Neodymium Iron Boron
With the widespread application of neodymium iron boron magnets in new energy vehicles, wind power generation, medical equipment, and other fields, the production of neodymium iron boron waste is gradually increasing. The draft of the "Rare Earth Management Regulations" issued by the Ministry of Industry and Information Technology clearly states the encouragement of the recycling of secondary resources containing rare earth elements using green and environmentally friendly technologies.
In this context, the recycling of neodymium iron boron waste is particularly crucial. Not only does it align with the national policies of resource conservation and environmental protection, but it is also a key approach to achieving the sustainable development of rare earth resources.
Extraction process for neodymium iron boron waste
Neodymium iron boron primarily consists of the rare earth element neodymium (Nd), iron (Fe), and boron (B), with neodymium being the predominant rare earth element. The production process of neodymium iron boron magnetic materials often generates a significant amount of waste. In order to promote green development, prevent unnecessary depletion of rare earth resources, and mitigate industrial pollution, the proper disposal of neodymium iron boron waste becomes crucial.
Robust strength, Repeat purchase
SBM initiated the neodymium iron boron powder production project in collaboration with the customer in 2015. The project employed the main equipment, MTW Series European Trapezium Grinding Mill (MTW Raymond Mill). Over the years, this equipment has delivered significant economic benefits to the customer through its reliable operational performance, sustained high productivity, and efficiency. Its outstanding performance has gained full recognition from the customer.
Based on the successful initial collaboration, the customer, without hesitation, opted for SBM's MTW European Trapezium Grinding Mill once again when planning to expand their production capacity. Recently, the upgraded production line has been successfully installed and commissioned, poised to commence full-scale production. It is expected to inject new momentum into the customer's business growth.
Project Summary
With the widespread application of neodymium iron boron magnets in new energy vehicles, wind power generation, medical equipment, and other fields, the production of neodymium iron boron waste is gradually increasing. The draft of the "Rare Earth Management Regulations" issued by the Ministry of Industry and Information Technology clearly states the encouragement of the recycling of secondary resources containing rare earth elements using green and environmentally friendly technologies.
In this context, the recycling of neodymium iron boron waste is particularly crucial. Not only does it align with the national policies of resource conservation and environmental protection, but it is also a key approach to achieving the sustainable development of rare earth resources.
Extraction process for neodymium iron boron waste
Neodymium iron boron primarily consists of the rare earth element neodymium (Nd), iron (Fe), and boron (B), with neodymium being the predominant rare earth element. The production process of neodymium iron boron magnetic materials often generates a significant amount of waste. In order to promote green development, prevent unnecessary depletion of rare earth resources, and mitigate industrial pollution, the proper disposal of neodymium iron boron waste becomes crucial.
Robust strength, Repeat purchase
SBM initiated the neodymium iron boron powder production project in collaboration with the customer in 2015. The project employed the main equipment, MTW Series European Trapezium Grinding Mill (MTW Raymond Mill). Over the years, this equipment has delivered significant economic benefits to the customer through its reliable operational performance, sustained high productivity, and efficiency. Its outstanding performance has gained full recognition from the customer.
Based on the successful initial collaboration, the customer, without hesitation, opted for SBM's MTW European Trapezium Grinding Mill once again when planning to expand their production capacity. Recently, the upgraded production line has been successfully installed and commissioned, poised to commence full-scale production. It is expected to inject new momentum into the customer's business growth.
Project Summary
- Raw Material: Neodymium Iron Boron Waste
- Final Particle Size: 300 mesh
- Final Product Application: Rare Earth Materials
- Equipment Used: MTW European Trapezium Grinding Mill
Green and Environmentally Friendly, Powering the Reutilization of Neodymium Iron Boron
The grinding and processing of neodymium iron boron waste is a crucial step in the recycling process. Through the fine grinding process using SBM's MTW European Trapezium Grinding Mill, uniformly sized and high-purity rare earth oxides or rare earth metal powders can be obtained. The MTW European Trapezium Grinding Mill meets the high standard material requirements of the high-end manufacturing industry.
MTW European Trapezium Grinding Mill is a piece of equipment developed by SBM, drawing on over thirty years of technological accumulation and integrating advanced European milling concepts. It is continuously innovated and iteratively designed, possessing multiple proprietary patented technologies. It is suitable for applications in power plant desulfurization, non-metallic ore powder production, as well as the fields of building materials and chemical engineering.
Technological advantages of MTW European Trapezium Grinding Mill
Technological iteration, mature and stable equipment
With nearly forty years of experience in grinding machine manufacturing, SBM has iteratively upgraded its fourth-generation powder mills, leading the industry in technology and ensuring stable equipment operation.
Special grinding design, high grinding efficiency
By adopting a curved shovel blade design, the working area for material grinding is increased, thereby improving the efficiency of powder milling.
Integral conical gear transmission, reduced energy consumption
By using integral conical gear transmission and a resistance-free air intake volute design, the material flow is improved and energy consumption is lowered.
Thin oil lubrication, extended bearing life
Both the main shaft drive system and the fan drive system of the equipment adopt thin oil lubrication, which reduces lubrication resistance compared to traditional grease lubrication methods, resulting in lower oil temperature and effectively extending the bearing life.
New type of frequency-controlled powder classifier, high product accuracy
Using a new type of hanging cage-type powder classifier with frequency control, the fineness can be adjusted and controlled, meeting the requirements for various particle size specifications.
Negative pressure operation, environmentally friendly and pollution-free
The equipment operates in a sealed negative pressure system, preventing dust from overflowing and meeting national environmental standards.
