fix(section 2) : corrections mineures pour les images, les références
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@ -37,7 +37,7 @@ Le cuivre est coté quotidiennement au London Metal Exchange (LME). Sa valeur d
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Sources : World Bank Commodity Outlook (2025) [1], LME Historical Copper Prices [2], INSEE Copper Statistics (2024) [3]
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Sources : World Bank Commodity Outlook (2025) [1], LME Historical Copper Prices [2], INSEE Copper Statistics (2024) [3]
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L'impact réel des droits de douane imposés par Trump et des négociations en cours entre les USA et le Chili n'est pas intégré dans les prix moyens, à la date d'écriture de l'article.
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L'impact réel des droits de douane imposés par Trump et des négociations en cours entre les USA et le Chili n'est pas intégré dans les prix moyens, à la date d'écriture de l'article.
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@ -229,7 +229,7 @@ L'Europe a adopté une approche encore plus ambitieuse avec l'objectif de phase-
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*Sources : IWCC (2024/2025) [25], UNCTAD (2025) [26], BHP (2024) [15], IEA (2024) [27], analyses sectorielles*
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*Sources : IWCC (2024/2025) [25], UNCTAD (2025) [26], BHP (2024) [15], IEA (2024) [27], analyses sectorielles*
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> L'équilibre prévisionnel de 2050 se base sur une absence de crise majeure (climatique, géopolitique), une forte croissance du recyclage, des innovations pour limiter l'usage du cuivre à iso-service rendu et une réalisation sans retard des investissements pour l'extraction et le raffinage.
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> L'équilibre prévisionnel de 2050 se base sur une absence de crise majeure (climatique, géopolitique), une forte croissance du recyclage, des innovations pour limiter l'usage du cuivre à iso-service rendu et une réalisation sans retard des investissements pour l'extraction et le raffinage.
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> À titre s'exemple pouvant rendre difficile l'atteinte de l'objectif à terme, Grupo Mexico revoit sa stratégie d'investissement au jour le jour en fonction des décisions sur les droits de douane [41].
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> À titre s'exemple pouvant rendre difficile l'atteinte de l'objectif à terme, Grupo Mexico revoit sa stratégie d'investissement au jour le jour en fonction des décisions sur les droits de douane [41].
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@ -277,7 +277,7 @@ Le cuivre est un métal abondant mais très inégalement réparti. En 2023, plus
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Source : U.S. Geological Survey (USGS), Mineral Commodity Summaries 2024 [32]
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Source : U.S. Geological Survey (USGS), Mineral Commodity Summaries 2024 [32]
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Les couleurs des pays représentent le niveau de stabilité géopolitique calculé selon l'indice compositie décrit dans [Fiche technique : Indice de Stabilité Géopolitique (ISG)](https://fabnum-dev.peccini.fr/app/static/Fiches/Criticit%C3%A9s/Fiche%20technique%20ISG.pdf). En vert les pays stables, en orange les moyennement stables et en rouge les pays instables.
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Les couleurs des pays représentent le niveau de stabilité géopolitique calculé selon l'indice compositie décrit dans [Fiche technique : Indice de Stabilité Géopolitique (ISG)](https://fabnum-dev.peccini.fr/app/static/Fiches/Criticit%C3%A9s/Fiche%20technique%20ISG.pdf). En vert les pays stables, en orange les moyennement stables et en rouge les pays instables.
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@ -287,15 +287,15 @@ Le Chili, la République Démocratique du Congo et le Pérou détiennent à eux
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Si l'extraction est sud-américaine, le raffinage est en grande partie chinois. En 2023, la Chine concentrait à elle seule :
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Si l'extraction est sud-américaine, le raffinage est en grande partie chinois. En 2023, la Chine concentrait à elle seule :
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* > 40 % du raffinage de cuivre primaire mondial
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* 40 % du raffinage de cuivre primaire mondial
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* > 50 % du cuivre recyclé ("scrap") retraité
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* 50 % du cuivre recyclé ("scrap") retraité
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* Le contrôle indirect de plusieurs actifs miniers en Afrique et Amérique latine
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* Le contrôle indirect de plusieurs actifs miniers en Afrique et Amérique latine
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Cela confère à Pékin une forte capacité de levier sur les prix mondiaux et sur les flux commerciaux, comparable à celle qu'elle exerce sur les terres rares ou le graphite.
