Relevant bibliographies by topics / Industrie lithique

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Industrie lithique'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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Journal articles on the topic "Industrie lithique"

1

Fouéré, Pierrick. "Industrie lithique en silex." Gallia préhistoire 41, no. 1 (1999): 193–209. http://dx.doi.org/10.3406/galip.1999.2353.

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Oliva, Martin. "Le Szélétien de Tchécoslovaquie : industrie lithique et répartition géographique." Paléo. Supplément 1, no. 1 (1995): 83–90. http://dx.doi.org/10.3406/pal.1995.1383.

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Atherton, John. ": Tichitt-Walata (R.I. Mauritanie): Civilisation et Industrie Lithique . Sylvie Amblard." American Anthropologist 88, no. 2 (1986): 498–99. http://dx.doi.org/10.1525/aa.1986.88.2.02a00620.

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Bailly, Maxence. "Une industrie lithique campaniforme ? Apports de la technologie lithique à l'étude du Campaniforme domestique (résumé de communication)." Bulletin de la Société préhistorique française 95, no. 3 (1998): 302. http://dx.doi.org/10.3406/bspf.1998.10803.

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Mester, Zsolt. "Le matériel lithique de la grotte Büdöspest. Faciès d'atelier ou industrie intermédiaire ?" Paléo. Supplément 1, no. 1 (1995): 31–35. http://dx.doi.org/10.3406/pal.1995.1377.

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Lhomme, Vincent, Nelly Connet, and Christine Chaussé. "Le gisement de Soucy 6 (Yonne) et son industrie lithique dans le contexte des industries à éclats du Paléolithique inférieur en Europe du Nord-Ouest." Bulletin de la Société préhistorique française 100, no. 2 (2003): 241–51. http://dx.doi.org/10.3406/bspf.2003.12835.

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Olivier, TOUZÉ. "La séquence gravettienne de Belgique : mise à jour et mises au point." Comptes Rendus Palevol 22, no. 25 (2023): 511–40. https://doi.org/10.5852/cr-palevol2023v22a25.

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Le Gravettien en Belgique est document&eacute; dans un nombre limit&eacute; de gisements. Il s&rsquo;agit en g&eacute;n&eacute;ral de gisements de grottes ou d&rsquo;abris sous roche situ&eacute;s dans le bassin mosan, qui ont souvent fait l&rsquo;objet de fouilles d&egrave;s le XIX<sup>e</sup> si&egrave;cle, notamment les plus importants d&rsquo;entre eux. La connaissance que nous avons du Gravettien belge doit &eacute;norm&eacute;ment aux recherches de M. Otte. Dans les ann&eacute;es 1970, cet auteur a compil&eacute;, synth&eacute;tis&eacute; et structur&eacute; une documentation &eacute;par
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8

Chabot, Jacques. "Industrie néolithique de longues lames en obsidienne, l’exemple d’Aknashen-Khatunarkh (Arménie, début du VIe millénaire) : sur la piste des premiers débitages par pression." Journal of Lithic Studies 4, no. 2 (2017): 163–79. http://dx.doi.org/10.2218/jls.v4i2.2542.

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Aknashen (autrefois appelé Khatunakh) est un petit village néolithique de la vallée de l’Ararat localisé à 25 km de Erevan (capitale de l’Arménie) et à 5 km au sud-ouest d’Echmiadzin (Vagharshapat). Aknashen est également situé à seulement six kilomètres d’un autre village néolithique qui lui est contemporain : Aratashen, site pour lequel nous avons récemment publié une étude tehnologique du matériel lithique en obsidienne.&#x0D; Des fouilles ont eu lieu chaque année à Aknashen depuis 2004. En ce qui concerne le matériel lithique, ces travaux ont permis de mettre au jour deux chaînes opératoir
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Ameloot-Van der Heijden, Nathalie. "L'ensemble lithique du gisement de Longavesnes (Somme) : illustration d'un problème de reconnaissance du débitage levallois dans une industrie à bifaces de la phase ancienne du Paléolithique moyen." Bulletin de la Société préhistorique française 90, no. 4 (1993): 257–64. http://dx.doi.org/10.3406/bspf.1993.9591.

