01240nam a2200265 i 450099100118087970753620020507112329.0940311s1972 ||| ||| | ||| b10184909-39ule_instLE00643499ExLDip.to Fisicaita53(082.2)53.3International Symposium on high energy and elementary particle physics463511Proceedings of the Second International Symposium on high energy and elementary particle physics :Strbske Pleso, CSSR, October 3-9, 1972 /Joint Institute for Nuclear ResearchDubna :Joint Institute for Nuclear Research,1972398 p. :ill. , cm.International Symposium on high energy and elementary particle physics ;2High energy physicsCongresses.b1018490917-02-1727-06-02991001180879707536LE006 53.3(042+082.2) STR12006000048026le006-E0.00-l- 00000.i1022706427-06-02Proceedings of the Second International Symposium on high energy and elementary particle physics190349UNISALENTOle00601-01-94ma -engxx 0104022nam 2200937z- 450 991059507070332120220916(CKB)5680000000080823(oapen)https://directory.doabooks.org/handle/20.500.12854/92166(oapen)doab92166(EXLCZ)99568000000008082320202209d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierValue of Mineralogical Monitoring for the Mining and Minerals Industry In memory of Prof. Dr. Herbert PöllmannBasel20221 online resource (164 p.)3-0365-4893-9 3-0365-4894-7 This Special Issue, focusing on the value of mineralogical monitoring for the mining and minerals industry, should include detailed investigations and characterizations of minerals and ores of the following fields for ore and process control: Lithium ores-determination of lithium contents by XRD methods; Copper ores and their different mineralogy; Nickel lateritic ores; Iron ores and sinter; Bauxite and bauxite overburden; Heavy mineral sands. The value of quantitative mineralogical analysis, mainly by XRD methods, combined with other techniques for the evaluation of typical metal ores and other important minerals, will be shown and demonstrated for different minerals. The different steps of mineral processing and metal contents bound to different minerals will be included. Additionally, some processing steps, mineral enrichments, and optimization of mineral determinations using XRD will be demonstrated. Statistical methods for the treatment of a large set of XRD patterns of ores and mineral concentrates, as well as their value for the characterization of mineral concentrates and ores, will be demonstrated. Determinations of metal concentrations in minerals by different methods will be included, as well as the direct prediction of process parameters from raw XRD data.History of engineering and technologybicsscMining technology and engineeringbicsscTechnology: general issuesbicsscamblygoniteartificial intelligenceavailable aluminabaritebauxitebauxite overburdenBelterra Claybeneficiationchalcopyritecluster analysisclusteringcopper flotationflotationframboidal pyriteheavy mineralsilmeniteindustrial applicationlepidolitelithiummachine learningMagneli phasesmineralogical analysismineralogical quantificationmineralogyminingn/anickel lateriteore blendingore sortingpetalitePLSRprocess mineralogyquantificationreactive silicarietveldRietveldRietveld analysisspecific gravityspodumenesulfide mineralstitania slagtriphyliteXRDzinnwalditeHistory of engineering and technologyMining technology and engineeringTechnology: general issuesPöllmann Herbertedt1311309König UweedtPöllmann HerbertothKönig UweothBOOK9910595070703321Value of Mineralogical Monitoring for the Mining and Minerals Industry In memory of Prof. Dr. Herbert Pöllmann3030227UNINA