MEDICAL EQUIPMENT SPARE PARTS. MEDICAL EQUIPMENT

Medical Equipment Spare Parts. Laptop Test Equipment

Medical Equipment Spare Parts


medical equipment spare parts
    medical equipment
  • any medical equipment used to enable mobility and functionality (e.g. wheel chair, hospital bed, traction apparatus, Continuous Positive Air Pressure machines, etc.).
  • Charges for the purchase of equipment used in providing medical services and care. Examples include monitors, x-ray machines, whirlpools.
  • Medical equipment is designed to aid in the diagnosis, monitoring or treatment of medical conditions. These devices are usually designed with rigorous safety standards. The medical equipment is included in the category Medical technology.
    spare parts
  • A duplicate part to replace a lost or damaged part of a machine
  • Spare Parts is a Big Finish Productions audio drama based on the long-running British science fiction television series ''Doctor Who.
  • Spare Parts is the second album by the English rock band Status Quo, and the final one in the psychedelic vein. It is also the first in which the group's roadie Bob Young began writing and co-writing songs for and with the band.
  • (spare part) an extra component of a machine or other apparatus

Munjal Adhvaryu -- India -- Class A
Munjal Adhvaryu -- India -- Class A
The image is photograph of Niobium taken from Fluorescent Microscope. Niobium is a refractory metal first discovered in 1801 by English scientist Charles Hatchett, who originally dubbed the substance Columbium. Due to the constructive properties, niobium finds a significant amount of use, especially in alloys. Niobium alloys are, for instance, commonly utilized for industrial, aerospace, and superconducting applications, such as magnetic resonance imaging and trains that levitate through the use of magnetism. Superconductivity is a phenomenon characterized by the disappearance of electrical resistance in various metals, alloys, and compounds when they are cooled below a certain level, usually termed the critical temperature (Tc). The phenomenon was first observed in 1911 by Heike Kamerlingh Onnes, who noted that the resistance of a frozen mercury rod abruptly dropped to zero when cooled to the boiling point of helium (4.2 Kelvin). The first company to commercially exploit high-temperature superconductors was formed in 1989 and was originally called Illinois Superconductor, though it is now known as ISCO International. The company's premier offering was a depth sensor designed for medical equipment that was capable of operating at liquid nitrogen temperatures. Since then a number of other businesses, research groups, and agencies have developed their own superconductor-based products and services. For example, the superconductivity team at the Korea Research Institute of Standards and Science invented a double-relaxation oscillation superconducting quantum interference device known as SQUID for use in magnetoencephalography (MEG), a non-invasive way to perform brain mapping. SQUID technology has also proven to be extremely useful for military purposes and is utilized by the United States Navy for detecting submarines and mines. Interestingly, the US military has also utilized superconductors to make devices, commonly dubbed e-bombs, which generate a high-intensity electro-magnetic pulse (EMP) capable of disabling the electronic equipment of enemy forces. One of the best-known kinds of technology to exploit superconductors is the maglev train, the name of which implies its reliance on magnetic levitation generated by superconducting magnets. Though implementation of maglev technology has been somewhat slow in the United States, largely due to political and environmental concerns, other countries, such as Great Britain, China, Japan, and Germany, have been somewhat more open to adopting maglev trains for commercial use. In fact, Britain was the first nation to introduce a maglev transportation service, though the levitating train was only utilized to link two terminals at the Birmingham airport, reached a top speed of 10 mph, and has since been replaced with a bus service due to the difficulty of obtaining spare parts. Yet, other countries have not been discouraged. In Japan, for instance, an experimental version of a maglev train achieved the impressive speed of 343 mph in 1999, and in the following year, the Japanese Ministry of Transport's Maglev Practical Technology Evaluation Committee declared that their test vehicle has the practicability for an ultra high-speed mass transportation system. Thus, it may not be long before superconductor-based technology becomes thoroughly integrated into the daily lives of inhabitants in certain regions of the world.
Spare Parts Appliance
Spare Parts Appliance
Spare Parts Capture Image

medical equipment spare parts
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