24,755 research outputs found
Le Roman de Troie en prose (version du cod. Bodmer 147), édité par Françoise Vielliard. Cologny-Genève, Fondation Martin Bodmer, 1979. In-8°, 234 pages (Fondation Martin Bodmer, série Textes, IV.)
Andrieux-Reix Nelly. Le Roman de Troie en prose (version du cod. Bodmer 147), édité par Françoise Vielliard. Cologny-Genève, Fondation Martin Bodmer, 1979. In-8°, 234 pages (Fondation Martin Bodmer, série Textes, IV.). In: Bibliothèque de l'école des chartes. 1981, tome 139, livraison 1. pp. 110-111
Le Roman de Troie en prose (version du cod. Bodmer 147), édité par Françoise Vielliard. Cologny-Genève, Fondation Martin Bodmer, 1979. In-8°, 234 pages (Fondation Martin Bodmer, série Textes, IV.)
Andrieux-Reix Nelly. Le Roman de Troie en prose (version du cod. Bodmer 147), édité par Françoise Vielliard. Cologny-Genève, Fondation Martin Bodmer, 1979. In-8°, 234 pages (Fondation Martin Bodmer, série Textes, IV.). In: Bibliothèque de l'école des chartes. 1981, tome 139, livraison 1. pp. 110-111
Institut national de la langue française. Histoire de la langue française, 1914-1945, sous la direction de Gérald Antoine et de Robert Martin
Andrieux-Reix Nelly. Institut national de la langue française. Histoire de la langue française, 1914-1945, sous la direction de Gérald Antoine et de Robert Martin. In: Bibliothèque de l'école des chartes. 2005, tome 163, livraison 1. pp. 265-267
Supplemental Material - Directing the pore size of rigid polyurethane foam via controlled air entrainment
Supplemental Material for Directing the pore size of rigid polyurethane foam via controlled air entrainment by Martin Hamann, Sébastien Andrieux, Markus Schütte, Daniel Telkemeyer, Meik Ranft and Wiebke Drenckhan in Journal of Cellular Plastics</p
Jack Alive / Martin Dead : The Location of the "Author" in Jack London\u27s Martin Eden
This essay is an attempt to read Martin Eden, Jack Londonʼs autobiographical novel, in terms of the inextricable relationship between the author and the protagonist. Critics have often taken the unbalanced plot and the lack of ironic distance between narrator and character in Martin Eden as the technical weakness of London, but this paper argues that the achievement of this novel owes a great deal to the attachment of London to Martin. The unbalanced structure is a necessary product of the severe struggle of the author to kill his romantic alter ego. // Martin, who aspires to win Ruth Morse, tries to cross class boundaries by making a career of a writer. Even after realizing the emptiness of Ruth, who turns out to be nothing but a typical figure of the bourgeoisie, he somehow persists in loving her. The notion underlying here is that, for Martin, love, career and art are fundamentally inseparable. He objects to the aestheteʼs view of Brissenden on account of his separation of art from career. Martinʼs identity and life consist only in the triunity of love/career/art; the alternative is the repudiation of life. Thus, the unnatural delay of his disappointment in love can be regarded as Londonʼs strategy to set the suicide of Martin as the necessary consequence of the story. // By finishing the story and killing Martin, London finally detaches himself from Martin, reconstructs his self, and, unlike Martin, survives as a professional writer. In this sense, Martin Eden is a story about “writerʼs self-reconstruction.
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Letter from Martin Chizzick
Congratulations to Duane Pearsall for receiving the Enterpreneur of the Year award; note on the letter was written by Pearsall and it mentions that Martin, the author of the letter, died in a airplane accident
Robert Martin Tiffin's Mystery Man Newspaper Articles
Advertiser-Tribune newspaper clippings featuring a story about Robert Martin (written by Nancy Kleinhenz), a local author from Tiffin (Ohio) who wrote under the pseudonym of Lee Roberts, and two of his short stories. Martin wrote mystery novels in his spare time, creating more than 22 mystery novels. For more information about Robert Martin and a list of books go to http://www.mysteryfile.com/RMartin/JBennett.html
Materials and chemical reactivity: the driving force relies on Thermodynamics
International audienceIn the field of materials science, chemical reactivity poses a significant challenge. It becomes a critical issue when synthesizing materials with homogeneous compositions (such as alloys, ceramics, etc.). This challenge is also encountered in materials assembly processes (e.g., brazing, welding) and during the use of materials under conditions involving temperature, pressure, and specific environmental factors.The first objective of this presentation is to remember that chemical reactivity is governed by thermodynamics. Two examples will be used to illustrate the impact of chemical reactivity on materials and the tools available to understand it: phase equilibria and the concept of diffusion path. To this end, I will present the results of our research on the brazing assembly of titanium alloy components [1] as well as the evolution of a Ti/TiC Metal Matrix Composite (MMC) materials during the densification process [2].The second objective of this presentation is to highlight how understanding phase equilibria enables to control chemical reactivity. This knowledge allows either to modify the chemical pathway to avoid the formation of detrimental phases [1] or to inhibit reactivity altogether.Finally, the third objective is to show how chemical reactivity can be harnessed as an advantage in material synthesis, particularly in the development of MMC materials. By understanding phase equilibria and non-equilibrium states, chemical reactivity can be transformed into a powerful tool for synthesizing in-situ both the matrix and the reinforcements of MMC. This offers a way to overcome traditional challenges in MMC synthesis such as interphase formation or interface contamination. The proof of concept, focused on Al-based MMC materials reinforced by ceramic particles (TiC, TiB2, etc..) will be detailed from a thermodynamics point of view [3,4]. The talk will be concluded with ongoing studies on new Al-based composites reinforced with alumino-boron carbide phases [5,6], showcasing the range of possibilities and novel materials that can be achieved.