Press Release



(Press Release, November 2009)

No Metal: Amazing air motors made from ceramic materials


Developed for Magnetic resonance imaging (MRI)


To generate growth and expand market positioning requires a continued flow of new ideas

It is a company's staff that makes it more successful than its competitors; manpower is the decisive factor which results in constant development and realization of new and innovative ideas. Highly motivated employees who provide a combination of creativity and knowledge make all the difference. Growth and expansion of a market position begins with a key person driving the ideas factory within the company.

Germany's machine industry is extremely competitive. It is a race to bag the order as companies compete to provide the most suitable solution, quickly and flexibly, designed to fit the customer's application and all that at a great price. Mid-size businesses such as DEPRAG SCHULZ GMBH & CO. KG rely on the inventiveness and expertise of their engineers

The internationally renowned specialist for air motors offers a uniquely diversified standard program. However, “85 % of all our projects are special solutions states Product Manager Dagmar Dübbelde. We individually adapt the air motors from our catalogue to fit our clients' specific requests. We are able to develop special motors at low-cost prices because of our modular system. The spectrum ranges from single air motors to fully automatic production systems. Creativity and customer focus are therefore very important to us.”

One particular challenge set to DEPRAG's Development Department was a request from a research center to investigate the possibility of a completely non-metal air vane motor. Gerd Zinn, the Manager of Serial Machine R & D Department remembers: “This motor was needed for diagnostics in an MRI system where the use of any metal would cause interference with the operating system and it was therefore not a suitable material for the application“.

His team went to work, drawing on their knowledge from decades of developmental projects involving air motors. What was created sounds amazing: An air motor made from ceramic- and synthetic materials, which does not contain a single piece of metal. The prototype of the ceramic motor has a diameter of 40 mm and is only 78 mm in length. The motor achieves a power output of 36 W and a speed of 9,000 rpm at an air pressure of 6 bar.

This motor is suitable for applications where the use of metal is out of the question. The magnetic resonance imaging (MRI) system, a modern and particularly un-invasive process of medical diagnostics is an example of this kind of application. An MRI machine is in principle a large circular magnet which contains a specially shielded area within it. The patient is driven horizontally into the “tunnel”. The MRI generates layer images, 3D data and films by creating a magnetic field which covers the body and transmits intangible radio waves through the body.

The field of Radiology is now unimaginable without the MRI scan (also known as nuclear magnetic resonance), which provides excellent images of all areas of the body. It offers unparalleled soft tissue contrast which allows detailed analysis of all organs and regions of the body. All tissue with high water or fat content can be portrayed in detail by the MRI without use of intravenous contrast agents. Diagnostically valuable information can also be gathered about bones despite their comparatively low water content.

The image contrast is based on the concentration of protons (hydrogen ions) in the tissue, the magnetism of particles from outside through the magnetic field and the de-magnetism (relaxation) after the stimulus through the radio frequency impulses. Low energy radio waves comparable with those transmitting radio programs are used. In contrast to X-rays which could theoretically have an effect on the body. Magnetic fields and - radio waves are not harmful. This allows safe and unlimited repeat examinations to be carried out for clinical follow-up and therapy monitoring

The use of an MRI machine in the operating room itself would be ideal for clinical monitoring of minimal invasive procedures (keyhole surgery), during tumor operations on the brain or liver, and also procedures in the vascular system (heart). However metal causes interference fields in the operating room.

The patient therefore has to be moved to an adjacent room accompanied by an anesthetist in the middle of an operation to be examined using operative magnetic resonance imaging. Such brain tumor examination procedures have been successfully carried out at the Neurosurgical University Clinic in Heidelberg for 13 years.

Ambitious research projects which aim to provide an accompanying MRI exam inside operating theatres are concerned with improving this situation Instead of the MRI tunnel system there are now open MRI exam systems available which enable doctors to access the required part of the patient during image scanning. The development of innovative ferrite-free drive systems is another decisive step. Product Manager Dagmar Dübbelde: “Our non-ferrous air motors were especially designed and developed for such an application. These DEPRAG air motors can play an important role in the development of medical equipment”.

DEPRAG SCHULZ GMBH & CO. KG is a well-known, full service provider in the areas of air motors, screwdriving equipment, industrial power tools and automation. The company is represented in over 50 countries with over 600 employees. Their experience of over 75 years in the business provides their engineers with knowledge and expertise which in many cases gives them the advantage over their competitors.

Press Contact:

Dagmar Dübbelde
Carl-Schulz-Platz 1
D-92224 Amberg
Tel: 09621 371-343
Fax: 09621 371-199

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