The principal feedstocks for titanium dioxidetitanium dioxide production. Titanium dioxide is employed as pigment with the manufacture of paints, Titanium dioxide is applied as pigment for the manufacturefor paints, coatings and plastics coatings and plastics and alsosuch as pharmaceutical, paper, cosmetics (e.g., Charybdotoxin Potassium Channel sunscreen), as well as in other applications in other applications for example pharmaceutical, paper, cosmetics (e.g., sunscreen), toothpaste, inks and fibres. be used dioxide can applications toothpaste, inks and fibres. Titanium dioxide can Titanium in specialistbe employed in specialist applications such as welding rods plus the production of titanium metal for industrial and which includes welding rods along with the production of titanium metal for industrial and aerospace aerospace applications. applications. IEM-1460 medchemexpress Zircon is used within the manufacture of ceramic merchandise like tiles, sanitaryware Zircon is used within the manufacture of ceramic solutions which includes tiles, sanitaryware and tableware, and as an opacifier in surface glazes and pigments. Zircon is also the and tableware, and as an opacifier in surface glazes and pigments. Zircon can also be the primary primary element within the production of zirconium chemical compounds employed in antiperspirants, paper element in the production of zirconium chemical substances applied in antiperspirants, paper coatcoatings, paint driers and catalysts. Zircon also can be used as foundry sand, cathode ray ings, paint driers and catalysts. Zircon also can be employed as foundry sand, cathode ray tube tube tv glass and in refractories. television glass and in refractories. Most garnet is mined for industrial uses such waterjet cutting purposes, abrasive Most garnet is mined for industrial uses such waterjet cutting purposes, abrasive blasting media, water filtration granules and abrasive powders. blasting media, water filtration granules and abrasive powders. The objective from the 3 case research in this paper is to demonstrate that X-ray The objective from the 3 case research in this paper would be to demonstrate that X-ray difdiffraction (XRD) is usually utilized as quickly and trustworthy procedure handle tool for heavy mineral fraction (XRD) can concentration and beneficiation. control tool for heavy mineral sand sand be used as fast and reliable approach concentration and beneficiation. two. Components and Strategies two. Components and Solutions The three case studies kind part of the standard method flow for the extraction of TiO2 The three caseheavy mineral sands. Case study I describes the monitoring of your concentration from research type a part of the typical procedure flow for the extraction of TiO2 from heavy mineral sands. Case study I describes the cluster analysis. Case study II demonstrates the of heavy mineral sands applying statistical monitoring of the concentration of heavy mineral sands employing statistical cluster evaluation. Case study II demonstrates the minmineralogical quantification of the various material streams in the course of separation of the eralogical quantification in the different material streams in the course of separation of your variousMinerals 2021, 11,3 ofvarious heavy minerals. The usage of XRD for process handle throughout ilmenite smelting is discussed in case study III. 2.1. Samples and Sample Preparation For case studies I and III, samples were prepared as pressed pellets making use of automatic sample preparation equipment for minimized preferred orientation and to assure a continual sample preparation high quality. All powder samples had been milled for 30 s and pressed for.