Medium and high-energy electron beam radiation processing equipment for commercial applications

被引:25
|
作者
Cleland, MR [1 ]
Parks, LA [1 ]
机构
[1] Ion Beam Applicat, San Diego, CA 92121 USA
来源
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS | 2003年 / 208卷
关键词
radiation processing; electron beam processing; electron accelerators; electron energy; beam power; material handling; utilization efficiency; dose uniformity; material thickness; area throughput; mass throughput;
D O I
10.1016/S0168-583X(03)00672-4
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
Electron beam processing of materials was introduced during the 1950s, and this technology has been continually evolving since then. A variety of industrial electron accelerators can now provide electron energies from 0.3 MeV to more than 10 MeV with average beam power capabilities up to 300 kW. The most important types are described briefly in this paper. Several types of material handling systems are used to present products to the electron beam. The objectives are to utilize the beam power efficiently and to obtain acceptable dose uniformity. The main methods for material handling are described. Simplified equations are provided for relating the electron energy and beam power ratings to the material thickness, area throughput and mass throughput rates. The basic requirements for personnel safety are also reviewed. (C) 2003 Elsevier B.V. All rights reserved.
引用
收藏
页码:74 / 89
页数:16
相关论文
共 50 条
  • [41] Spectroscopy at the high-energy electron beam ion trap (SuperEBIT)
    K. Widmann
    P. Beiersdorfer
    J.R. Crespo López-Urrutia
    S.R. Elliott
    Hyperfine Interactions, 1997, 108 : 73 - 86
  • [42] ELECTRON CONTAMINATION OF A HIGH-ENERGY X-RAY BEAM
    PADIKAL, TN
    DEYE, JA
    PHYSICS IN MEDICINE AND BIOLOGY, 1978, 23 (06): : 1086 - 1092
  • [43] POSITIVELY CHARGED MICROPARTICLE IN PLASMA WITH HIGH-ENERGY ELECTRON BEAM
    Bizyukov, Aleksander A.
    Chibisov, Dmitry, V
    Chibisov, Oleksandr D.
    Zhernovnykova, Oksana A.
    Borysenko, Kostyantyn, V
    Bobyliev, Dmytro Ye.
    Shtonda, Oksana H.
    EAST EUROPEAN JOURNAL OF PHYSICS, 2024, (03): : 160 - 165
  • [44] High-Energy Electron Beam Relaxation in a Stationary Plasma Thruster
    Nazarenko I.P.
    Gavryushin V.M.
    Evdokimov K.V.
    Russian Aeronautics, 2017, 60 (4): : 609 - 615
  • [45] Sintering of zirconia ceramics by intense high-energy electron beam
    Surzhikov, A. P.
    Frangulyan, T. S.
    Ghyngazov, S. A.
    Vasil'ev, I. P.
    Chernyavskii, A. V.
    CERAMICS INTERNATIONAL, 2016, 42 (12) : 13888 - 13892
  • [46] PULSED MICROSECOND HIGH-ENERGY ELECTRON-BEAM ACCELERATOR
    MARTIN, TH
    CLARK, RS
    REVIEW OF SCIENTIFIC INSTRUMENTS, 1976, 47 (04): : 460 - 463
  • [47] TRANSFORMATIONS IN ALUMINA EXPOSED TO A HIGH-ENERGY ELECTRON-BEAM
    BELAN, GB
    POLYAKOVA, AA
    KOGAN, LO
    HIGH ENERGY CHEMISTRY, 1979, 13 (02) : 81 - 83
  • [48] MODIFICATION OF DOSE DISTRIBUTION IN HIGH-ENERGY ELECTRON BEAM TREATMENT
    OKUMURA, Y
    MORI, T
    KITAGAWA, T
    RADIOLOGY, 1971, 99 (03) : 683 - &
  • [49] HIGH-ENERGY ELECTRON-BEAM THERAPY IN BREAST CARCINOMA
    SIEGELMA.SS
    BOTSTEIN, C
    RADIOLOGY, 1965, 84 (06) : 1096 - &
  • [50] HIGH-ENERGY MOVING FIELD ELECTRON BEAM FOR CANCER THERAPY
    LANZL, LH
    ACTA UNIO INTERNATIONALIS CONTRA CANCRUM, 1964, 20 (08) : 1707 - &
12345