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Recent Progress in Mesostructured Materials is a selection of oral and poster communications presented during the 5th International Mesostructured Materials Symposium (5th IMMS2006). Authorized by International Mesostructured Material Association (IMMA) and hosted by the Fudan University, China. The scope of this involved field covers both traditional inorganic mesostructured molecular sieves and mesostructured materials like organic polymers, metals, organic-inorganic nanocomposites, and ordered mesoporous carbons, the hot topics in chemistry, crystallization, structure, liquid crystalline, catalysis and materials science. This symposium provided a forum for the presentation of the most novel development and knowledge in the science and technology of mesostructured materials. Papers presented cover a wide range of topics that include synthesis, structure determination, characterisation, modelling, and application in catalysis, adsorption, biochemistry and advanced material sciences. * This highly visual book is a must for readers looking to stay up-to-date on mesostructure science * A selection of more than 200 oral and poster papers, covering research aspects/developing trends of mesostructured materials * An important reference for those working in the material science, catalysis and biotechnology fields.

Mechanical properties of solids --- Materials sciences

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Stringent industrial requirements of sophisticated performances and of circumstantial control for micro-devices or nanotechnology manufactures, and other types of machinery at multiple scales, can be satisfied often only by resort to or allowance for complex materials. The adjective complex beckons to the fact that the substructure influences gross mechanical behaviour in a prominent way and interactions due to substructural changes are represented directly. The description of the mechanical behaviour of complex bodies proposes a wide class of challenging problems from macroscopic-to-nano-world. The collection of chapters composing this book aims to explore some aspects of these problems, proposing also new matter of discussion together with specific solutions. Contributors are Carlo Cercignani, Gianfranco Capriz, Pierre Degond, Antonio Fasano, Harley T. Johnson, Sukky Jun, Krishna Kannan, Wing Kam Liu, Alberto Mancini, Paolo Maria Mariano, Ingo Müller, Kumbakonan R. Rajagopal, Jan Jerzy Slawianowski. The book can be a useful tool for Scholars and PhD students addressing their research activity toward basic mathematical and physical problems accruing from the mechanics of materials. * Leading scientific competence of contributors. * Clear writing style linking solutions and open problems. * Suggestions for direct technological applications and new research work. * Mathematical models for nanotechnology devices.

Mechanical properties of solids --- Chemical structure --- Materials sciences

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This book discusses the recent advances in the area of near-field Raman scattering, mainly focusing on tip-enhanced and surface-enhanced Raman scattering. Some of the key features covered here are the optical structuring and manipulations, single molecule sensitivity, analysis of single-walled carbon nanotubes, and analytic applications in chemistry, biology and material sciences. This book also discusses the plasmonic materials for better enhancement, and optical antennas. Further, near-field microscopy based on second harmonic generation is also discussed. Chapters have been written by some of the leading scientists in this field, who present some of their recent work in this field. Near-field Raman scattering Tip-enhanced Raman spectroscopy Surface-enhanced Raman spectroscopy Nano-photonics Nanoanalysis of Physical, chemical and biological materials beyond the diffraction limits Single molecule detection.

Mechanical properties of solids --- Theoretical spectroscopy. Spectroscopic techniques --- Spectrometric and optical chemical analysis --- Materials sciences

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Fluid mechanics --- Thermodynamics --- Mechanical properties of solids --- Applied physical engineering --- Mining industry --- Computer. Automation --- Civil engineering. Building industry --- thermodynamica --- plasticiteit --- mijnbouw --- algoritmen --- ingenieurswetenschappen --- mechanica --- numerieke analyse

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Dit standaardwerk geeft een duidelijke en grondige introductie van de theorie en toepassingen van de sterkteleer. De student krijgt inzicht in de materie doordat het fysieke gedrag van materialen onder belasting wordt verklaard. Vervolgens wordt dit gedrag gemodelleerd en kan de theorie worden afgeleid. De nadruk ligt hierbij op evenwicht, compatibiliteit van de vervormingen en de eisen die aan het materiaal moeten worden gesteld. Het boek is erop gericht de probleemoplossende vaardigheden van studenten te vergroten en heeft didactische kwaliteiten die Hibbeler vermaard hebben gemaakt op het vakgebied.

  De veertien hoofdstukken geven een goede en brede introductie: spanning, mechanische eigenschappen van materialen, vervorming, axiale belasting, torsie, buiging, afschuiving in langs- en dwarsrichting, samengestelde belastingen, spanningstransformatie, vervormingstransformatie, het dimensioneren van balken en assen, doorbuiging van balken en assen, knik van kolommen en energiemethoden.


62 --- 624.04 --- assen --- axiale belasting --- balken --- buiging --- liggers --- materialen --- mechanische eigenschappen --- ontwerpen --- schuiven --- spanning --- sterkteleer --- torsie --- transformaties --- vormveranderingen --- Engineering. Technology in general --- Doorbuiging --- 624 ) Sterkteleer in bouw --- krachtenleer --- mechanica --- 539.4 --- Sterkteleer --- Courses - Syllabuses --- Spanning --- Vervorming --- Torsie --- Buiging --- Afschuiving --- Knik --- buigweerstand --- strength of materials --- Building design --- Materials sciences --- statica (fysica) --- spanning (fysica) --- vervormingen --- Classical mechanics. Field theory --- belastingen (technologie) --- Applied physical engineering --- Monograph --- Mechanical properties of solids