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Pubblicazioni di François CARDARELLI


MANUALI di CONSULTAZIONE [inizio]

François Cardarelli (2018) - Materials Handbook. A Concise Desktop Reference, Third Edition. - SPRINGER, Cham, London, New York.CXXXII, 2254 pages, 173 b/w figures, 2 illustrations in color ISBN 978-3-319-38923-3.

François Cardarelli (2008) - Materials Handbook. A Concise Desktop Reference, Second Edition. - SPRINGER, London, New York, xxxviii, 1345 pages, 55 figures, ISBN 978-1-846-28-668-1.

• François Cardarelli (2003) - Encyclopaedia of Scientific Units, Weights and Measures. Their SI Equivalences and Origins. - SPRINGER, London, New York. xxiv, 848 pages, ISBN 1-852-33-682-X (second printing in 2004, third printing in 2005, fourth printing in 2006), CAS [2004:580,707].

François Cardarelli (2000) - Materials Handbook. A Concise Desktop Reference. - SPRINGER, London, New York. ix, 595 pages, ISBN 1-852-33-168-2 (second printing in 2001), CAS [2004:580,703].

François Cardarelli (1999) - Scientific Unit Conversion. A Practical Guide to Metrication, Second edition. - SPRINGER, London, New York. xvi, 488 pages, ISBN 1-852-33-043-0, CAS [126:317,024].

François Cardarelli (1997) - Scientific Unit Conversion. A Practical Guide to Metrication. - SPRINGER, London, Heidelberg. xvi, 456 pages, ISBN 3-540-760-22-9 (second printing in 1998), CAS [126:317,024].


ARTICOLI [inizio]

• Michel Guéguin and François Cardarelli - Chemistry and mineralogy of titania-rich slags. Part 1—Hemo-ilmenite, sulphate, and upgraded titania slags. - Mineral Processing and Extractive Metallurgy Review (MP&EMR), 28(1)(2007)1-58; CAS [147:410,189] [Abstract HTML][PDF file (2,5 MB)].

• Nicolas Geoffroy and François Cardarelli - A  method for leaching or dissolving gold from ores or precious metal scrap. - Journal of Metals (JOM), 57(8)(2005)47-50; CAS [144:296,240] [Riassunto HTML] [PDF file (280 KB)].

• François Cardarelli - A method for electrowinning of titanium metal or alloy from titanium oxide containing compound in the liquid state. - Marcelle Gaune-Escard (Ed.) Recent Advances in Titanium Metallurgy in Molten Salts Bulletin No. 81(2004)1-15, IUSTI, Ecole Polytechnique Universitaire de Marseille [PDF file (3.4 MB)].

• François Cardarelli; Christos Comninellis; André Savall; Pierre Taxil; Georgia Manoli and Olivier Leclerc - Preparation of oxygen evolving electrodes with long service life under extreme conditions. - Journal of Applied Electrochemistry (JAE), 28(3)(1998)245–250; CAS [128:287,682]
[Riassunto HTML] [PDF file (584 KB)].

• François Cardarelli - Techniques for deposition of thin tantalum coatings from molten salts. - Metal Powder Report, 52(5)(1997)51.

François Cardarelli; Pierre Taxil and André Savall - Tantalum protective thin coating techniques for the chemical process industry: molten salts electrocoating as a new alternative. - International Journal of Refractory Metals & Hard Materials (IJRM&HM), 14(5-6)(1996)365–381; CAS [126:49,657] [Riassunto HTML] [PDF file (1.9 MB)].

François Cardarelli; Marius Chemla; Jean-Pierre Simonin and Pierre Turq - Formulation for the preparation of a beta scintillating plastic device. - Journal of Optical Materials, 4(6)(1995)735–741; CAS [124:204,203] [Riassunto HTML] [PDF file (380 KB)].