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BOURGUIGNON, Laurence, Iluminada ORTEGA, and Felipe CUARTERO. "L'outillage en quartz spécialisé utilisé en percussion lancée en contexte discoïde à Pointe pseudo-Levallois : l'exemple de Champs de Bossuet." Comptes Rendus Palevol 21, no. 24 (2022): 489–509. https://doi.org/10.5281/zenodo.6826380.

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La composante en quartz de l&rsquo;industrie de Champs de Bossuet (CdB) a fait l&rsquo;objet d&rsquo;analyses technologique et techno-fonctionnelle ax&eacute;es sur la caract&eacute;risation ergonomique des outils percutants en lien avec leurs morphologies, leurs dimensions et leurs masses, mais surtout sur celle de leur Zone Active de Percussion (ZAP) lors des activit&eacute;s de percussion (morphologie, &eacute;tendue, localisation). Apr&egrave;s avoir &eacute;valu&eacute; la place tenue par les outils percutants au sein de la composante en quartz, ils seront d&eacute;crits sur la base d&rsq
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Dissertations / Theses on the topic "Industrie lithique"

1

Mallet, Nicole. "Le Grand-Pressigny : ses relations avec la civilisation Saône-Rhône /." Le Grand-Pressigny : les Amis du Musée de préhistoire du Grand-Pressigny, 1992. http://catalogue.bnf.fr/ark:/12148/cb36676034f.

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Levi, Sala Irene. "A study of microscopic polish on flint implements /." [Oxford] : Tempus reparatum, 1996. http://catalogue.bnf.fr/ark:/12148/cb358401027.

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De, Grooth Marjorie Emmy Thérèse. "Studies on Neolithic flint exploitation : socio-economic interpretations of the flint assemblages of Langweiler 8, Beek, Elsloo, Rijckholt, Heinheim and Meindling /." [Maastricht] : [Scorpio], 1994. http://catalogue.bnf.fr/ark:/12148/cb36684961j.

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Khedhaier, Rym. "Contribution à l'étude fonctionnelle des industries lithiques sauveterriennes : comparaison de deux sites du Sud-Est de la France (Le Sansonnet et le Pey de Durance) et de la Suisse occidentale (La Baume d'Ogens et Le Château-d'Oex." Aix-Marseille 1, 2003. http://www.theses.fr/2003AIX10024.

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Le mésolithique est habituellement synonyme d'outillages lithiques composés de pièces de très petites dimensions. Différents facteurs culturels et environnementaux ont été évoqués, pour expliquer ce phénomène de microlithisation, mais sans que les nouveaux équilibres dont il procède n'aient été éclairés, comme s'il ne s'agissait que d'une variation essentiellement stylistique dans la conception et le rôle de l'outillage taillé. Le recours aux analyses tracéologiques, mises en oeuvre par différents chercheurs, a fait ressortir l'usage bref des pièces de silex, et leur emploi principalement pour
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Li, Yinghua. "Etude technologique de l'industrie lithique du site de Guanyindong dans la province du Guizhou, sud-ouest de la Chine." Thesis, Paris 10, 2009. http://www.theses.fr/2009PA100059.

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La méthode technologique n'ayant jamais été appliquée aux industries lithiques chinoises, ce travail représente un essai de recherche en appliquant cette méthode sur l'industrie lithique du site de Guanyindong dans la province du Guizhou, sud-ouest de la Chine.L'approche analytique repose sur la notion de « chaîne opératoire », de« schème opératoire » et sur les deux aspects différents et interdépendants : techno-psychologie et techno-économie. L'analyse techno-psychologique, basée sur les schémas diacritiques, a permis de mettre en évidence les connaissances techniques mises en œuvre au cours
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Tostevin, Gilbert Brendan. "Behavioral change and regional variation across the Middle to Upper Paleolithic transition in Central Europe, Eastern Europe, and the Levant /." Ann Arbor (Mich.) : UMI dissertation services, 2001. http://catalogue.bnf.fr/ark:/12148/cb40020123t.

