Magnets in the manufacturing

Magnetic Balls

Neodymium Magnetic Balls – The Best Thing to Wear on a Halloween Or Science Fair Project

Neodymium Magnetic Balls

Neodymium magnetic balls are not your ordinarymagnetic balls. It is a special type of magnetic energy generation device, which allows you to generate a continuous flow of magnetized energy within a confined space. The unique feature of this energy generation system is that it does not need any external power supply, such as cords or batteries to keep working. This is the main advantage of these balls over other similar magnetic energy generation devices, such as perpetual motion machines or perpetual motion turbines. For one thing, the Neodymium magnetic balls can be moved virtually in any direction with zero resistance, and it is also capable of reaching extremely high speeds.


The use of neodymium spheres is not a new concept. In fact, many scientists have been using these rare earth magnets for years in their research and experiments on how to create perpetual motion machines that could revolutionize industries. According to the official website of the company, the neodymium magnetic balls are created using rare earth elements. Each magnet is crafted with a 10-micron control layer, which allows them to easily emit alternating magnetic fields. When these spheres are moved by an operator inside a magnetic energy generator, they generate a continual flow of magnetized energy inside a confined space.


Aside from generating an endless flow of magnetic energy within a confined space, the Neodymium Balls are also being used to encase valuable objects within a magnetic field, such as watches, jewelry, and even spaceships. These special balls are encased in a metallic tube that contains a small amount of gold. The Neodymium Company claims that this type of encapsulation process produces a highly stable magnetic field, which is essential for the efficient performance of such delicate objects. However, critics and scientists claim that the Neodymium Balls lacks a sufficient level of strength to be used in the construction of commercial products.


Neodymium Bar Magnets

Neodymium Bar Magnets – What You Should Know Before Buying Them

Neodymium Bar Magnets

Neodymium Bar Magnets is the most popular magnetic materials used by professionals, as well as individuals at home. The most powerful Neodymium Block magnets (also shown on this page) typically come in several sizes. From less than an inch across to nearly two inches wide, Neodymium Bar Magnets range in size quite substantially.


Neodymium bar magnets can be used for a variety of purposes. They are most commonly used to strengthen and re-align metal objects, such as; ships anchors and poles, car wheels and hub caps, nuts and bolts, and even bicycles. In addition, they are sometimes used to hold small electrical components, such as; car starter motors, wall connectors and screws. Even though this is their primary use, they can be also used to hold nails, or for artistic purposes. In fact, some people make their own neodymium bar magnets to enhance their creativity. In addition, these small strong magnets can be useful when trying to pick the correct size screwdriver to use!

Magnetic Balls have a unique set of uses in everyday life as well as high tech industry. The same Magnetic Spheres used in medical equipment and alarms for swimming pools (keeping chilldren safe) can be used for arts and cfrafts DIY projects , storage , and as magnet toys. In fact magnetic toys are becoming quite the rage

In order to help you pick the best neodymium bar magnets for your needs, it is very important to take a moment to look at the size specifications that each product offers. It’s important that the product you choose is within the 0.50 inch to 0.25 inch size range to ensure the magnets are strong enough to hold their jobs. There are also a number of magnetic products within the 0.25 inch size range, which are much more powerful than the ones listed above. When picking your next neodymium bar magnet, it’s important to remember to look at the size specifications first, before considering how much force they will be able to generate.