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Cela confère à Pékin une forte capacité de levier sur les prix mondiaux et sur les flux commerciaux, comparable à celle qu'elle exerce sur les terres rares ou le graphite.
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D'après l'IEA (2022), la Chine détient une « position dominante » sur l'ensemble de la chaîne cuivre hors extraction primaire [33].
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D'après l'IEA (2022), la Chine détient une « position dominante » sur l'ensemble de la chaîne cuivre hors extraction primaire [33].
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Source : U.S. Geological Survey (USGS), Mineral Commodity Summaries 2024 [32]
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Source : U.S. Geological Survey (USGS), Mineral Commodity Summaries 2024 [32]
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@ -367,84 +367,44 @@ Cette tendance s'inscrit dans une logique plus large de conception sous contrain
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### Références - Section 2
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### Références - Section 2
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[1] World Bank. (2025). *Commodity Markets Outlook: April 2025*. Disponible à : [https://thedocs.worldbank.org/en/doc/1b388949805c9a0ae3736bdacb32ea94-0050012025/original/CMO-April-2025.pdf](https://thedocs.worldbank.org/en/doc/1b388949805c9a0ae3736bdacb32ea94-0050012025/original/CMO-April-2025.pdf)
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* [1] World Bank. (2025). *Commodity Markets Outlook: April 2025*. Disponible à : [https://thedocs.worldbank.org/en/doc/1b388949805c9a0ae3736bdacb32ea94-0050012025/original/CMO-April-2025.pdf](https://thedocs.worldbank.org/en/doc/1b388949805c9a0ae3736bdacb32ea94-0050012025/original/CMO-April-2025.pdf)
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* [2] London Metal Exchange. *Copper Historical Pricing*. Disponible à : [https://www.lme.com/en/metals/non-ferrous/lme-copper](https://www.lme.com/en/metals/non-ferrous/lme-copper)
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[2] London Metal Exchange. *Copper Historical Pricing*. Disponible à : [https://www.lme.com/en/metals/non-ferrous/lme-copper](https://www.lme.com/en/metals/non-ferrous/lme-copper)
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* [3] INSEE. (2024). *Copper - Grade A - LME spot price*. Disponible à : [https://www.insee.fr/langue/en?url=%2Fen%2Fstatistiques%2Fserie%2F010002052](https://www.insee.fr/langue/en?url=%2Fen%2Fstatistiques%2Fserie%2F010002052)
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* [4] McKinsey & Company. (2022). *The Raw-Materials Challenge: Enabling the Energy Transition*. Disponible à : [https://www.mckinsey.com/industries/metals-and-mining/how-we-help-clients](https://www.mckinsey.com/industries/metals-and-mining/how-we-help-clients)
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[3] INSEE. (2024). *Copper - Grade A - LME spot price*. Disponible à : [https://www.insee.fr/langue/en?url=%2Fen%2Fstatistiques%2Fserie%2F010002052](https://www.insee.fr/langue/en?url=%2Fen%2Fstatistiques%2Fserie%2F010002052)
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* [5] Schneider Electric. (2024). *Data Center Infrastructure Cost Analysis*. Publication technique.
