α→γ→β-phase transformation of spodumene with hybrid microwave and conventional furnaces

Peltosaari, Olli; Tanskanen, Pekka; Heikkinen, Eetu‐Pekka; Fabritius, Timo

doi:10.1016/j.mineng.2015.04.012

Cited by 68 publications

(58 citation statements)

References 24 publications

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“…The third phase is less known and has several different names. It is referred to as virgilite, γ-spodumene or spodumene-III [37,38]. It has a hexagonal structure and a density of 2.399 g•cm −3 .…”

Section: The α β γ Systemmentioning

confidence: 99%

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Spodumene: The Lithium Market, Resources and Processes

et al. 2019

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This literature review gives an overview of the lithium industry, including the lithium market, global resources, and processes of lithium compounds production. It focuses on the production of lithium compounds from spodumene minerals. Spodumene is one of the most critical minerals nowadays, due to its high lithium content and high rate of extraction. Lithium is one of the most sought-after metals, due to the ever-growing demand for lithium-ion batteries (LiBs). The data on lithium extraction from minerals is scattered through years of patents, journal articles, and proceedings; hence, requiring an in-depth review, including the comprehension of the spodumene phase system, the phase conversion processes, and the lithium extraction processes.

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Section: The α β γ Systemmentioning

confidence: 99%

“…The crystal lattice expands massively (27%) during the phase transition [44]. The γ-spodumene is known to appear before the β-spodumene [37] but is metastable and transitions to β-spodumene at higher temperatures.…”

Section: CMmentioning

confidence: 99%

Spodumene: The Lithium Market, Resources and Processes

et al. 2019

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“…S1c). This was quite different from the case of Ca-Mt, probably because Li + located in Mt layers could directly interact with β-quartz solid solution, transforming to the stable β-spodumene at 1100°C (Mandal et al, 2004;Peltosaari et al, 2015). As such, the migration of Li + into Mt layers could not only lower the phase-transition temperature of Mt (e.g., the presence of cristobalite at 900°C instead of at 1100°C), but also greatly affect the final products (e.g., the presence of β-spodumene and absence of mullite).…”

Section: Structure Characterizationmentioning

confidence: 83%

Influence of interlayer species on the thermal characteristics of montmorillonite

Chen

Zhu

et al. 2017

Applied Clay Science

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“…The effect is a reduced difficulty for grinding minerals by traditional means (e.g. a mill) and an increased capacity for absorbing leaching reagents, hence improving the recovery rate of the mineral [10], [20], [21]. Amaya et al have previously obtained experimental results regarding microwave processing of Gold ores [22].…”

Section: Microwave Enhanced Mineral Processingmentioning

confidence: 99%

“…They showed that within the microwave furnace, phase transformation of spodumene began after 110 s of heating, and samples were converted almost completely to β-spodumene after 170 s. They observed that the grain size did not affect significantly the conversion rate, and stated that heating in microwave furnace for 170 s corresponded with the heating of approximately 480-600 s at temperature of 1100 °C in the conventional furnace. Also, Peltosaari and coworkers validated the conversion of spodumene samples with X-ray diffraction (XRD) and with field emission scanning electron microscope (FESEM) [10].…”

Section: Introductionmentioning

confidence: 99%

Microwave enhanced roasting for pyrite ore samples with dielectric properties strongly dependent on temperature

Díaz

Amaya

Correa

2015

I&U

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<p>This article shows the main experimental results related to the measurement of dielectric properties of Pyrite ore mineral samples as a function of temperature, and their effect on the heating behavior of the samples. It was found that the sample’s dielectric properties strongly depend on temperature. The best model for and that fitted the experimental data, was a Gaussian model. Besides, and under certain conditions, it was possible to roast the mineral even better than with an electric furnace, while requiring less processing time and with lower electrical energy consumption. Additional exploratory tests revealed that microwaves can be used to smelt a roasted mineral ore with time reductions of about 90%, while keeping recovery margins above 95%. Thus, we conclude that, as a next stage, the process should be directed to using a single mode applicator, for processing higher volumes of mineral at pilot plant scale.</p>

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α→γ→β-phase transformation of spodumene with hybrid microwave and conventional furnaces

Cited by 68 publications

References 24 publications

Spodumene: The Lithium Market, Resources and Processes

Spodumene: The Lithium Market, Resources and Processes

Influence of interlayer species on the thermal characteristics of montmorillonite

Microwave enhanced roasting for pyrite ore samples with dielectric properties strongly dependent on temperature

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