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Ludwig, Brian Vincent. "A technological reassesment of East African Plio-Pe=leistocene lithic artifact assemblages : early neolithic societies in the Aisne valley, France /." Ann Arbor (Mich.) : UMI dissertation services, 2000. http://catalogue.bnf.fr/ark:/12148/cb40020065g.

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McCutcheon, Patrick T. "Archaeological investigations of stone tool heat treatment technology in Southeastern Missouri : an experimental approach /." Ann Arbor (Mich.) : UMI dissertation services, 1998. http://catalogue.bnf.fr/ark:/12148/cb400205217.

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Patole-Edoumba, Elise. "L' industrie lithique préhistorique de débitage des Philippines de la fin du pléistocène à l'holocène moyen." Aix-Marseille 1, 2002. http://www.theses.fr/2002AIX10029.

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La préhistoire des Philippines reste encore méconnue en raison de la constitution récente de l'archéologie dans ce pays. Elle repose sur une nombre relativement restreint de sites datés qui ont par ailleurs été découverts au cours des années 1960 et 1970. La priorité des archéologues philippins a donc consisté jusqu'à établir une chronologie basée sur des fossiles directeurs, aux dépens d'une étude systématique du matériel lithique. Ce travail sur la pierre taillée du Pleistocène à l'Holocène moyen propose donc une relecture typologique et technologique de quelques collections lithiques ancien
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Augereau, Anne. "Évolution de l'industrie du silex du cinquième au quatrième millénaires avant Jésus-Christ dans le Sud-Est du bassin parisien." Paris 1, 1993. http://www.theses.fr/1993PA010732.

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Cette thèse a pour but de caractériser l'évolution de la production des outillages de silex au néolithique dans le sud-est du bassin parisien, domaine de l'interpénétration culturelle et du silex de la craie, surabondant mais de qualité moyenne. Une dizaine de séries lithiques, représentant environ 100000 artefacts dont 6000 pièces retouchées, ont été observées, provenant de sites d'habitat et d'extraction minière, dans les vallées de la petite-Seine, de l'Yonne et de la Vanne. Il s'agissait de tester l'apport de la technologie à la connaissance des premières sociétés agricoles de la région en
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Books on the topic "Industrie lithique"

1

Lechevallier, Monique. L' industrie lithique de Mehrgarh: Fouilles, 1974-1985. Editions recherche sur les civilisations, 2003.

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Préface, Audouze Françoise, ed. Techno-logique & Technologie: Une paléo-histoire des objets lithiques tranchants. @rchéo-éditions, 2013.

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Pierre, Allard. L' industrie lithique des populations rubanées du Nord-Est de la France et de la Belgique. Verlag Marie Leidorf, 2005.

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Slimak, Ludovic. Artisanats et territoires des chasseurs moustériens de Champ Grand. Maison méditerranéenne des sciences de l'homme, 2008.

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Cyprus) International Conference on PPN Chipped and Ground Stone Industries of the Near East (8th 2016 Nicosia. Near Eastern Lithic Technologies on the Move: Interactions and Contexts in Neolithic traditions : 8th International Conference on PPN Chipped and Ground Stone Industries of the Near East, Nicosia, November 23rd-27th 2016. Astrom Editions, 2019.

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Honegger, Mathieu. L' industrie lithique taillée du Néolithique moyen et final en Suisse: [approche de l'étude technologique et typologique des industrustries en silex et quartz taillés]. CNRS Editions, 2001.

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Hélène, Roche, Tixier Jacques, and Centre national de la recherche scientifique (France), eds. Technology of knapped stone: Followed by a multilingual vocabulary arabic, english, french, german, greek, italian, russian, spanish. CREP, 1992.

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Auteur, Rachad Madiha, and Robin, Christian (1943-....). Préface, eds. Art rupestre et peuplements préhistoriques au Yémen. CEFAS, 2007.

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Jean-Paul, Caspar, and Otte Marcel, eds. Industries lithiques danubiennes de Belgique. [s.n.], 1986.

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Cahen, Daniel. Industries lithiques danubiennes de Belgique. [Universite de Liege], 1986.

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Book chapters on the topic "Industrie lithique"

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Briois, François. "Les industries de pierre taillée." In Klimonas. CNRS Éditions, 2024. http://dx.doi.org/10.4000/129iz.

