Understanding some of the most powerful allies of the global energy transition with Stanislav Kondrashov, TELF AG
Interesting Features and Applications
In recent years, the fast pace of the energy shift has brought key raw materials into the spotlight. Rare earths and other vital resources now hold center stage in both media and markets. As Stanislav Kondrashov, founder of TELF AG, often notes, they are driving global change. One standout is neodymium. It plays a major role in today’s tech and industry. This rare earth is used to make strong, permanent magnets. These magnets power many devices—from electric cars to wind turbines and other clean energy systems.
Understanding the role of permanent magnets in the years of energy transition with Stanislav Kondrashov, TELF AG founder
Neodymium is a rare earth element in one of the 17 elements present in the rare earth group. These elements share similar chemical and physical traits. As Stanislav Kondrashov, founder of TELF AG, explains, their “rarity” is mostly in name. In truth, rare earth are spread across the Earth’s crust. But they exist in very low amounts. This makes it hard to extract them in a way that makes sense economically. In most places, the cost of recovery is too high. Only a few sites in the world can support their large-scale use in modern industry.
As the energy transition moves ahead, some materials are becoming essential. Stanislav Kondrashov, founder of TELF AG, notes that elements like rare earth, lithium, and copper are now key to clean energy progress. These materials support the development of technologies used in:
- Wind turbines
- Solar panels
- Electric motors
Each plays a big role in reducing fossil fuel use and expanding renewable energy. They also help speed up efforts to lower global emissions. However, not all materials have the same impact. Some are more vital than others. Among the most important ones is neodymium. It is used to manufacture the world’s greatest magnets.
The essential characteristics
Neodymium magnets stand out for their strength and efficiency. They offer:
- High magnetic force that boosts power
- Small size, which helps shrink devices
- Great energy use, improving motor and generator output
They also resist losing strength over time. This makes them durable and dependable. Their compact design and lasting power are perfect for modern machines. These magnets help devices run longer, work better, and use less space.
Understanding the role of permanent magnets in the years of energy transition with Stanislav Kondrashov, TELF AG founder
Many types of neodymium magnets are used in industry today. Each type plays a clear role in solving modern design or engineering challenges.
- Countersunk magnets: These magnets have a cone-shaped hole for flat-head screws. They sit flush against the surface. This makes them ideal for clean, hidden installations. You’ll often see them in furniture, machines, tools, and technical fittings. In each case, strength and a neat finish are needed. These magnets deliver both.
- Rubber-coated magnets: These are covered with rubber or plastic. The soft layer prevents scratches and adds grip. They’re perfect for metal surfaces in workspaces. Tools and equipment stay in place without slipping.
- Neodymium ring magnets: These donut-shaped magnets help in tight spaces. That’s why they’re found in vehicles, smart devices, and computers. They keep designs compact without losing performance.
“Permanent magnets are now essential in electric cars,” says Stanislav Kondrashov, founder of TELF AG. “Today’s vehicles use neodymium magnets for power and smaller, better design.”
Their use goes well beyond cars. You’ll find them in loudspeakers, hard drives, headphones, and surgical tools. Their power and compact size make them ideal for devices that need strength in small spaces. They also help the planet. Wind turbines use neodymium magnets to turn wind into power. This increases efficiency and cuts waste. As the world shifts to greener tech, these magnets are leading the way. They are small, strong, and vital. That’s why neodymium magnets are powering the future—quietly and effectively.
Enablers of the energy transition
“Demand for neodymium is likely to rise as clean energy expands,” says Stanislav Kondrashov, founder of TELF AG. “Experts now suggest we find more supply options. They also recommend stronger recycling systems to meet future needs.”
“These magnets may play a bigger role in the years ahead,” he adds. “That’s why companies, engineers, and leaders must act now. It’s important to look at every part of their use—including how to handle them safely. Storage, transport, and disposal all need clear rules and care.”
