Research Industries Served

Pulsed power products have been around for quite some time, but they are increasingly becoming more popular in the research industry. There are many reasons for this, but the chief among them is that it provides many advantages for high-power systems.

Some of these advantages include more efficient utilization of resources, lower costs, and less environmental impact than older model direct drive systems. In addition, pulsed power systems can also be used to create new and innovative research designs that were impossible with traditional approaches.

It is no wonder that more and more researchers are turning to pulsed power products for their needs. If you are considering switching to pulsed power, get in touch with the experts at Stangenes Industries.

Role of pulsed power in the research industry

Pulsed power is a type of electrical power generation characterized by short, high-energy bursts of electricity. It has many applications, from powering electronic devices to providing energy for medical procedures such as imaging and radiation treatment. In the research industry, pulsed power is applicable for various purposes, including studying the effects of electromagnetic pulses (EMP) on materials and equipment, powering linear accelerator technologies, and simulating nuclear explosions.

Pulsed power is also used in ion implantation, in which ions are accelerated to high speeds and then directed at a target material. This process creates thin films and coatings with desired properties. For example, ion implantation can create wear-resistant or corrosion-resistant surfaces. It can also modify the electronic properties of materials, making them better suited for semiconductor devices.

Pulsed power is also finding increasing use in the field of renewable energy. For instance, pulsed power can store energy in flywheels, generating electricity when needed. Pulsed power can also produce high-voltage electrical pulses to drive motors, electromagnets, and other devices. In the future, pulsed power may play an essential role in developing new renewable energy sources.

Our impact on the research industry

Pulsed power is a growing field with many applications in the research industry. One of the most exciting uses for pulsed power is in linear accelerators. Linear accelerators are devices that accelerate particles to high speeds using electric fields. Pulsed power can be used to create these electric fields, as well as generate focused magnetic fields in electromagnets, making it a vital technology for accelerator research.

Stangenes Industries’ contributions to the research industries

Stangenes Industries, Inc. has been responsible for many breakthroughs in science and technology, and its contributions to the research industry are invaluable.

Here are some of the benefits of our pulsed power designs:

  • Pulsed power can generate powerful X-rays and other forms of radiation, which are essential for research in fields like medicine and material science.
  • Our team of knowledgeable engineers and mechanical designers has developed many custom solutions as well as complete production electromagnets, modulators, and power supplies.
  • Newer solid-state systems are more efficient than older gas-based technology, meaning that research facilities can save money on energy costs by using this technology

We are the leaders in the research industry.

Are you looking for a trusted partner in the pulsed power industry? We have comprehensive options depending on your industry needs, providing innovative solutions to businesses and organizations worldwide for years.

Our products are key to many successful tests in linear and circular accelerators in the research industry, and we’re constantly developing new solutions to meet the changing needs of our customers. Whether you’re looking for a custom solution or a ready-to-use product, Stangenes Industries is your go-to source for all your pulsed power needs.

Contact us today to learn more about our solutions. We look forward to serving you now and into the future.