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Les séries lithiques qui font l’objet de cette étude apportent un éclairage sur les composantes industrielles du début du 9e millénaire BC à Chypre. Les assemblages présentés proviennent des comblements stratifiés trouvés en relation directe avec les restes de constructions en terre crue dégagés sur les trois secteurs du site. Les matières premières utilisées correspondent à un silex provenant des formations de craie locales et à de très petites quantités d’obsidienne importées d’Anatolie. Le faciès industriel est laminaire et repose sur l’exploitation de nucléus coniques ou pyramidaux taillés
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Astruc, Laurence, Bernard Gassin, and Niccolò Mazzucco. "Étude fonctionnelle de l’industrie lithique taillée." In Klimonas. CNRS Éditions, 2024. http://dx.doi.org/10.4000/129jz.

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Ayios Tychonas-Klimonas participe, avec Ayios Tychonas-Throumbovounos et Ayia Varvara-Asprokremnos, à la définition du Cypro-PPNA entre la fin du 10e et le début du 9e millénaire avant notre ère. Nous présentons ici la première étude fonctionnelle d’une industrie lithique pour cet horizon chrono-culturel. L’assemblage a fait l’objet d’une étude techno-typologique détaillée au chapitre 14. En complément, notre but est d’identifier la destination fonctionnelle de l’industrie et de réunir des éléments sur la gestion de l’outillage et son statut. Les fonctions sont variées. Notre étude confirme d’
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Desai, Ushang. "Lithium." In Hamilton & Hardy's Industrial Toxicology. John Wiley & Sons, Inc., 2015. http://dx.doi.org/10.1002/9781118834015.ch21.

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Stumper, Benedikt, Henning Südfeld, Felix Diller, and Rüdiger Daub. "Feasibility Study and Economic Evaluation of Direct Contact Prelithiation of Lithium-Ion Batteries." In Lecture Notes in Mechanical Engineering. Springer Nature Switzerland, 2025. https://doi.org/10.1007/978-3-031-77429-4_27.

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AbstractThe increasing need for energy storage across various sectors drives the growing demand for high-performance lithium-ion batteries. Prelithiation has emerged as a promising approach to enhance the capacity and cycle life of lithium-ion batteries. This study investigates the technical feasibility and economic viability of a scalable, roll-to-roll prelithiation process. Using an evaluation methodology adapted from literature, a comprehensive feasibility study and economic evaluation were conducted, considering the industrial-scale implementation of the process. The evaluation demonstrate
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Kaya, Muammer. "Industrial Lithium-Ion Battery Recycling." In Recovery of Lithium from Secondary Resources. CRC Press, 2024. http://dx.doi.org/10.1201/9781003384557-7.

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Ling, Ji, and Xu Kuangdi. "Modern Lithium Industry in China." In The ECPH Encyclopedia of Mining and Metallurgy. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-0740-1_1348-1.

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Ling, Ji. "Modern Lithium Industry in China." In The ECPH Encyclopedia of Mining and Metallurgy. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-99-2086-0_1348.

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Fröhlich, Arian, Steffen Masuch, and Klaus Dröder. "Design of an Automated Assembly Station for Process Development of All-Solid-State Battery Cell Assembly." In Annals of Scientific Society for Assembly, Handling and Industrial Robotics 2021. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-74032-0_5.

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AbstractToday, lithium-ion batteries are a promising technology in the evolution of electro mobility, but still have potential for improvement in terms of performance, safety and cost. In order to exploit this potential, one promising approach is the replacement of liquid electrolyte with solid-state electrolyte and the use of lithium metal electrode as an anode instead of graphite based anodes. Solid-state electrolytes and the lithium metal anode have favorable electrochemical properties and therefore enable significantly increased energy densities with inherent safety. However, these materia
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Foster, Jamie M. "Improving Lithium-Ion Batteries for Electric Vehicles Through Mathematical Modelling." In Mathematics in Industry. Springer Nature Switzerland, 2025. https://doi.org/10.1007/978-3-031-48683-8_12.

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Tsurumaki, Akiko, Sergio Brutti, Giorgia Greco, and Maria Assunta Navarra. "Closed Battery Systems." In The Materials Research Society Series. Springer International Publishing, 2024. http://dx.doi.org/10.1007/978-3-031-48359-2_10.