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* [6] International Copper Association. (2023). *Electrical Conductors Comparison Study*. Disponible à : [https://internationalcopper.org/resource/copper-recycling/](https://internationalcopper.org/resource/copper-recycling/)
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[4] McKinsey & Company. (2022). *The Raw-Materials Challenge: Enabling the Energy Transition*. Disponible à : [https://www.mckinsey.com/industries/metals-and-mining/how-we-help-clients](https://www.mckinsey.com/industries/metals-and-mining/how-we-help-clients)
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* [7] Uptime Institute. *Tier Classification System*. Disponible à : [https://uptimeinstitute.com/tiers](https://uptimeinstitute.com/tiers)
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* [8] TIA. *ANSI/TIA-942 Telecommunications Infrastructure Standard for Data Centers*. Disponible à : [https://tiaonline.org/products-and-services/tia942certification/ansi-tia-942-standard/](https://tiaonline.org/products-and-services/tia942certification/ansi-tia-942-standard/)
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[5] Schneider Electric. (2024). *Data Center Infrastructure Cost Analysis*. Publication technique.
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* [9] Lawrence Berkeley National Laboratory. (2008). *DC Power Demo*. Disponible à : [https://datacenters.lbl.gov/sites/default/files/DC%20Power%20Demo_2008.pdf](https://datacenters.lbl.gov/sites/default/files/DC%20Power%20Demo_2008.pdf)
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* [10] Schneider Electric. (2012). *Great Hoaxes: Bigfoot, UFO's, and DC vs. AC efficiency studies*. Disponible à : [https://blog.se.com/datacenter/architecture/2012/01/30/dc-versus-ac-efficiency-studies/](https://blog.se.com/datacenter/architecture/2012/01/30/dc-versus-ac-efficiency-studies/)
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[6] International Copper Association. (2023). *Electrical Conductors Comparison Study*. Disponible à : [https://internationalcopper.org/resource/copper-recycling/](https://internationalcopper.org/resource/copper-recycling/)
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* [11] APC by Schneider Electric. (2023). *A Quantitative Comparison of High Efficiency AC vs. DC Power Distribution*. Disponible à : [https://www.anixter.com/content/dam/Suppliers/APC/White%20Paper/A%20Quantitatve%20Comparison.pdf](https://www.anixter.com/content/dam/Suppliers/APC/White%20Paper/A%20Quantitatve%20Comparison.pdf)
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* [12] Eaton. (2024). *AC Versus DC Power Distribution*. Disponible à : [https://www.eaton.com/content/dam/eaton/markets/data-center/AC-Versus-DC-Power-Distribution.pdf](https://www.eaton.com/content/dam/eaton/markets/data-center/AC-Versus-DC-Power-Distribution.pdf)
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[7] Uptime Institute. *Tier Classification System*. Disponible à : [https://uptimeinstitute.com/tiers](https://uptimeinstitute.com/tiers)
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* [13] Meta. (2024). *Data Center Cooling System Optimization*. Rapport technique interne.
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* [14] Schneider Electric. (2023). *Data Center Copper Optimization Strategy*. Publication technique.
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[8] TIA. *ANSI/TIA-942 Telecommunications Infrastructure Standard for Data Centers*. Disponible à : [https://tiaonline.org/products-and-services/tia942certification/ansi-tia-942-standard/](https://tiaonline.org/products-and-services/tia942certification/ansi-tia-942-standard/)
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* [15] BHP. (2024). *BHP Insights: how copper will shape our future*. Disponible à : [https://www.bhp.com/news/bhp-insights/2024/09/how-copper-will-shape-our-future](https://www.bhp.com/news/bhp-insights/2024/09/how-copper-will-shape-our-future)
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* [16] International Energy Forum. (2024). *Could hybrid cars help us manage soaring copper demand?* Disponible à : [https://www.ief.org/news/could-hybrid-cars-help-us-manage-soaring-copper-demand](https://www.ief.org/news/could-hybrid-cars-help-us-manage-soaring-copper-demand)
