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Fact Sheet on Byproduct Materials

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The Nuclear Regulatory Commission's mandate to protect public health and safety and the environment, and to provide for the common defense and security, includes regulation of byproduct material used for commercial, medical, and academic purposes. The NRC and its predecessor, the Atomic Energy Commission, have regulated the use of radioactive materials since 1946. The Energy Policy Act adopted August 8, 2005, amended the definition of byproduct material to include additional types of radioactive materials.

There are four categories of byproduct material as defined in the Atomic Energy Act of 1954, as amended:

1. Radioactive material that results from the production or use of special nuclear material (enriched uranium or plutonium) in nuclear reactors. Examples include cobalt-60, cesium-137, and iridium-192.
2. Tailings or wastes produced by the extraction or concentration of uranium or thorium (source material) from ore.
3. Discrete sources of radium-226 or material made radioactive by use of a particle accelerator that is produced, extracted or converted after extraction for a commercial, medical or research activity. Examples include fluoride-18, cobalt-57, and iodine-123.
4. Any discrete source of naturally occurring radioactive material (other than source material) that the Commission determines could pose a public health and safety or common defense and security threat similar to that of a discrete source of radium-226.

Commercial licensees use byproduct material in both civilian and military applications in such areas as industrial radiography, gauging devices, gas chromatography, and well logging (see attachment). Byproduct material is also used by the general public in various consumer products, such as smoke detectors, some self-luminous Exit signs, static eliminators, and luminous watch dials. Medical licensees use byproduct material for the diagnosis and treatment of patients in hospitals or physicians' offices, with an estimated 16 million clinical procedures performed annually. Colleges, universities, and other academic institutions use byproduct material in course work and research.

The NRC regulates the use of byproduct material in 16 non-Agreement States, the District of Columbia, the Commonwealth of Puerto Rico, and various territories of the United States. The NRC also regulates federal licensees in all states. Currently, NRC administers approximately 4,400 licenses. In Fiscal Year (FY) 2005, the NRC completed nearly 3,300 reviews of materials licensing actions, including new applications, amendments to existing licenses, license renewals, and sealed source and device reviews. The NRC conducted 1,264 inspections of materials licensees in the same year. The corresponding radiation control programs in the Agreement States have approximately 80 % of the materials licensees, so the actual number of licensing actions and inspections performed within the United States is actually much greater.

The NRC conducts nearly all of its materials licensing and inspection activities from its  regional offices. The Office of Federal and State Materials and Environmental Management Programs (FSME) provides technical support and guidance, and conducts periodic evaluations of the regional programs to ensure their technical adequacy, consistency, and timeliness. FSME conducts similar evaluations of the Agreement States and the NRC regional offices through the Integrated Materials Performance Evaluation Program.

October 2006

Uses of Radioactive Byproduct Material

Portable radiography camera used to test for cracks in metal.	Tritium Exit signs
Well-logging device	Static eliminators
Gauge, illuminated watch dial, and smoke detector
Cross section of a fixed fluid gauge	Troxler moisture/density gauge

September 2006

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