At present, there are various methods for beneficiation of manganese ore, including gravity separation, heavy medium-high intensity magnetic separation, roasting-high intensity magnetic separation, single high intensity magnetic separation, flotation and the combined application of multiple methods.

Titanium zircon sand ore is an important mineral resource, mainly composed of coastal sand ore and inland sand ore, which is formed by natural weathering and enrichment. These ores are not only easy to mine, but also have high recovery value. This article will explore the beneficiation process of titanium zircon sand ore in depth, focusing on the process and equipment in the two stages of roughing and concentrating.

According to the differences in physical and chemical properties between rare earth minerals and associated minerals, the beneficiation of rare earth minerals usually adopts a variety of technical means such as radiation beneficiation, gravity beneficiation, magnetic separation, flotation, electrostatic separation and chemical beneficiation.

Scheelite is an important tungsten resource, and its mineral processing technology is crucial in mineral development. Among them, heated flotation and normal temperature flotation are two commonly used flotation technologies for treating scheelite. Each flotation technology has its own characteristics.

Copper oxide ore is an important copper resource. Especially when copper sulfide ore is gradually decreasing, the rational development and utilization of copper oxide resources becomes particularly important. The development of copper oxide ore can not only effectively improve the utilization rate of mineral resources and alleviate the shortage of copper resources, but also provide an important source of raw materials for copper production.

Limonite is a complex and difficult-to-benefit iron ore. Due to its low iron content and complicated ore beneficiation process, it has long faced greater challenges in the field of beneficiation. However, with the gradual reduction of high-grade, easy-to-benefit iron ore resources, efficient limonite ore beneficiation technology has become the main direction of research.

The entire copper-molybdenum ore beneficiation process includes multiple links such as crushing, grinding, and flotation. Each link has an important impact on the final concentrate quality and recovery rate. Understanding and mastering the beneficiation process of copper-molybdenum ore will not only help improve the processing efficiency of ore, but also maximize the recovery rate of copper and molybdenum and realize the rational use of resources.

As an important mineral separation technology, magnetic separation can not only effectively improve the recovery rate of non-ferrous and rare metal ores, but also optimize resource utilization and reduce production costs. Especially in the selection process of heavy-selection rough concentrates such as vein tungsten ore, vein tin ore, placer tin ore and seashore placer ore, magnetic separation technology has demonstrated its excellent separation ability.

Due to the different physical and chemical properties of these iron ores, the efficiency of separation and extraction of iron is also different. Therefore, it is particularly important to apply corresponding beneficiation processes for different types of iron ores, so as to ensure the improvement of iron recovery rate under the premise of economic and environmental protection.

Quartz beneficiation mainly depends on the differences in physical and chemical properties between quartz and its associated minerals and impurities, including hardness and particle size control, magnetic differences, whether it is soluble in acid solutions, and differences in floatability. Through reasonable beneficiation technology, quartz can be effectively separated from impurities to improve the purity and quality of quartz minerals.

The beneficiation methods and processes of titanium-zirconium ore are affected by factors such as deposit type, ore properties and mineral composition. In particular, titanium primary ore (vein ore) has similar ore properties and a relatively single type of target mineral, so its mineral processing methods show significant commonalities.

As an important raw material for the manufacture of new energy batteries, lithium ore is widely used in various industrial fields. Spodumene, lepidolite, ferrolithium mica and petalite are commonly used lithium raw materials in industry. These lithium minerals are distributed in different types of deposits, and their beneficiation methods are different, depending on the distribution of minerals and the complexity of associated minerals.