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[9] Lawrence Berkeley National Laboratory. (2008). *DC Power Demo*. Disponible à : [https://datacenters.lbl.gov/sites/default/files/DC%20Power%20Demo_2008.pdf](https://datacenters.lbl.gov/sites/default/files/DC%20Power%20Demo_2008.pdf)
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* [17] Reuters. (2023). *Innovation in EVs seen denting copper demand growth potential*. Disponible à : [https://www.reuters.com/business/autos-transportation/innovation-evs-seen-denting-copper-demand-growth-potential-2023-07-07/](https://www.reuters.com/business/autos-transportation/innovation-evs-seen-denting-copper-demand-growth-potential-2023-07-07/)
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* [18] EV Boosters. (2024). *The decline of copper usage in EVs: A shifting trend in material needs*. Disponible à : [https://evboosters.com/ev-charging-news/the-decline-of-copper-usage-in-evs-a-shifting-trend-in-material-needs/](https://evboosters.com/ev-charging-news/the-decline-of-copper-usage-in-evs-a-shifting-trend-in-material-needs/)
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[10] Schneider Electric. (2012). *Great Hoaxes: Bigfoot, UFO's, and DC vs. AC efficiency studies*. Disponible à : [https://blog.se.com/datacenter/architecture/2012/01/30/dc-versus-ac-efficiency-studies/](https://blog.se.com/datacenter/architecture/2012/01/30/dc-versus-ac-efficiency-studies/)
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* [19] International Copper Association. (2019). *Renewables to Significantly Increase Copper Demand by 2027*. Disponible à : [https://internationalcopper.org/wp-content/uploads/2019/04/fact-sheet-renewables-to-significantly-increase-copper-demand-by-2027.pdf](https://internationalcopper.org/wp-content/uploads/2019/04/fact-sheet-renewables-to-significantly-increase-copper-demand-by-2027.pdf)
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* [20] RAP. (2024). *Some like it hot: Moving industrial electrification from potential to practice*. Disponible à : [https://www.raponline.org/wp-content/uploads/2024/12/rap-rosenow-oxenaar-pusceddu-some-like-it-hot-moving-industrial-electrification-potential-practice-2024-december.pdf](https://www.raponline.org/wp-content/uploads/2024/12/rap-rosenow-oxenaar-pusceddu-some-like-it-hot-moving-industrial-electrification-potential-practice-2024-december.pdf)
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[11] APC by Schneider Electric. (2023). *A Quantitative Comparison of High Efficiency AC vs. DC Power Distribution*. Disponible à : [https://www.anixter.com/content/dam/Suppliers/APC/White%20Paper/A%20Quantitatve%20Comparison.pdf](https://www.anixter.com/content/dam/Suppliers/APC/White%20Paper/A%20Quantitatve%20Comparison.pdf)
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* [21] U.S. Department of Transportation. *Electric Vehicles & Rural Transportation*. Disponible à : [https://www.transportation.gov/rural/ev](https://www.transportation.gov/rural/ev)
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* [22] NADA. (2025). *Save Consumer Choice for New Vehicles: Overturn EPA's EV Mandate*. Disponible à : [https://www.nada.org/legislative/save-consumer-choice-new-vehicles-overturn-epas-ev-mandate](https://www.nada.org/legislative/save-consumer-choice-new-vehicles-overturn-epas-ev-mandate)
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[12] Eaton. (2024). *AC Versus DC Power Distribution*. Disponible à : [https://www.eaton.com/content/dam/eaton/markets/data-center/AC-Versus-DC-Power-Distribution.pdf](https://www.eaton.com/content/dam/eaton/markets/data-center/AC-Versus-DC-Power-Distribution.pdf)
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* [23] ECCO. (2025). *Europe and China in the global race for electric vehicles*. Disponible à : [https://eccoclimate.org/europe-and-china-in-the-global-race-for-electric-vehicles/](https://eccoclimate.org/europe-and-china-in-the-global-race-for-electric-vehicles/)
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* [24] ACEA. (2024). *Electric cars: Tax benefits and incentives (2024)*. Disponible à : [https://www.acea.auto/fact/electric-cars-tax-benefits-and-incentives-2024/](https://www.acea.auto/fact/electric-cars-tax-benefits-and-incentives-2024/)
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[13] Meta. (2024). *Data Center Cooling System Optimization*. Rapport technique interne.