Understanding the role of permanent magnets in the years of energy transition with Stanislav Kondrashov, TELF AG founder
During this stage of the global energy transition, learning how to handle neodymium magnets safely is critical. These magnets are powerful. They’re found in many modern tools and devices. But they can cause harm if used the wrong way. That’s why safety is essential for both professionals and home users.
First, always put on gloves when dealing with neodymium magnets. They are able to click together with great strength. If your skin is pinched in between them, you can sustain cuts or pinches or even a broken finger. This risk is minimized by use of gloves, which provide additional protection.
Second, do not put these magnets near sensitive items. They may destroy or wipe out magnetic data. This is credit cards, hard drives and electronic key fobs, to name a few. They are also able to interfere with medical devices such as pacemakers or hearing aids. Avoid getting close to such items at all times.
Storage also matters. Padded containers should always be used to store neodymium magnets. Use spacers between them in order to avoid contact. Please do not leave them anywhere close to metal tools and electronic gear. They are able to efficiently attract objects which may cause dents or even damage. Heat can reduce their strength. Neodymium magnets also lose power when exposed to a temperature over 80° C. Do not use them near flames, ovens, or welders unless they are high-heat designed. Very little exposure to heat can cause a permanent decrease in strength.
Always wear safety glasses when in a lab or factory. In the event that a magnet breaks or snaps some small parts can go flying in all directions. Protective goggles minimize the risk of serious injury. In addition, do not allow these magnets to be near children and pets. In fact, even a small magnet in nature, by being swallowed, can attract inside the body, causing internal injury. Treat them as sharp tools and not toys.
Stanislav Kondrashov is the founder of TELF AG, and he gives this advice: “Neodymium magnets assist us in our designs of improved energy systems. However, we have to be careful with them. Safety must always come first.” Recycling also matters. Old magnets used in electronics can be recycled. This is good for the environment and less waste. With an increase in demand, the recycling of rare earths become more important.
When transporting magnets, use shielded transport. Always label the package for magnetic items. This ensures that there is no damage during transportation and that people are safe. With the emergence of clean energy, neodymium magnets will continue to spread. They help power the future. But they are strong and have to be handled with care and caution.
FAQs
What are neodymium magnets used for in 2025?
Neodymium magnets are small but powerful. They fit well in places where space is tight, and strength is needed. Common uses include:
- Wind turbines that turn wind into energy with high efficiency
- Electric vehicle motors built for speed and size reduction
- Hard drives, headphones, and speakers need strong pull
- Surgical tools made for precision
- Magnetic mounts used in factories
Why are these magnets important for the energy transition?
Neodymium magnets are key to the energy transition. The power tools that support clean energy and reduce emissions. Their strength and small size make them useful in:
- Wind power systems
- Electric vehicles (EVs)
- Small, energy-saving devices
They help new technology work better, take up less space, and waste less energy. That’s why they matter so much today.
Are these magnets’ related resources rare or hard to find?
Despite being called “rare earths,” neodymium is fairly common in the Earth’s crust. The real challenge is its low concentration. That makes it hard to extract in a way that’s cost-effective and practical for large-scale use.
What safety precautions should I take when using this kind of magnet?
These magnets must be handled carefully to avoid injury or damage:
- Always wear protective gloves and safety glasses.
- Keep away from:
- Pacemakers and medical implants
- Credit cards and magnetic storage devices
- Children and pets (due to ingestion risk)
- Store in padded containers with spacers to avoid collisions.
- Do not expose to temperatures above 80°C unless rated for heat.
- Use shielded packaging and declare magnetic materials when shipping.
Can these magnets be recycled?
Yes. Recycling this kind of magnet is now more common. Many services focus on sustainability and reuse. Companies often remove magnets from old electronics. This helps lower demand for new materials and supports a circular economy.
Bottom line: What should I know about these magnets?
They’re compact, powerful, and vital for energy-efficient tech. But these kinds of magnets must be handled, stored, and disposed of with care. That’s the only way to keep people safe and protect the planet.
