About TL Magnets
Tongli Magnetics Co., Ltd. was established in 2010.
The material production base is located in Ganzhou Economic and Technological Development Zone, Jiangxi Province.
The factory area is 8,000 square meters, with 100 employees. The product development, processing and assembly workshop, and electroplating workshop are located in Humen Town, Dongguan City.
There are 120 employees. We have been professionally committed to the research and development, production and sales of high-quality NdFeB strong magnets for many years.
Annual production of 2,000 tons of sintered NdFeB permanent magnet materials, and provide customers with high-quality magnet design solutions.
mission
Pursuing material innovation, providing magnetic group solutions, and contributing to the development of green technology.
Vision
To become a leading brand in the global magnetic material industry
Values
Integrity, gratitude, responsibility, professionalism, win-win situation
Philosophy
Customer First, People Oriented, Insist on Quality, Continuous Innovation, Learning & Growing
Complete in-house production chain
Through 12 years of continuous operation, TL Magnets has a complete industrial chain with rare earth sintering plant, automated processing plant, environmentally friendly plating plant, and magnet assembly plant, which ensures that Tongli Magnets has an ideal advantage in the industry in terms of delivery time, quality, and unit price.
Research and Development Capability
TL Magnets has 12 R & D senior engineers to conduct in-depth research on magnetic materials, according to customer requirements to provide professional module design and program, in recent years, we have obtained nearly 100 patents, the research of magnetic materials Tongli has been to maintain the front-end advantage of industry technology.
Quality Assurance
TL Magnets has a perfect laboratory test equipment, can meet all the design testing and verification, 5 ISO system to ensure the stability of the quality of the landing (ISO900, ISO14001, TS16949, SA8000, QC08000), all the products through 100% automatic inspection, to ensure that the quality of “zero” defects. All products are 100% automatically inspected to ensure “zero” defects.
Smart Factory
The production automation is constantly introduced, independent research and development of multi-functional secondary processing equipment, while the introduction of Japan’s high precision machining equipment to meet the customer’s various special shape and size precision requirements.MES system set up to maximize the realization of the process of control, so that automated equipment data management in real time.
Rapid Response
TL Magnets has established its own series of standardized products according to the characteristics of the industry, currently there are more than 2,000 specifications of standardized products with multiple applications and specifications, which can provide customers with samples quickly to achieve the purpose of saving the cost of product development, and product development cycle.
motor magnets mainly include the following types:
This is a common shape for motor magnets, particularly suitable for DC motors and magnetic rotors.
Arc magnets can reduce the air gap between the magnet and the stator, improving magnetic efficiency and overall motor performance.
This category includes Samarium Cobalt (SmCo) and Neodymium Iron Boron (NdFeB) magnets.
Rare earth magnets are 2 to 3 times stronger than ferrite or ceramic permanent magnets, allowing for smaller, lighter motors with higher performance.
Samarium Cobalt magnets have good corrosion resistance and temperature resistance, making them suitable for high-temperature motor applications.
Neodymium Iron Boron magnets are among the strongest types of magnets, but they are prone to corrosion and require protective coatings.
Compared to rare earth magnets, ferrite magnets have lower energy consumption, stronger resistance to demagnetization, and better corrosion resistance, with a lower cost.
They are the most commonly used magnets in most types of DC motors.
These types of magnets have a wide range of applications in the motor manufacturing industry, with each type of magnet having its unique characteristics and applicable scenarios.
ong the strongest types of magnets, but they are prone to corrosion and require protective coatings.
The wireless charging magnets can be redefined based on their functions, applications, and design features. Here are some main categories:
– Circular Wireless Charging Pad Magnets: Used in the center of a wireless charging dock to generate a stable magnetic field.
– Opposite Pole Magnets: Used in pairs in wireless charging transmitters to form a closed magnetic field loop.
– Built-in Phone Magnets: Integrated into smartphones or other portable devices to receive wireless charging signals.
– Removable Receiver Magnets: Attachable to devices to enable wireless charging functionality.
– Positioning Guide Magnets: Help align and position the device correctly on the wireless charger.
– Automatic Attraction Magnets: Ensure a strong adhesion between the device and the charger, improving charging efficiency.
– MagSafe Compatible Magnets: Used in wireless charging accessories that are compatible with Apple’s MagSafe technology.
– Phone Case Magnets: Integrated into phone cases to provide protection and enable wireless charging.
– Shaped Wireless Charging Magnets: Custom-designed magnets for specific devices or applications, such as tile-shaped, U-shaped, ring-shaped, etc.
– High-Performance Magnets: Made from NdFeB or SmCo materials, offering a stronger magnetic field and more efficient charging performance.
These specialized products reflect the diversity and flexibility of wireless charging magnets in design and application, playing a crucial role in ensuring the safety, efficiency, and convenience of wireless charging devices.
shaped magnets include a variety of shapes and types. Here are some common examples:
These magnets are shaped like tiles and are commonly used in motors and generators.
Spherical magnets that are suitable for applications requiring a uniform magnetic field distribution.
Standard cube-shaped magnets with a wide range of applications.
Cylindrical magnets often used in various sensors and motors.
Large-sized ring magnets used for special applications.
U-shaped magnets suitable for specific magnetic field requirements.
Magnets with countersunk holes for easy installation and fixation.
These shaped magnets are widely used in various products and fields such as headphones, connectors, sensors, wireless charging devices, etc.
They are custom-designed based on specific application requirements to adapt to different spaces and functional needs.