BREVETTI [inizio]


 International Patent Application WO 2018/152628 METALLURGICAL AND CHEMICAL PROCESSES FOR RECOVERING VANADIUM AND IRON VALVES FROM VANADIFEROUS TITANOMAGNETITE AND VANADIFEROUS FEEDSTOCKS

Inventor:        François Cardarelli

Assignee(s):   SOLD to VanadiumCorp Resource Inc., Vancouver, BC [Previously owned by VanadiumCorp Resource Inc. (50%) and Electrochem Technologies & Materials Inc. (50%)]

  • PCT International Patent Application WO 2018/152628 (A1), August 30th, 2018 [PDF file (4.5 MB)]
  • United States Patent US 10,947,630 B2, March 16th, 2021 [PDF file (2.56 MB)]
  • Canadian Patent Application CA 3,032,329 A1, January 29th, 2019 [PDF file (0.64 MB)]
  • Australian Patent Application AU 2018 225820, January 29th, 2019
  • European Patent Application EP 18757453 A1, January 29th, 2019 [PDF file (0.3 MB)]
  • South African Patent Application ZA 2019/00743
  • Indian Patent Application IN 2019/17004662
Canadian Patent 2,878,486 C PROCESS FOR RECOVERING RARE EARTH OXIDES FROM PHOSPHORS, FLUORESCENT LAMPS AND LIGHT BULBS, CATHODE RAY TUBES AND OTHER INDUSTRIAL WASTES

Inventor:        François Cardarelli

Assignee:      Electrochem Technologies & Materials Inc., Montreal, QC

PRESS RELEASES:
  • A process that recovers rare-eath elements from "urban mining" by Gerald Ondrey. Published in the CHEMENTATOR section on page 12 of Chemical Engineering Magazine (New York City, NY), June 2014 [PDF file (49 KB)]

Canadian Patent 2,849,787 C Process for upgrading tantalum and niobium ores and concentrates with the recovery of manganese and rare earths oxides

Inventor:        François Cardarelli

Assignee:      Electrochem Technologies & Materials Inc., Montreal, QC

PRESS RELEASES:
  • A cleaner, safer way to obtain tantalum and niobium by Gerald Parkinson. Published in the CHEMENTATOR section on page 14 of Chemical Engineering Magazine (New York City, NY), June 2013 [PDF file (296 KB)]

Canadian Patent 2,717,887 C Electrochemical process for the recovery of metallic iron and sulfuric acid values from iron-rich sulfate wastes, mining residues and pickling liquors
nventor:        François Cardarelli

Assignee:      Electrochem Technologies & Materials Inc., Montreal, QC

  • PCT International Patent Application WO 2009/124393 (A1), October 15th, 2009 [PDF file (1.8 MB)]
  • Canadian Patent CA 2,717,887 C, June 14th, 2016 [PDF file (1.82 MB)]
  • Chinese Patent CN 102084034 B, June 06th, 2011  [PDF file (1.44 MB)]
  • Japanese Patent JP 5469157 B2, February 7th, 2014 [PDF file (1.04 MB)]
  • South African Patent ZA 2010/07214, August 31, 2011
  • European Patent EP 2268852 B1, December 5th, 2018 [PDF file (0.52 MB)]
  • Brazil Patent BRPI 0911653 A2 [PDF file (0.88 MB)]
  • Indian Patent IN 294372, March 19th, 2018
  • Australian Patent Application AU 2009/235914
  • United States Patent Application US 2011/00089045 (A1), April 21, 2011 [PDF file (1.3 MB)]
PRESS RELEASES:
  • Green process for electrowinning of iron and regenerating sulfuric acid. Published in Advanced Materials & Processes (ASM Internetalional, Materials Park, OH), January 2011 [PDF file (116 KB)].
  • Electrowinning of iron and concurrent regeneration of sulfuric acid from copperas and iron-rich sulfate wastes by Gerald Parkinson. Published in CHEMENTATOR section of Chemical Engineering Magazine (New York City, NY), June 2010 [PDF file (296 KB)].
  • Electrolysis makes a winning solution by Jane Gibson. Published in the trade magazine ICIS Chemicals, London UK, October 12th, 2018 [PDF file (377 KB)].
Canadian Patent Application 2,680,810 A1

