THE MAGNETITE ORE PROCESSING PROJECT IN GUA MUSANG, MALAYSIA

Processed Material:  Magnetite Ore

Mine Method:   Surface

Product Size:   0-10,10-50mm

Work Time:   10h

Ore Density:   2.6t/m³

Capacity:   4500t/d

Grade:   53.8%

The evaluation by customer: Because of our high requirements for final particule granularity, I have followed the views of LIMING engineer with a two-stage crushing - a PE Jaw Crusher for primary crushing and two Hydraulic Cone Crusher HST160 for secondary crushing. Quite stable performance, also the production makes me satisfied. To my most pleasant surprise, the intelligent operation of machine has saved me a lot of time and also costs.



INFO REQUEST

Thank you for your interest in LM Heavy Industry. If you want to learn more about our Crushers and Industrial grinding mills, Contact us Now to find out what we can do for you next project !

  • Latin Resources Ltd secures option over lithium extraction technology

    Oct 5, 2017 READ: Latin Resources identifies high-grade lithium at newly acquired Geminis Mine. The successful development of the lithium carbonate technology would then enable Latin to provide the full value chain of processing hard rock to spodumene concentrate to lithium carbonate for the expanding global 

  • Processing Spodumene by Froth Flotation for Lithium Extraction

    Mar 19, 2017 The selective separation of gangue minerals requires acid proof equipment, which is described more fully in Flowsheet Study on Feldspar. Fatty acid or soap flotation of spodumene is one well established recovery method, but pulverized or ground particle surface conditions generally necessitate 

  • Chapter 2. Literature Review - Albert-Ludwigs-Universität Freiburg

    Processing of Vietnamese lithium ores to produce LiCl. Thesis submitted in degree Doctor rer. nat. of the. Faculty of Environment and Natural Resources,. Albert-Ludwigs-Universität. Freiburg im Breisgau, Germany. By. Dinh, Thi Thu Hien. Freiburg im Breisgau, Germany . 13. 2.2.2.1. Lithium recovery from spodumene .

  • Lithium Australia reveals hydromet process breakthrough , ASX:LIT

    Feb 22, 2016 Lithium Australia NL (ASX:LIT) - The process could transform low-grade spodumene occurrences into viable ore as, due to lower projected operating costs, it is less sensitive to feed grade.

  • Lithium Australia NL receives break-through from Sileach™ pilot plant

    Oct 4, 2016 Lithium Australia is intentionally concentrating on the lower-grade, hard rock products, from which no other processes can recover lithium commercially. The supply of spodumene concentrate by Pilbara Minerals is part of a prior agreement. Subject to the success of pilot testing of concentrates, the parties 

  • Lithium Pilot Plant Processing: ANZAPLAN

    ANZAPLAN uses its in-house technical center and innovative machine manufacturer's equipment for tailor-made process development and to provide samples for end user approval. The ANZAPLAN bench scale and pilot plant processing facilities cover the full value chain of lithium minerals processing from the 

  • Lithium Extraction Techniques - A Look At The Latest Technologies

    Jul 14, 2016 History of lithium processing summarized. Lithium is processed from: Brine - Using evaporation (18 months), then leaching. Costs are about USD 2,000/tonne of LCE. Slow process time, low (40-50%) lithium extraction rate, high start up costs. Spodumene - Using crushing, roasting, leaching. Costs about 

  • Latin Resources Ltd secures option over lithium extraction technology

    Oct 5, 2017 READ: Latin Resources identifies high-grade lithium at newly acquired Geminis Mine. The successful development of the lithium carbonate technology would then enable Latin to provide the full value chain of processing hard rock to spodumene concentrate to lithium carbonate for the expanding global 

  • Lithium Australia NL's SiLeach® process confirmed as novel and

    Jan 12, 2018 The company is on track to approve the construction of a large-scale SiLeach® pilot plant (LSPP) in early 2018 and has recently stated its intention to fund construction off its own balance sheet. Notably, pilot-testing of SiLeach® produced battery-grade lithium carbonate from sub-spec spodumene and 

  • Lithium Australia NL commits to building large-scale SiLeach® pilot

    Feb 1, 2018 Lithium Australia NL (ASX:LIT) has demonstrated confidence in its SiLeach® lithium recovery technology by committing to build a large-scale pilot plant. The company has moved quickly by approving the front-end engineering and design (FEED) process and is procuring long-lead equipment. It aims to 

  • Chapter 2. Literature Review - Albert-Ludwigs-Universität Freiburg

    Processing of Vietnamese lithium ores to produce LiCl. Thesis submitted in partial fulfillment of the requirement of the degree Doctor rer. nat. of the. Faculty of Environment and Natural Resources,. Albert-Ludwigs-Universität. Freiburg im Breisgau, Germany. By. Dinh, Thi Thu Hien. Freiburg im Breisgau, Germany. 2015 

  • Sayona Mining Ltd starts pilot plant tests to produce lithium

    Feb 15, 2018 Pilot plant testing will help finalise the flowsheet and processing parameters for spodumene concentrate production developed during the pre-feasibility study. It will also produce engineering data for equipment sizing and plant design. Spodumene concentrate generated will be used for downstream lithium 

  • Neometals Ltd shows lithium hydroxide potential from patented

    Jul 11, 2016 Neometals owns 70% of the ELi Process which converts spodumene concentrate into high value battery grade lithium hydroxide and lithium carbonate. The current market for battery grade lithium hydroxide and lithium carbonate is in tight supply due to high demand growth and constrained supply.

  • Processing Spodumene by Froth Flotation for Lithium Extraction

    Mar 19, 2017 The selective separation of gangue minerals requires acid proof equipment, which is described more fully in Flowsheet Study on Feldspar. Fatty acid or soap flotation of spodumene is one well established recovery method, but pulverized or ground particle surface conditions generally necessitate