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AbstractBattery technologies are expected to strongly contribute to the global energy storage industry and market. Among the several promising battery technologies, Li-metal batteries, all-solid-state Li batteries, and beyond-lithium systems are discussed in this chapter. Li metal represents a key anode material for boosting the energy density of batteries, but the formation of Li dendrites limits a safe and stable function of the system. The use of solid-state electrolytes allows a safer battery operation, by limiting the electrolyte flammability and dendrite formation, yet the performance is
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Conference papers on the topic "Industrie lithique"

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Anand, Aiswarya, Manohara Pai M M, and Radhika M. Pai. "Predicting State of Health of Lithium Ion Batteries." In 2024 IEEE 19th Conference on Industrial Electronics and Applications (ICIEA). IEEE, 2024. http://dx.doi.org/10.1109/iciea61579.2024.10664826.

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Luo, Yi-Feng, Chun-Wei Hsu, Chun-Liang Liu, and Guan-Jhu Chen. "Multi-Stage Constant Voltage Charging Method for Lithium-Ion Batteries." In 2025 IEEE Industry Applications Society Annual Meeting (IAS). IEEE, 2025. https://doi.org/10.1109/ias62731.2025.11061537.

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Wang, Yanmin, Bailiang Liu, Jiaming Wang, and Shibo Yuan. "Continuous Sliding Mode Control of Lithium-ion Battery Charger." In IECON 2024 - 50th Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2024. https://doi.org/10.1109/iecon55916.2024.10905682.

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Kulal, Raksha, and Leah Joshi. "Lithium-ion Battery Modeling and HIL Testing With OPALRT." In 2025 3rd IEEE International Conference on Industrial Electronics: Developments & Applications (ICIDeA). IEEE, 2025. https://doi.org/10.1109/icidea64800.2025.10962931.

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Dunn, Donald G. "Lithium-Ion Battery Systems: Risk Management, Operations and Maintenance Considerations." In 2024 IEEE IAS Petroleum and Chemical Industry Technical Conference (PCIC). IEEE, 2024. https://doi.org/10.1109/pcic47799.2024.10832310.

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Isaiah, Olajuyi, Afolayan Oluwasegun, and Ogunmodimu Olumide. "Preliminary investigation on Nigerian Lithium ores for efficient Lithium oxide extraction." In Proceedings of XVI International Mineral Processing and Recycling Conference, Belgrade, 28-30.05.2025. University of Belgrade, Technical Faculty, Bor, 2024. https://doi.org/10.5937/imprc25681s.

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This paper assesses the compositions of the Lithium-rich minerals and the quantity of extractable Lithium oxide in the minerals. The x-ray diffraction (XRD) shows 17% - 34% of spodumene and 9% to 30% of lepidiolite. Similarly, atomic absorption microscopy (AAS) indicates that the Lithium-rich minerals contain 0.820% - 3.051% and 0.040 - 2.395% of Lithium oxide (Li2O). Further results confirm the presence of Lithium-rich minerals in Nigeria, and a high quantity of Lithium-rich minerals suggests that high Lithium oxide can be extracted. This information is useful for miners, mining and mineral p
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Takacova, Zita, Tomáš Vindt, Jakub Klimko, Andrea Miskufova, and Dušan Oráč. "Industrial processing of spent portable lithium batteries: A brief overview." In Proceedings - 55th International October Conference on Mining and Metallurgy, Kladovo, 15-17 October 2024. Mining and Metallurgy Institute, Bor, 2024. https://doi.org/10.5937/ioc24329t.

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The contribution deals with current state of spent portable lithium battery (SPLiBs) recycling in the industrial scale and provides a short overview of the existing industrial facilities. In general, SPLiBs processing consists of pre-treatment, including dismantling and mechanical treatment, pyrometallurgical processes and hydrometallurgical processes. In industry, these methods are most often combined. SPLiBs are usually processed together with other types of lithium batteries. The output of the processing is usually metal alloys based on Co-Ni-Cu for further processing, metal compounds such
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Lavoie, Yves, Francois Danet, and Benoit Lombard. "Lithium-ion batteries for industrial applications." In 2017 IEEE Petroleum and Chemical Industry Technical Conference (PCIC). IEEE, 2017. http://dx.doi.org/10.1109/pcicon.2017.8188747.