HIGH TEMPERATURE PYROMETALLURGICAL REDUCTION PROCESS FOR THE RECOVERY OF FUSED REFRACTORY METAL OXIDES AND THE PRODUCTION OF VANADIUM-RICH ALLOYS FROM MINING RESIDUES OR METALLURGICAL WASTES BY--PRODUCED DURING THE BENEFICIATION AND UPGRADING OF TITANIA SLAGS

Inventor(s):        François Cardarelli and Michel Guéguin

Assignee(s):       François Cardarelli (Montreal, QC)


Canadian Patent Application 2,680,729 A1

THERMAL PROCESS FOR THE RECOVERY OF REFRACTORY METAL OXIDES AND THE PRODUCTION OF VANADIUM-RICH ALLOYS FROM MINING RESIDUES OR METALLURGICAL WASTES BY--PRODUCED DURING THE BENEFICIATION AND UPGRADING OF TITANIA SLAGS

Inventor(s):       Michel Guéguin and François Cardarelli

Assignee(s):      Michel Guéguin (Sorel-Tracy, QC)


Canadian Patent 2,663,652 C Electrochemical process for the recovery of metallic iron and chlorine values from iron-rich metal chloride wastes

Inventor:        François Cardarelli

Assignee:      Rio Tinto Fer et Titane Inc. (RTFT- RTIT) (Sorel-Tracy, QC)

                    formerly QIT Iron & Titanium Inc.

Canadian Patent 2,718,585 C Electrochemical process for the recovery of metallic iron and chlorine values from iron-rich metal chloride wastes

Inventor(s):        François Cardarelli et al.

Assignee:      Rio Tinto Fer et Titane Inc. (RTFT- RTIT) (Sorel-Tracy, QC)

                    formerly QIT Iron & Titanium Inc.

Canadian Patent Application 2,660,141 A1 HIGH STRENGTH, LIGHTWEIGHT, CORROSION RESISTANT AND CONDUCTIVE COMPOSITE METALLIC MATERIAL USES THEREOF AND PROCESSES FOR MAKING THE SAME

Inventor:        François Cardarelli

Assignee:      François Cardarelli (Tucson, AZ and Montreal, QC)

  • PCT International Patent Application WO 2008/017156 (A1), February 14th, 2008 [PDF file (1.8 MB)]
  • United States Patent Application US 2010/0261034 (A1), October 14th, 2010 [PDF file (308 KB)]
  • Canadian Patent Application CA 2,660,141 A1, February 14th, 2008 [PDF file (1.8 MB)]
  • CAS [148:244,103]
United States Patent 7,504,017 B2 Method for electrowinning of titanium metal or alloy from titanium oxide containing compound in the liquid state

Inventor:        François Cardarelli

Assignee:      Rio Tinto Fer et Titane Inc. (RTFT- RTIT) (Sorel-Tracy, QC)

                    formerly QIT Iron & Titanium Inc.

Canadian Patent Application 2,329,834 A1 HIGH STRENGTH, HEAT- AND CORROSION-RESISTANT CERAMIC GRANULES FOR PROPPANTS

Inventor(s):        David Droppert, François Cardarelli, Pat Fiore, Yves Dessureault

Assignee:      Rio Tinto Fer et Titane (Sorel-Tracy, QC)

                    formerly QIT Iron & Titanium Inc.


  • Canadian Patent Application CA 2,329,834 (A1), June 28, 2002; CAS [142: 244546z] [PDF file (540 KB)]
United States Patent 7,192,764 B2 Method for recycling spent lithium metal polymer rechargeable batteries and related material

Inventor(s):       François Cardarelli, Jonathan Dubé

Assignee:      BlueSolutions Inc. (Groupe Bolloré)

                    formerly Bathium Canada Inc.