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* [25] IWCC. (2024/2025). *Copper Demand Forecasts*. Disponible à : [https://www.coppercouncil.org/iwcc-statistics-and-data](https://www.coppercouncil.org/iwcc-statistics-and-data)
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* [26] UNCTAD. (2025). *Global Trade Update (May 2025): Focus on critical minerals – copper*. Disponible à : [https://unctad.org/publication/global-trade-update-may-2025-critical-minerals-copper](https://unctad.org/publication/global-trade-update-may-2025-critical-minerals-copper)
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[14] Schneider Electric. (2023). *Data Center Copper Optimization Strategy*. Publication technique.
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* [27] IEA. (2024). *Copper – Analysis*. Disponible à : [https://www.iea.org/reports/copper](https://www.iea.org/reports/copper)
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* [28] Meta. (2023). *Sustainability Report – Materials Engineering*. Document interne cité dans les médias.
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[15] BHP. (2024). *BHP Insights: how copper will shape our future*. Disponible à : [https://www.bhp.com/news/bhp-insights/2024/09/how-copper-will-shape-our-future](https://www.bhp.com/news/bhp-insights/2024/09/how-copper-will-shape-our-future)
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* [29] U.S. Department of Energy. *Strategic Petroleum Reserve*. Disponible à : [https://www.energy.gov/fe/services/petroleum-reserves/strategic-petroleum-reserve](https://www.energy.gov/fe/services/petroleum-reserves/strategic-petroleum-reserve)
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* [30] International Copper Association. (2023). *Copper—The Pathway to Net Zero*. Disponible à : [https://internationalcopper.org/resource/copper-pathway-to-net-zero/](https://internationalcopper.org/resource/copper-pathway-to-net-zero/)
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[16] International Energy Forum. (2024). *Could hybrid cars help us manage soaring copper demand?* Disponible à : [https://www.ief.org/news/could-hybrid-cars-help-us-manage-soaring-copper-demand](https://www.ief.org/news/could-hybrid-cars-help-us-manage-soaring-copper-demand)
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* [31] European Commission. (2023). *Critical Raw Materials Act – Proposal and Strategic Reserves*. Disponible à : [https://ec.europa.eu](https://ec.europa.eu)
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* [32] U.S. Geological Survey. (2024). *Mineral Commodity Summaries – Copper*. Disponible à : [https://pubs.usgs.gov/periodicals/mcs2024/mcs2024-copper.pdf](https://pubs.usgs.gov/periodicals/mcs2024/mcs2024-copper.pdf)
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[17] Reuters. (2023). *Innovation in EVs seen denting copper demand growth potential*. Disponible à : [https://www.reuters.com/business/autos-transportation/innovation-evs-seen-denting-copper-demand-growth-potential-2023-07-07/](https://www.reuters.com/business/autos-transportation/innovation-evs-seen-denting-copper-demand-growth-potential-2023-07-07/)
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* [33] IEA. (2022). *The Role of Critical Minerals in Clean Energy Transitions*. Disponible à : [https://www.iea.org/reports/the-role-of-critical-minerals](https://www.iea.org/reports/the-role-of-critical-minerals)
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* [34] S&P Global. (2022). *The Future of Copper – Will the Looming Supply Gap Short-Circuit the Energy Transition?* Disponible à : [https://www.spglobal.com/en/research-insights/articles/future-of-copper](https://www.spglobal.com/en/research-insights/articles/future-of-copper)
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[18] EV Boosters. (2024). *The decline of copper usage in EVs: A shifting trend in material needs*. Disponible à : [https://evboosters.com/ev-charging-news/the-decline-of-copper-usage-in-evs-a-shifting-trend-in-material-needs/](https://evboosters.com/ev-charging-news/the-decline-of-copper-usage-in-evs-a-shifting-trend-in-material-needs/)
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* [35] Uptime Institute. (2022). *Global Data Center Survey*. Disponible à : [https://uptimeinstitute.com/research](https://uptimeinstitute.com/research)
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* [36] S&P Global. (2022). *The Future of Copper: Will the looming supply gap short-circuit the energy transition?* Disponible à : [https://www.spglobal.com/marketintelligence/en/news-insights/research/future-of-copper-2035](https://www.spglobal.com/marketintelligence/en/news-insights/research/future-of-copper-2035)
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[19] International Copper Association. (2019). *Renewables to Significantly Increase Copper Demand by 2027*. Disponible à : [https://internationalcopper.org/wp-content/uploads/2019/04/fact-sheet-renewables-to-significantly-increase-copper-demand-by-2027.pdf](https://internationalcopper.org/wp-content/uploads/2019/04/fact-sheet-renewables-to-significantly-increase-copper-demand-by-2027.pdf)
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* [37] Google. (2023). *Supply Chain Sustainability Report*. Document public.