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Mitrović, Jelena, and Aleksandra Stevanović. "COMPREHENSIVE APPROACHES TO LITHIUM BATTERY RECYCLING IN THE ERA OF CIRCULAR ECONOMY." In INTERNATIONAL Conference on Business, Management, and Economics Engineering Future-BME. Faculty of Technical Sciences, Novi Sad, 2025. https://doi.org/10.24867/future-bme-2024-009.

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This paper aims to provide a comprehensive overview of lithium battery recycling approaches, highlighting its ecological and socio- economic importance. Lithium batteries have become indispensable energy storage devices and have a wide range of applications. The increasing consumption and disposal of lithium batteries have caused significant responses to concerns about environmental sustainability. To solve these challenges, lithium battery recycling has emerged as an adequate solution for efficient use and sustainability. The proliferation of lithium batteries in various industries has led to
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Mura, M., and M. M. Sharma. "Simulating Li-Ion Extraction: A Reservoir-Scale Feasibility." In 58th U.S. Rock Mechanics/Geomechanics Symposium. ARMA, 2024. http://dx.doi.org/10.56952/arma-2024-0809.

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ABSTRACT: The escalating demand for lithium-ion batteries prompts exploration into efficient lithium production methods. Lithium, prevalent in brine, igneous, and sedimentary rocks, faces surging demand and prices. While brine remains a common source, growing interest in ores arises due to market dynamics. Spodumene, a major lithium-bearing mineral, poses challenges due to its resistance to industrial acids. Traditional methods involve converting α-spodumene to β-spodumene through high-temperature processes, hindering solution mining. Recent studies propose direct extraction using mixed acids.
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Reports on the topic "Industrie lithique"

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Rupke, Andrew, Stephanie E. Mills, Michael D. Vanden Berg, and Taylor Boden. Utah Mining - 2023 Metals, Industrial Minerals, Uranium, Coal, and Unconventional Fuels. Utah Geological Survey, 2024. http://dx.doi.org/10.34191/c-138.

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2023 Utah Mining Industry Summary The estimated combined value of Utah’s extractive resource production in 2023 totaled approximately $10.1 billion, including production of metals and industrial minerals ($4.0 billion), natural gas and natural gas liquids ($2.1 billion), crude oil ($3.8 billion), and coal ($314 million) (Figure 1). Utah’s diverse mining industry (metals, industrial minerals, and coal) accounted for $4.3 billion (42%) of total extractive resource production, a significant decrease of $531 million from the 2022 revised value (nominal dollars) and lower than peak values reached i
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Reinstaller, Andreas, Ina Meyer, and Michael Peneder. Transformation zur Kreislaufwirtschaft. Leistungsfähigkeit, industrie- und FTI-politische Förderung. WIFO - Österreichisches Institut für Wirtschaftsforschung, 2022. http://dx.doi.org/10.22163/fteval.2022.603.

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Die vorliegende Kurzstudie bietet Evidenz zu technologischen Entwicklungen in Österreich, die die Transformation zur Kreislaufwirtschaft unterstützen. Derartige Tätigkeiten spielen im österreichischen Innovationssystem – unter Berücksichtigung wichtiger Einschränkungen bei der Messung – sowohl in absoluten als auch in anteilsmäßigen Zahlen nur eine untergeordnete Rolle. Trotzdem sind technologisch und kommerziell relevante Entwicklungstätigkeiten zu beobachten. Eine Fallstudie zur Etablierung von Kreislaufwertschöpfungsketten im Bereich der Lithium-Ionen-Batterien zeigt die Bedeutung umfassend
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Young, Allison, Susannah Davidson, Emily Wilson, Brenton Begay, and Angela Urban. The Military and planning for lithium-ion battery recycling4.78 MB). Engineer Research and Development Center (U.S.), 2024. http://dx.doi.org/10.21079/11681/49368.