[1] J. Andrieux, O. Dezellus, F. Bosselet and J.C. Viala (2009): Low-temperature interface reaction between titanium and the eutectic silver-copper brazing alloy, J Phase Equilibria Diffus 30(1), 40-45.[2] J. Roger, B. Gardiola, J. Andrieux, J.C. Viala and O. Dezellus (2017): Synthesis of Ti matrix composites reinforced with TiC particles: thermodynamic equilibrium and change in microstructure, J Mater Sci 52(7), 4129-4141.[3] Samer, Nassim (2016). Synthèse réactive de Composites à Matrice Métallique. PhD, Materials. Lyon : UCBL Lyon1, 236 p. http://www.theses.fr/2016LYSE1057[4] N. Samer, J. Andrieux, B. Gardiola, N. Karnatak, O. Martin, H. Kurita, L. Chaffron, S. Gourdet, S. Lay and O. Dezellus (2015): Microstructure and mechanical properties of an Al-TiC metal matrix composite obtained by reactive synthesis, Compos Part A Appl Sci Manuf 72, 50-57.[5] O. Dezellus, L. Chaffron, J. Andrieux, N. Samer and B. Gardiola (2017) : Process for manufacturing a part made of an Al/Al3B48C2 composite material, Patent n°WO2017013087A1.[6] Forget, Baptiste (2024). Développement de nanocomposites base aluminium à renforts borés: de la poudre au matériau préparé par fabrication additive. PhD, Materials. Grenoble : UCBL Lyon1, 278 p. https://theses.fr/s30844
Materials and chemical reactivity: the driving force relies on Thermodynamics
International audienceIn the field of materials science, chemical reactivity poses a significant challenge. It becomes a critical issue when synthesizing materials with homogeneous compositions (such as alloys, ceramics, etc.). This challenge is also encountered in materials assembly processes (e.g., brazing, welding) and during the use of materials under conditions involving temperature, pressure, and specific environmental factors.The first objective of this presentation is to remember that chemical reactivity is governed by thermodynamics. Two examples will be used to illustrate the impact of chemical reactivity on materials and the tools available to understand it: phase equilibria and the concept of diffusion path. To this end, I will present the results of our research on the brazing assembly of titanium alloy components [1] as well as the evolution of a Ti/TiC Metal Matrix Composite (MMC) materials during the densification process [2].The second objective of this presentation is to highlight how understanding phase equilibria enables to control chemical reactivity. This knowledge allows either to modify the chemical pathway to avoid the formation of detrimental phases [1] or to inhibit reactivity altogether.Finally, the third objective is to show how chemical reactivity can be harnessed as an advantage in material synthesis, particularly in the development of MMC materials. By understanding phase equilibria and non-equilibrium states, chemical reactivity can be transformed into a powerful tool for synthesizing in-situ both the matrix and the reinforcements of MMC. This offers a way to overcome traditional challenges in MMC synthesis such as interphase formation or interface contamination. The proof of concept, focused on Al-based MMC materials reinforced by ceramic particles (TiC, TiB2, etc..) will be detailed from a thermodynamics point of view [3,4]. The talk will be concluded with ongoing studies on new Al-based composites reinforced with alumino-boron carbide phases [5,6], showcasing the range of possibilities and novel materials that can be achieved.[1] J. Andrieux, O. Dezellus, F. Bosselet and J.C. Viala (2009): Low-temperature interface reaction between titanium and the eutectic silver-copper brazing alloy, J Phase Equilibria Diffus 30(1), 40-45.[2] J. Roger, B. Gardiola, J. Andrieux, J.C. Viala and O. Dezellus (2017): Synthesis of Ti matrix composites reinforced with TiC particles: thermodynamic equilibrium and change in microstructure, J Mater Sci 52(7), 4129-4141.[3] Samer, Nassim (2016). Synthèse réactive de Composites à Matrice Métallique. PhD, Materials. Lyon : UCBL Lyon1, 236 p. http://www.theses.fr/2016LYSE1057[4] N. Samer, J. Andrieux, B. Gardiola, N. Karnatak, O. Martin, H. Kurita, L. Chaffron, S. Gourdet, S. Lay and O. Dezellus (2015): Microstructure and mechanical properties of an Al-TiC metal matrix composite obtained by reactive synthesis, Compos Part A Appl Sci Manuf 72, 50-57.[5] O. Dezellus, L. Chaffron, J. Andrieux, N. Samer and B. Gardiola (2017) : Process for manufacturing a part made of an Al/Al3B48C2 composite material, Patent n°WO2017013087A1.[6] Forget, Baptiste (2024). Développement de nanocomposites base aluminium à renforts borés: de la poudre au matériau préparé par fabrication additive. PhD, Materials. Grenoble : UCBL Lyon1, 278 p. https://theses.fr/s30844
Le racisme / Colette Thiriet, réal. ; Jeanne Haslé, Roger Fels, Robert Andrieux, aut.
Collection : Le monde où vous vivezRésumé : Sur un commentaire anti-raciste de Jeanne Haslé, photographies des 4 'types' d'humains, images d'archive et d'actualité de départs de trains de la mort sous le nazisme et d'Israël dans les années 60, images des Actualités françaises sur la marche organisée par Martin Luther King sur Washington en 1964, et dénonciation du sort des noirs en Afrique du Sud (source : Média-Scérén)Durée : 00:21:30Thème : Sociét
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