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* [38] Open Compute Project Foundation. (2023). *Reducing Metal Intensity in Next-Gen Racks: A Collaborative Analysis*. Disponible à : [https://www.opencompute.org](https://www.opencompute.org)
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[20] RAP. (2024). *Some like it hot: Moving industrial electrification from potential to practice*. Disponible à : [https://www.raponline.org/wp-content/uploads/2024/12/rap-rosenow-oxenaar-pusceddu-some-like-it-hot-moving-industrial-electrification-potential-practice-2024-december.pdf](https://www.raponline.org/wp-content/uploads/2024/12/rap-rosenow-oxenaar-pusceddu-some-like-it-hot-moving-industrial-electrification-potential-practice-2024-december.pdf)
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* [39] European Commission. (2025) *Strategic sectors and technologies value chains and CRM demand*. Disponible à : [https://rmis.jrc.ec.europa.eu/crms-in-strategic-sectors-and-technologies-e8c632](https://rmis.jrc.ec.europa.eu/crms-in-strategic-sectors-and-technologies-e8c632)
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* [40] Automobile Propre. (2025) *Donald Trump continue sa croisade contre la voiture électrique*. Disponible à : [https://www.automobile-propre.com/articles/sur-fond-de-tensions-avec-la-californie-donald-trump-part-en-croisade-contre-la-voiture-electrique/](https://www.automobile-propre.com/articles/sur-fond-de-tensions-avec-la-californie-donald-trump-part-en-croisade-contre-la-voiture-electrique/)
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[21] U.S. Department of Transportation. *Electric Vehicles & Rural Transportation*. Disponible à : [https://www.transportation.gov/rural/ev](https://www.transportation.gov/rural/ev)
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* [41] Reuters. (2025) *Grupo Mexico evaluating US investments after scaled-back copper tariff*. Disponible à : [https://www.reuters.com/world/china/grupo-mexico-evaluating-us-investments-after-scaled-back-copper-tariff-2025-07-30/](https://www.reuters.com/world/china/grupo-mexico-evaluating-us-investments-after-scaled-back-copper-tariff-2025-07-30/)
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[22] NADA. (2025). *Save Consumer Choice for New Vehicles: Overturn EPA's EV Mandate*. Disponible à : [https://www.nada.org/legislative/save-consumer-choice-new-vehicles-overturn-epas-ev-mandate](https://www.nada.org/legislative/save-consumer-choice-new-vehicles-overturn-epas-ev-mandate)
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[23] ECCO. (2025). *Europe and China in the global race for electric vehicles*. Disponible à : [https://eccoclimate.org/europe-and-china-in-the-global-race-for-electric-vehicles/](https://eccoclimate.org/europe-and-china-in-the-global-race-for-electric-vehicles/)
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[24] ACEA. (2024). *Electric cars: Tax benefits and incentives (2024)*. Disponible à : [https://www.acea.auto/fact/electric-cars-tax-benefits-and-incentives-2024/](https://www.acea.auto/fact/electric-cars-tax-benefits-and-incentives-2024/)
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[25] IWCC. (2024/2025). *Copper Demand Forecasts*. Disponible à : [https://www.coppercouncil.org/iwcc-statistics-and-data](https://www.coppercouncil.org/iwcc-statistics-and-data)
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[26] UNCTAD. (2025). *Global Trade Update (May 2025): Focus on critical minerals – copper*. Disponible à : [https://unctad.org/publication/global-trade-update-may-2025-critical-minerals-copper](https://unctad.org/publication/global-trade-update-may-2025-critical-minerals-copper)
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[27] IEA. (2024). *Copper – Analysis*. Disponible à : [https://www.iea.org/reports/copper](https://www.iea.org/reports/copper)
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[28] Meta. (2023). *Sustainability Report – Materials Engineering*. Document interne cité dans les médias.
