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Bibliographia Humboldtiana Index

Bibliographia Humboldtiana

IV. Translations

Mechanics, thermodynamics, optics

Duan, Prof. Dr. Huiling

Peking University, People's Republic of China
Field of research: Mechanics
Host: Prof. Dr. Jörg Weißmüller Forschungszentrum Karlsruhe (FZK)
  • Xin Yi, Huiling Duan, etc: Prediction of the complex dielectric constant of polymer-clay nanocomposites. In: Physics Letters A . 372, 2007, p. 68 - 71 [Polymer-clay nanocomposites; Dielectric properties; Interphase; Morphology].

  • Huiling Duan, Joerg, Weissmuller, and Yan, Wang: Instabilities of core-shell heterostructured cylinders due to diffusions and epitaxy: spheroidization and blossom of nanowires. In: Journal of Mechanics and Physics of Solids . 56, 2008, p. 1831 - 1851 [Linear instability, surface/interface diffusion, volume diffusion, core-shell heterostructured cylinder, nanowire].

Geradin, Prof. Dr.-Ing. Michel

Universite de Liege, Belgium
Field of research: Engineering mechanics
Host: Prof. Dr. Daniel Rixen Technische Universität München
  • Michel Géradin Daniel J. Rixen: Mechanical Vibrations - Theory and Application to Structural Dynamics. Chichester, UK: John Wiley & Sons, 2015, 616 pp. [Dynamics, vibration, discrete systems, continuous systems, modal analysis, damping, numerical methods, linear systems, eigenvalue solution, finite element method, time integration, dynamic substructuring, wave propagation.].

  • Prof. Dr.-Ing. Michel Geradin, Prof. Dr.-Ing. Daniel J. Rixen: A ‘nodeless’ dual superelement formulation for structural and multibody dynamics application to reduction of contact problems. In: International Journal for Numerical Methods in Engineering. 106-10, 2016, p. 773 - 798 [Structural dynamics, multibody dynamics].

  • Dr. -Ing. Geoffrey Virlez Prof. Dr.-Ing. Olivier Brüls Prof. Dr.-Ing. Pierre Duysinx Prof. Dr.-Ing. Michel Geradin Prof. Dr.-Ing. Alberto Cardona: Unilateral contact condition enhanced with squeeze film modelling in automotive differentials. In: Proc IMechE Part C: J Mechanical Engineering Science. 0(0), 2016, p. 1 - 15 [Squeeze film, rigid contact model, automotive differential, dynamic multibody system].

  • Michel Géradin, Daniel J. Rixen: Impulse-based substructuring in a floating frame to simulate high frequency dynamics in flexible multibody dynamics (DOI 10.1007/s11044-017-9597-0). In: Multibody System Dynamics. 2017, p. 1 - 31 [flexible multibody dynamics, substructuring, impulse-based, floating frame, free–free formulation].

Matvienko, Prof. Dr. Oleg V.

Tomsk State University of Architecture and Building, Russian Federation
Field of research: Fluid dynamics, aeroelasticity
Host: Dr. J. Dück Friedrich-Alexander-Universität Erlangen-Nürnberg
  • Matvienko, O.V., Fil’kov, A.I., Grishin, A.M.: Computational Investigation of the Transport of Burning Particles. In: Journal of Engineering Physics and Thermophysics. 89, 2016, [Combustion, turbulence, burning particles, fire].

  • Oleg Matvienko,: Mathematical Modeling of the Heat Transfer and Conditions of Ignition of a Turbulent Flow of a Reactive Gas. In: Journal of Engineering Physics and Thermophysics. 89, 2016, p. 212 - 220 [Ignition, heat transfer, turbulence,].

  • Matvienko, O.V., Bubenchikov, A.M.: Mathematical Modeling of the Heat Transfer and Chemical Reaction of a Swirling Flow of a Dissociative Gas. In: Journal of Engineering Physics and Thermophysics. 89, 2016, p. 127 - 134 [chemical reaction, dissociative gas, hest transfer, turbulence].

  • Filkov, A., Kasymov, D., Zima, V., Matvienko, O.: Experimental investigation of surface litter ignition by bark firebrands. In: AIP Conference Proceedings. 1698, 2016, [Combustion, fire, flame, ignition].

  • Bubenchikov, A., Bubenchikov, M., Matvienko, O., Shcherbakov, N.: The mathematical model of the chevron-arch gearing transmitter. In: AIP Conference Proceedings. 1698, 2016, [chevron-arch, transmitter, mechanics].

  • Bubenchikov, A., Bubenchikov, M., Matvienko, O., Tarasov, E., Usenko, O.: Simple energy barrier for component mixture of natural gases. In: AIP Conference Proceedings. 1698, 2016, [separation, molecular dynamics, nanoparticles].

  • Khudobina, Y., Bubenchikov, A., Bubenchikov, M., Matvienko, O., Libin, E.: Numerical simulation of oil pool boundary evolution. In: AIP Conference Proceedings. 1698, 2016, [hydrodynamics, CFD, oil].

  • Loboda, E.L., Matvienko, O.V., Vavilov, V.P., Reyno, V.V.: Infrared thermographic evaluation of flame turbulence scale. In: Infrared Physics and Technology. 72, 2015, p. 1 - 7 [Turbulence, combustion, Infrared thermographic, flame ].

  • Matvienko, O.V., Baigulova, A.I.: Numerical study of the influence of a porous ring insert on the structure of a swirling flow. In: Russian Physics Journal. 58, 2015, p. 297 - 303 [swirling flow, hydrodynamics, porous media].