                    Avestor Corporation and Hydro-Québec (HQ)


European Patent EP 0925 387 B1

ANODE WITH ENHANCED DURABILITY AND METHOD FOR MAKING THE SAME

Inventor(s):       François Cardarelli, Christos Comninellis; André Savall; Pierre Taxil; Véronique Reid; Georgia Manoli and Olivier Leclerc

Assignee:      Électricité de France - EDF


  • PCT International Patent Application WO 1997/043465 (A1), November 20, 1997 [PDF file (976 KB)]
  • European Patent EP 0925 387 (B1), June 30, 1999 [PDF file (672 KB)]
  • CAS [127:352,388]
French Patent 2,735,386 A1 LONG LIFE HIGH POTENTIAL ELECTROCHEMICAL ANODE

Inventor(s):       François Cardarelli, Christos Comninellis; André Savall; Pierre Taxil

Assignee:      Électricité de France - EDF



ATTI di CONGRESI [inizio]

James C. Withers, François Cardarelli, John Laughlin, and Raouf O. Loutfy - Recent improvements for electrowinning titanium metal from composites anodes. - in Haussman, J.; Katayama, Y.; and Friedrich, B. (eds.)(2008) - International Round Table on Titanium Production in Molten Salts. - DLR German Aerospace Center, Cologne, Germany, March 2-4, 2008 [PDF file (112 KB)].

• François Cardarelli; Pierre Taxil; André Savall; Christos Comninellis; Georgia Manoli and Véronique Reid - Oxygen evolving electrodes with long service life in acidic medium. - 4th European Electrochemical Processing Conference, The Versatile Solution, Barcelona, Spagna, April 14 (1997).

• François Cardarelli; Pierre Taxil; André Savall; Christos Comninellis; Georgia Manoli and Olivier Leclerc - A new development for the preparation of oxygen evolving electrodes with long service life under extreme conditions. - in Ivo Rousar (ed.) - Contemporary Trends in Electrochemical Engineering Prague (CZ), CHISA ’96 - 4th European Symposium of Electrochemical Engineering - pages 191-197 (1996).


TESI di RICERCA

• François Cardarelli (1996) - Elaborazione di anodi metallici dimensionalmenti stabili (DSA) del typo metallo/tantalio/ossido elettrocatalitico, per l'evoluzione di ossigeno in soluzioni acide. - Tesi di dottorato di ricerca No. 2420, Università Paul Sabatier, Tolosa, Francia (discussione di tesi il 26 settembre 1996) [PDF file (2.4 MB)].

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Copyright © 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020 François Cardarelli [Aggiornato il 17 aprile 2021] info@francoiscardarelli.ca

