采矿
浮选集尘器、抑制剂、起泡剂、脱水助剂和其它工艺助剂
采矿
浮选集尘器、抑制剂、起泡剂、脱水助剂和其它工艺助剂
Harness our mineral processing expertise through the application of our optimized chemical solutions
We help maximize the performance of your mining chemicals by applying our world-class technical and application expertise to the design of our solutions.
Building on more than 80 years of experience in designing mineral processing chemicals for mining applications, we closely collaborate with our customers to customize solutions that fit each individual ore.
Our product portfolio includes flotation collectors, frothers, and depressants such as NaSH and carboxymethyl cellulose (CMC); dewatering and anticaking processing aids; sulfidizing agents; hydrometallurgical oxidizing agents; organic peroxides; and thermoplastic microspheres.
We can also support you in reducing environmental impact while enhancing your rate of recovery for minerals such as potash, iron ore, phosphate apatite, sulfide, calcite, and more.
Contact us using the form below to learn more.
Product lines for this market segment
Our anionic surfactant product family offers superior benefits in mineral processing like wetting, foaming, surface tension reduction and dispersancy.
High-performance additives in froth flotation and pelletization.
Our cationic surfactants, fatty amines and their derivatives are applied in several mining applications, such as flotation agents, frothing modifiers and anticaking.
Expancel microspheres are extensively used as sensitizers in industrial explosives. Coal, metal and quarry mining operations around the world rely on this product to maximize their performance.
Non-ionic surfactants perform a wide range of functions, from wetting and emulsification to foam stabilization.
Sulfur-based products like NaSH are widely used in mining applications as an efficient copper depressor and sulfidizing agent promoting enhanced performance in sulfide flotation.
Synthetic polymers are useful for a variety of mining applications, including dispersion, flocculation and coagulation.