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Understanding the military challenges related to lithium-ion battery disposal and learning about current and future trends in recycling efforts can inform safer and less environmentally destructive end-of-life solutions. Established lead-acid battery recycling methods were compared to the still-evolving lithium-ion battery recycling processes. Executive Order (EO) 13817, EO 13953, and EO 14017 have prioritized the identification of critical minerals, including minerals necessary for lithium-ion battery production, and the need to strengthen supply chains as vital to national security. To suppo
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Patunru, Arianto A. Leveraging lithium and nickel stocks to boost the EV industry. East Asia Forum, 2023. http://dx.doi.org/10.59425/eabc.1698314429.

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Lewis, Courtney-Elyce, Jose Alarco, Joshua Watts, Michael Horn, and Maggie Gulbinska. Fundamentals of Standard Cell Formats, Fabrication and Formation Equipment. Queensland University of Technology, 2021. http://dx.doi.org/10.5204/rep.eprints.236407.

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This document provides an overview of standard cell format trends, cell fabrication and formation equipment as well as best practices established worldwide for Li-ion cell/battery fabrication and formation equipment. The purpose of this report is to fill the knowledge and essential capability gap pertaining to testing and qualification workflow of Lithium-ion cell materials in reliable, reproducible cell formats that are also representative of industry standards. The target audience for this report are domestic battery-grade materials suppliers and prospective suppliers as well as members of t
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Dunn, Jessica, Don Anair, David Reichmuth, and Kevin Shen. Making the Most of Electric Vehicle Batteries: How recycling, innovation, and efficiency can support a sustainable transportation future. Union of Concerned Scientists, 2024. http://dx.doi.org/10.47923/2024.15617.

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Electrifying the US transportation system is essential to rapidly decarbonizing the economy and reducing the public health costs from tailpipe emissions. Electric vehicles (EVs) powered by lithium-ion batteries have become the most preferred alternative to gasoline vehicles. We can create a more resilient, just, and sustainable EV supply chain and energy future by minimizing mineral needs to electrify and eventually relying mostly on recycled materials. This research quantifies the potential to minimize mineral demand for light-duty transportation while electrifying using several strategies, i
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Marín, Anabel, and Santiago Cunial. Mining Legitimacy: Governing the Politics of Resource-Based Green Industrial Policy. Institute of Development Studies, 2025. https://doi.org/10.19088/ids.2025.046.

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Green transitions are not only technological but deeply political. They rely on resources – land, minerals, water – mostly located in low- and middle-income countries, where extraction is increasingly contested. The mineral–energy nexus lies at the heart of this tension: solar, wind, digital, and electric vehicle technologies require vast quantities of minerals, especially lithium, copper, and nickel. How these minerals are extracted, by whom, and under what governance arrangements will shape the direction and legitimacy of green industrialisation. This paper examines how socioenvironmental co
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Kolodziejczyk, Bart. Emerging Automotive Battery Chemistries: Hedging Market Bets. SAE International, 2023. http://dx.doi.org/10.4271/epr2023008.

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&lt;div class="section abstract"&gt;&lt;div class="htmlview paragraph"&gt;There is an urgent need to decarbonize various industry sectors, including transportation; however, this is difficult to achieve when relying solely on today’s lithium-ion (Li-ion) battery technology. A lack of sufficient supply of critical materials—including lithium, nickel, and cobalt—is a major driving force behind research, development, and commercialization of new battery chemistries that can support this energy transition. Many emerging chemistries do not face the same supply, safety, and often durability challeng
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Pasupuleti, Murali Krishna. Smart Nanomaterials and AI-Integrated Grids for Sustainable Renewable Energy. National Education Services, 2025. https://doi.org/10.62311/nesx/rr1025.

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Abstract: The transition to sustainable and intelligent renewable energy systems is being driven by advancements in smart nanomaterials and AI-integrated smart grids. Nanotechnology has enabled the development of high-performance energy materials, such as graphene, perovskites, quantum dots, and MXenes, which enhance the efficiency, durability, and scalability of renewable energy solutions. Simultaneously, AI-driven smart grids leverage machine learning, deep learning, and digital twins to optimize energy distribution, predictive maintenance, and real-time load balancing in renewable energy ne
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