R. Namburu and K. Tamma).
[102]  Flux Based Finite Volume Representations for Thermal Problems, AIAA 93-2770, AIAA 28th Thermophysics Conference, Orlando, FL, July 1993. (R. Mohan, K. Tamma).
[103]  Data Parallel Multi-Time-Step Time Integration for Computational Heat Transfer, AIAA 28th Thermophysics Conference, Orlando, FL, July 1993. (R. Namburu, R. Mohan, F. Rostam-Abadi, K. Tamma).
[104]  Finite Element/Finite Volume Approaches with Adaptive Time Stepping Strategies for Transient Thermal Problems, AIAA 93-0593, AIAA 31st Aerospace Sciences Meeting, Reno, NV, January 1993. (R. Mohan, K. Tamma).
[105]  Instantaneous Response of Elastic Thin-Walled Structures with Arbitrary Open Cross Sections to Rapid Heating, AIAA 92-2544, AIAA 33rd Structures, Structural Dynamics and Materials Conference, Dallas, TX, April 1992. (X. Chen, R. Mohan, K. Tamma).