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Parole chiavi: matematica, fisica, meccanica, meccanica quantica, relatività, elettricità, elettrostatica, elettromagnetismo, magnetismo, termodinamica, acoustica, ottica, chimica, chimica generale, chimica inorganica, chimica organica, chimica analitica, chimica analitica qualitativa, microchimica, chimica analitica quantitativa, chimica fisica, radiochimica, chimica nucleare, elettrochimica, spettrochimica, chimica delle surperficie, chimica industriale, ingegneria chimica, ingegneria elettrochimica, ingegneria meccanica, ingegneria elettrica, ingegneria termica, ingegneria civile, ingegneria nucleare, ingegneria dei materiali, scienza dei materiali, datti sui materiali, proprietà dei materiali, elettroliti acquosi, electrolisi, electrodica, cinetica degli elettrodi, scienza della corrosione, elettrodepositione, estrazione elettrolitica, raffinagio elettrolitico, elettrocatalisi, electrodi, evoluzione di idrogeno, anodo inerto, anodi dimensionalmenti stabili (DSA®), evoluzione di cloro, diossido di rutenio (RuO2), DSA-Cl2, DSA-RuO2, evoluzione di ossigeno, diossido di iridio (IrO2), DSA-O2, DSA-IrO2, anodi di ossidi misti (MMO), anodo di titanio attivato, anodo di titanio ricoperto di ossidi di metalli del gruppo del platino, anodo di piombo, anodi di leghe piombo ed argento, diossido di piombo (PbO2), elettrodi di spinelo, ferriti, cobaltiti, litio metallo, batterie al litio, batterie di tipo litio ion, batterie litio polimero, pile a combustibile, sali fusi, scorie metallurgiche, metalli liquidi, titanio metallo, titania, scorie di titanio, diossido di titanio (TiO2), titanati, resistenza alla corrosione, metalli ferrosi (Fe, Co, Ni, Mn), ghisa ed acciaio, cobalto e leghe di cobalto, nichelio e leghe di nichelio, manganese, ferroleghe, ferrosilicio, ferrofosforo, ferrocromo, silico-ferromanganese, ferrovanadio, ferromolibdeno, ferrotungsteno, ferrotitanio, metalli non ferrosi (Al, Cu, Zn, Pb, Sn), alluminio e leghe di alluminio, rame e leghe di rame, zinco e leghe di zinco, piombo, stagno, metalli leggeri, metalli alcalini, metalli alcalino-terrosi, metalli refrattari (Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, W, Re), titanio e leghe di titanio, zirconio e leghe di zirconio, afnio e leghe di afnio, vanadio e leghe di vanadio, niobio e leghe di niobio, tantalio e leghe di tantalio, cromo, molibdeno e leghe di molibdeno, tungsteno e leghe di tungsteno, wolframio, renio e leghe di renio, metalli reattivi, metalli nobili e preciosi (Ag, Au), argento, oro, metalli del gruppo del platino (PGMs, Ru, Rh, Pd, Os, Ir, Pt), rutenio, rodio, palladio, osmio, iridio, platino, metalli di terre rare, scandio, ittrio, lantanio (Sc, Y, La), lantanidi, attinidi, uranidi (Th, Pa, U, Np, Pu) e curidi, uranio, torio, plutonio, metalli pesanti (Zn, Cd, Hg, In, Tl, Pb, Bi), mercurio, cadmio, non metalli, semi metalli, elementi metalloidi (Si, Ge, As, Sb, Se, Te), silicio, germanio, arsenico, antimonio, selenio, tellurio, semiconduttori, superconduttori, ceramiche industriali, refrattari, vetro e vetri tecnici, dielettrici, calamita, magnete duri, magnete dolci, minerali, giacimenti, rocce, suoli, meteoriti, metrologia, misure, unità di misura scientifiche, unità di misura, pesi e misura, fattori di conversione, tabelle di conversione, manuale metrico, sistema internazionale di unità, SI, unità derivate del SI, MKSA, sistema di Giorgi, sistema metrico, sistema US customary, unità di misura Americane, unità di misura degli Stati Uniti, unità di misura elettriche internazionali, IEUS, centimetro-grammo-secondo, CGS, emu ed esu, Gauss, MKpS, metro-tonnelata-secondo, MTS, piede-libbra-secondo, sistema di Stroud, FPS, unità imperiali, unità di misura Inglese, UK, unità atomiche, ua, vecchi sistemi di misura dell Antichità, sistemi nazionali di misura, metallurgia estrativa, pirometallurgia, idrometallurgia, scienze della terra, mineralogia, cristallografia, petrologia, petrografia, geologia, geofisica, geochimica, biologia, biochimica, medicina, isotopi stabili, primordiali, cosmogenici, artificiali, nucleidi, radionucleidi, radioattività, raggi x, radiazioni alfa, beta, gamma, neutroni, rivelatori nucleari, rivelatori a scintillazione, ciclo del combustibile nucleare, combustibile nucleare spento, radioattività naturale.