1. Trang chủ
  2. Kỹ Thuật - Công Nghệ

Comprehensive nuclear materials 1 03 radiation induced effects on microstructure

34 162 0
Comprehensive nuclear materials 1 03 radiation induced effects on microstructure

Đang tải... (xem toàn văn)

Tài liệu hạn chế xem trước, để xem đầy đủ mời bạn chọn Tải xuống

Thông tin tài liệu

Comprehensive nuclear materials 1 03 radiation induced effects on microstructure Comprehensive nuclear materials 1 03 radiation induced effects on microstructure Comprehensive nuclear materials 1 03 radiation induced effects on microstructure Comprehensive nuclear materials 1 03 radiation induced effects on microstructure Comprehensive nuclear materials 1 03 radiation induced effects on microstructure Comprehensive nuclear materials 1 03 radiation induced effects on microstructure Comprehensive nuclear materials 1 03 radiation induced effects on microstructure

1.03 Radiation-Induced Effects on Microstructure* S J Zinkle Oak Ridge National Laboratory, Oak Ridge, TN, USA ß 2012 Elsevier Ltd All rights reserved 1.03.1 1.03.2 1.03.3 1.03.3.1 1.03.3.2 1.03.3.3 1.03.3.3.1 1.03.3.3.2 1.03.3.3.3 1.03.3.3.4 1.03.3.3.5 1.03.3.4 1.03.3.5 1.03.3.6 1.03.3.7 1.03.3.8 1.03.3.9 1.03.4 1.03.4.1 1.03.4.2 1.03.4.3 1.03.4.4 1.03.4.5 1.03.4.6 1.03.5 1.03.5.1 1.03.5.2 1.03.5.3 1.03.5.4 1.03.5.5 1.03.5.6 1.03.5.7 1.03.6 References Introduction Overview of Defect Cluster Geometries in Irradiated Materials Influence of Experimental Conditions on Irradiated Microstructure Irradiation Dose Role of Primary Knock-on Atom (PKA) Spectra Role of Irradiation Temperature Very low temperature regime: immobile SIAs (T< Stage I) Low temperature regime: mobile SIAs, immobile vacancies (Stage I

Ngày đăng: 03/01/2018, 16:04

Xem thêm: Comprehensive nuclear materials 1 03 radiation induced effects on microstructure

Từ khóa liên quan

Mục lục

  • 1.03 Radiation-Induced Effects on Microstructure

    • 1.03.1 Introduction

    • 1.03.2 Overview of Defect Cluster Geometries in Irradiated Materials

    • 1.03.3 Influence of Experimental Conditions on Irradiated Microstructure

      • 1.03.3.1 Irradiation Dose

      • 1.03.3.2 Role of Primary Knock-on Atom (PKA) Spectra

      • 1.03.3.3 Role of Irradiation Temperature

        • 1.03.3.3.1 Very low temperature regime: immobile SIAs (T<Stage I)

        • 1.03.3.3.2 Low temperature regime: mobile SIAs, immobile vacancies (Stage I<T<Stage III)

        • 1.03.3.3.3 Medium temperature regime: mobile SIAs and vacancies (Stage III<T<Stage V)

        • 1.03.3.3.4 High temperature regime: mobile defects and vacancy loop dissociation (T>Stage V)

        • 1.03.3.3.5 Very high temperature regime: He cavities (T>>Stage V)

        • 1.03.3.4 Role of Atomic Weight

        • 1.03.3.5 Role of Crystal Structure

        • 1.03.3.6 Role of Atomic Bonding

        • 1.03.3.7 Role of Dose Rate

        • 1.03.3.8 Role of Ionizing Radiation

        • 1.03.3.9 Role of Solute Segregation and Precipitation

        • 1.03.4 Overview of Key Radiation-Induced Property Degradation Phenomena

          • 1.03.4.1 Radiation-Induced Amorphization

          • 1.03.4.2 Radiation-Induced Hardening

          • 1.03.4.3 Thermal and Electrical Conductivity Degradation

          • 1.03.4.4 Radiation-Induced Segregation and Precipitation

          • 1.03.4.5 Dimensional Instabilities: Irradiation Growth, Creep, and Swelling

Tài liệu cùng người dùng

Tài liệu liên quan