1.1本规程涵盖了根据等效单能中子注量表征源中子注量的程序。它适用于中子效应测试、测试规范的制定和中子测试环境的表征。这些中子源可能具有较宽的中子能谱，或者可能是能量高达20 MeV的单能中子源。相关等效性是指对入射源光谱的材料的某些物理特性的特定影响。为了实现这一点，需要了解中子作为能量函数对相关材料特定特性的影响。中子能量效应的急剧变化可能会限制这种做法在单能源情况下的实用性。 1.2本规程以一种普遍适用于各种材料和来源的方式提出。位移之间的相关性 () 由不同粒子（电子、中子、质子和重离子）引起的辐射超出了本实践的范围。在电子半导体器件的辐射硬度测试中，感兴趣的特定材料包括硅和砷化镓，中子源通常是测试和研究反应堆以及加利福尼亚-252辐射器。 1.3所涉及的技术取决于以下因素:（1）详细确定中子源的能谱，（2）了解中子的降解（损伤）效应作为能量对特定材料特性的函数。 1.4如果暴露条件是可重复的，则无需对每次试验暴露重新进行中提及的中子能谱的详细测定。 当不重复光谱测定时，应为每次试验暴露使用中子注量监测器。 1.5 本标准并非旨在解决与其使用相关的所有安全问题（如有）。本标准的用户有责任在使用前制定适当的安全和健康实践，并确定监管限制的适用性。

1.1 This practice covers procedures for characterizing a neutron fluence from a source in terms of an equivalent monoenergetic neutron fluence. It is applicable to neutron effects testing, to the development of test specifications, and to the characterization of neutron test environments. The sources may have a broad neutron-energy spectrum, or may be mono-energetic neutron sources with energies up to 20 MeV. The relevant equivalence is in terms of a specified effect on certain physical properties of materials upon which the source spectrum is incident. In order to achieve this, knowledge of the effects of neutrons as a function of energy on the specific property of the material of interest is required. Sharp variations in the effects with neutron energy may limit the usefulness of this practice in the case of mono-energetic sources. 1.2 This practice is presented in a manner to be of general application to a variety of materials and sources. Correlation between displacements () caused by different particles (electrons, neutrons, protons, and heavy ions) is beyond the scope of this practice. In radiation-hardness testing of electronic semiconductor devices, specific materials of interest include silicon and gallium arsenide, and the neutron sources generally are test and research reactors and californium-252 irradiators. 1.3 The technique involved relies on the following factors: (1) a detailed determination of the energy spectrum of the neutron source, and (2) a knowledge of the degradation (damage) effects of neutrons as a function of energy on specific material properties. 1.4 The detailed determination of the neutron energy spectrum referred to in need not be performed afresh for each test exposure, provided the exposure conditions are repeatable. When the spectrum determination is not repeated, a neutron fluence monitor shall be used for each test exposure. 1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.