ANS is committed to advancing, fostering, and promoting the development and application of nuclear sciences and technologies to benefit society.
Explore the many uses for nuclear science and its impact on energy, the environment, healthcare, food, and more.
Division Spotlight
Materials Science & Technology
The objectives of MSTD are: promote the advancement of materials science in Nuclear Science Technology; support the multidisciplines which constitute it; encourage research by providing a forum for the presentation, exchange, and documentation of relevant information; promote the interaction and communication among its members; and recognize and reward its members for significant contributions to the field of materials science in nuclear technology.
Meeting Spotlight
Conference on Nuclear Training and Education: A Biennial International Forum (CONTE 2025)
February 3–6, 2025
Amelia Island, FL|Omni Amelia Island Resort
Standards Program
The Standards Committee is responsible for the development and maintenance of voluntary consensus standards that address the design, analysis, and operation of components, systems, and facilities related to the application of nuclear science and technology. Find out What’s New, check out the Standards Store, or Get Involved today!
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Latest News
Article considers incorporation of AI into nuclear power plant operations
The potential application of artificial intelligence to the operation of nuclear power plants is explored in an article published in late December in the Washington Examiner. The article, written by energy and environment reporter Callie Patteson, presents the views of a number of experts, including Yavuz Arik, a strategic energy consultant.
G. Dharmadurai
Nuclear Technology | Volume 112 | Number 2 | November 1995 | Pages 295-298
Technical Note | Nuclear Fuel Cycle | doi.org/10.13182/NT95-A35180
Articles are hosted by Taylor and Francis Online.
A new expression is derived for estimating transient thermal conductance across two surfaces of nuclear materials bounding a gas. It considers two-surface thermal resistances in series with a parallel combination of two bulk thermal resistances arising from molecular and acoustic modes of heat pulse propagation in the interstitial gas. The resulting estimates offer the first technical explanation for the excess gap conductance observed during heat pulse propagation between UO2 and Zircaloy surfaces through heavier inert gases like argon.