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[29] U.S. Department of Energy. *Strategic Petroleum Reserve*. Disponible à : [https://www.energy.gov/fe/services/petroleum-reserves/strategic-petroleum-reserve](https://www.energy.gov/fe/services/petroleum-reserves/strategic-petroleum-reserve)
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[30] International Copper Association. (2023). *Copper—The Pathway to Net Zero*. Disponible à : [https://internationalcopper.org/resource/copper-pathway-to-net-zero/](https://internationalcopper.org/resource/copper-pathway-to-net-zero/)
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[31] European Commission. (2023). *Critical Raw Materials Act – Proposal and Strategic Reserves*. Disponible à : [https://ec.europa.eu](https://ec.europa.eu)
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[32] U.S. Geological Survey. (2024). *Mineral Commodity Summaries – Copper*. Disponible à : [https://pubs.usgs.gov/periodicals/mcs2024/mcs2024-copper.pdf](https://pubs.usgs.gov/periodicals/mcs2024/mcs2024-copper.pdf)
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[33] IEA. (2022). *The Role of Critical Minerals in Clean Energy Transitions*. Disponible à : [https://www.iea.org/reports/the-role-of-critical-minerals](https://www.iea.org/reports/the-role-of-critical-minerals)
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[34] S&P Global. (2022). *The Future of Copper – Will the Looming Supply Gap Short-Circuit the Energy Transition?* Disponible à : [https://www.spglobal.com/en/research-insights/articles/future-of-copper](https://www.spglobal.com/en/research-insights/articles/future-of-copper)
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[35] Uptime Institute. (2022). *Global Data Center Survey*. Disponible à : [https://uptimeinstitute.com/research](https://uptimeinstitute.com/research)
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[36] S&P Global. (2022). *The Future of Copper: Will the looming supply gap short-circuit the energy transition?* Disponible à : [https://www.spglobal.com/marketintelligence/en/news-insights/research/future-of-copper-2035](https://www.spglobal.com/marketintelligence/en/news-insights/research/future-of-copper-2035)
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[37] Google. (2023). *Supply Chain Sustainability Report*. Document public.
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[38] Open Compute Project Foundation. (2023). *Reducing Metal Intensity in Next-Gen Racks: A Collaborative Analysis*. Disponible à : [https://www.opencompute.org](https://www.opencompute.org)
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[39] European Commission. (2025) *Strategic sectors and technologies value chains and CRM demand*. Disponible à : [https://rmis.jrc.ec.europa.eu/crms-in-strategic-sectors-and-technologies-e8c632](https://rmis.jrc.ec.europa.eu/crms-in-strategic-sectors-and-technologies-e8c632)
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[40] Automobile Propre. (2025) *Donald Trump continue sa croisade contre la voiture électrique*. Disponible à : [https://www.automobile-propre.com/articles/sur-fond-de-tensions-avec-la-californie-donald-trump-part-en-croisade-contre-la-voiture-electrique/](https://www.automobile-propre.com/articles/sur-fond-de-tensions-avec-la-californie-donald-trump-part-en-croisade-contre-la-voiture-electrique/)
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[41] Reuters. (2025) *Grupo Mexico evaluating US investments after scaled-back copper tariff*. Disponible à : [https://www.reuters.com/world/china/grupo-mexico-evaluating-us-investments-after-scaled-back-copper-tariff-2025-07-30/](https://www.reuters.com/world/china/grupo-mexico-evaluating-us-investments-after-scaled-back-copper-tariff-2025-07-30/)
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