  • Matvienko, O.V., Baigulova, A.I.: Study of the Influence of a Paraxial Porous Insert on Combustion of a Swirling Flow of a Mixture of Methane and Air. In: Russian Physics Journal. 58, 2015, p. 304 - 310 [Combustion, swirl flow, turbulence, porous media].

  • Matvienko, O.V., Filkov, A.I.: Simulation of firebrands transport generated by the seat of fire. In: Proceedings of SPIE - The International Society for Optical Engineering. 9680, 2015, [fire, combustion, firebrand].

  • Matvienko, O.V.: Mathematical investigation of ellipsoidal particles separation in the hydrocyclones. In: IOP Conference Series: Materials Science and Engineering. 71, 2015, [Hydrocyclone, separation, particles, fluid dynamics].

  • Matvienko, O.V., Evtyushkin, E.V.: Applicability of the model of particles drift for the study of the disperse phase transfer in a gas flow. In: IOP Conference Series: Materials Science and Engineering. 71, 2015, [mathematical modelling, particles motionin the flow, mechanics].

  • Matvienko, O.V., Bazuev, V.P., Venik, V.N., Smirnova, N.G.: Numerical investigation of Herschel Bulkley fluids mixing. In: IOP Conference Series: Materials Science and Engineering. 71, 2015, [rheology, fluid mixing, CFD].

  • Oleg Matvienko: Heat transfer and formation of turbulence in an internal swirling fluid flow at low Reynolds numbers. In: Journal of Engineering Physics and Thermophysics. 87, 2014, p. 940 - 950 [Heat transfer, turbulence swirling flows].

  • Oleg Matvienko, Alexey Bubenchikov: Numerical investigation of combustible channel walls ignited by gas flow. In: Advanced Materials Research. 1013, 2014, p. 295 - 299 [Ignition, heat transfer, gas flow].

  • Anatoliy Grishin, Oleg Matvienko: Numerical Investigation of the Formation of a Convective Column and a Fire Tornado by Forest Fires. In: Journal of Engineering Physics and Thermophysics. 87, 2014, p. 1080 - 1093 [Heat transfer, Convective, Column, Fire Tornado, Forest Fires].

  • Oleg Matvienko, Antonina Andropova, Margarita Agafontseva: Influence of the regime of flow of particles from a hydrocyclone on its separation characteristics. In: Journal of Engineering Physics and Thermophysics. 87, 2014, p. 24 - 37 [Hydrocyclone, separation, particles motion, air core].

  • Oleg Matvienko, Victor Bazuev, Natalia Dul′zon.: Mathematical Simulation of a Swirling Viscoplastic Fluid Flow in a Cylindrical Channel. In: Journal of Engineering Physics and Thermophysics. 87, 2014, p. 1177 - 1185 [Swirling flow, viscoplastic fluid, rheology].

  • Oleg Matvienko, O.V., Anastasiya Baigulova, Alexey Bubenchikov: Mathematical Modeling of Catalytic Oxidation of Methane in a Channel with a Porous Insert. In: Journal of Engineering Physics and Thermophysics. 87, 2014, p. 1298 - 1312 [Catalytic Oxidation, methane, swirling flow, porous insert].

  • Oleg Matvienko, Victor, Bazuev, Nataliya Dul'Zon: Mathematical simulation of the swirling flow of a dilatant liquid in a cylindrical channel. In: Journal of Engineering Physics and Thermophysics. 87, 2014, p. 200 - 207 [Swirling flow, dilatant liquid, rheology].

Shukla, Prof. Dr. Kedar Nath

Gurgaon College of Engineering, India
Field of research: Engineering mechanics
Host: Prof. Dr. Andras Paul Fröba Friedrich-Alexander-Universität Erlangen-Nürnberg
  • Varadarajan, A S,; Shukla, K N & Ganesan, G.(Editors): Proceedings of the International Conference on Frontiers in Design and Manufacturing Engineering. New Delhi: MACMILLAN India Ltd., 2008, 374 pp. [Modeling and Simulation; Manufacturing Engineering CAD/ CAM, Vibration and Noise Control, Mechatronics].

  • Shukla, K N: Thermofluid dynamics of loop heat pipe operation,. In: International Communications in Heat and Mass Transfer. 35, 2008, p. 916 - 920 [Loop Heat Pipe, Thermal Perormance].

  • Shukla, K N: Heat Transfer Limitation of a Micro Heat Pipe. In: Journal of Electronic Packaging. 131, 2009, p. 024502 - 024504 [Heat Transfer limitation, micro heat pipe, mathematical modeling].

  • Shukla, K N; Brusly Solomon, A, and Pillai, B C : Experimental studies of rotating heat pipes. In: Heat Transfer-Asian Research. 38(8), 2009, p. 476 - 484 [rotating heat pipe • thermal performance • experimental result • heat transfer correlation].

  • Shukla, K N, Brusly Solomon, A, Pillai, B C and Mohammed Ibrahim: Thermal Performance of cylindrical Heat Pipe using Nano fluid. In: Journal of Thermophysics and Heat Pipe. 24, 2010, p. 796 - 803 [Thermal performance, heat pipe, nanofluids].

  • Shukla, K N., Koller, T. M., Rausch, M. H., Froeba, A. P.: Effective thermal conductivity of nanofluids-A new model taking into consideration Brownian motion. In: International Journal of Heat and Mass Transfer. 99, 2016, p. 532 - 540 [Effective thermal conductivity; modeling; nanofluids; nanoparticles].

  • Shukla, KN; Solomon, A Brusly; Pillai, BC; Ruba Singh, B Jacob; Saravana Kumar, S: Thermal performance of heat pipe with suspended nano particles. In: Heat and Mass Transfer. 48, 2012, p. 1913 - 1920 [Heat Transfer; nano particles; thermal performance].