| Topic |
Title |
Author |
Org |
Journal |
Year |
File Name |
Content |
|
| RIC |
Electrical properties of mineral-insulated cable
under fusion
neutron irradiation |
Tanaka |
NIFS |
Fusion Engineering and Design 66/68 (2003) 837/841 |
2003 |
2003_Tanaka_NIFS.pdf |
RIC with DT neutron flux |
|
| RIC |
Electrical properties of ceramics during reactor
irradiation |
Shikama |
UTohoku |
Journal of Nuclear Materials 258±263 (1998)
1867-1872 |
1998 |
1998_Shikama_UTohoku.pdf |
RIC and RIED tests on alumina |
|
| RIC |
Electrical resistivity of ceramic insulators under
irradiation using 14
MeV neutrons |
Noda |
JAERI |
Journal of Nuclear Materials 233-237 (1996) 1289-
1293 |
1996 |
1996_Noda_JAERI.pdf |
Measurement of RIC in alumina using 14MeV neutrons |
|
| RIC |
Radiation Induced Conductivity in Ceramic Insulators
for Thermionic Systems |
Wu |
Auburn |
|
1993 |
1993_Wu_Auburn.pdf |
RIC in alumina at high temperature with radiation |
|
| RIC |
Dose Rate Dependence of the Radiation-Induced
Electrical Conductivity in MgO |
Hodgson |
CIEMAT |
Journal of Nuclear Materials 155-157 (1988) 357-360 |
1988 |
1988_Hodgson_CIEMAT.pdf |
Important paper on RIC |
|
| RIC |
Electrical Conductivity of Magnesia Insulation for
Heat Resistant Cables In The Presence of Intense Radiation and High
Temperature |
Emelyanov |
Russia |
AtomnayaEnergiya, Vol.50,No. 1,pp. 25-29,
January,1981 |
1981 |
1981_Emelyanov_Russia.pdf |
Equations developed for temperaure and radiation
induced conductivity in MIC |
|
| RIC |
Radiation-induced conductivity of Al203: Experiment
and theory |
Klaffky |
BNL |
Physical Review B Vol 21 No 8 |
1980 |
1980_Klaffky_BNL.pdf |
Measurements of RIC in alumina |
|
| RIC |
Estimated Readout Errors Produced by Radiation and
Temperature Effects in Coaxial Signal Cables for FFTF |
Stringer |
PNL |
|
1969 |
1969_Stringer_PNL.pdf |
Early quantification of RIC |
|
| RIED |
Radiation enhanced dielectric breakdown in
insulating gases
for NBI systems |
Hodgson |
CIEMAT |
Fusion Engineering and Design 56–57 (2001)
545–549 |
2001 |
2001_Hodgson_CIEMAT.pdf |
Breakdown of gases in radiation field |
|
| RIED |
Radiation enhanced electrical breakdown In fusion
insulators
from dc to 126 MHz |
Hodgson |
CIEMAT |
Journal of Nuclear Materials 191-194 (1992) 552-554 |
1992 |
1992_Hodgson_CIEMAT.pdf |
Radiation induced electrical degradation (REID) |
|
| MIC |
Improvement and R&D of MIC |
Takechi |
JT60SA |
|
2010 |
2010_Takechi_JT60SA.pdf |
Okazaki MIC |
|
| MIC |
Improvement of MIC |
Takechi |
JT60SA |
|
2010 |
2010_Takechi_JT60SA.pdf |
Okazaki MIC showing bend radius tests |
|
| MIC |
Okazaki Product Examples |
Okazaki |
Okazaki |
|
2010 |
2010_Okazaki_Okazaki.pdf |
Okzaki products |
|
| MIC |
A Radiation Resistant Dipole Using Metal-Oxide
Insulated CICC |
DeLauter |
MSU |
IEEE Transactions on Applied Superconductivity Vol
17 No 2 p 1087 |
2007 |
2007_DeLauter_MSU.pdf |
MIC-based superconducting magnet design |
|
| MIC |
ITER relevant outgassing and leakage from
different types of in-vessel cabling |
Pearce |
UKAEA |
Fusion Engineering and Design 82 (2007)
1294–1300 |
2007 |
2007_Pearce_UKAEA.pdf |
Outgassing from MIC |
|
| MIC |
Final Report on Radiation Resistant Magnets II |
Zeller |
MSU |
DOE Grant DE-FG02-03ER41254 |
2005 |
2005_Zeller_MSU.pdf |
MIC-based superconducting magnet design |
|
| MIC |
Development of radiation
resistant magnet in KEK |
Kusano |
KEK |
|
2004 |
2004_Kusano_KEK.pdf |
Processing of large cross section MIC |
|
| MIC |
Radiation Resistant Magnet R&D at the NSCL |
Zeller |
MSU |
Proceedings of the 2003 Particle Accelerator
Conference p 161 |
2003 |
2003_Zeller_MSU.pdf |
MIC-based superconducting magnet design |
|
| MIC |
Development of Radiation-Resistant Magnet Coils
for High-IntensityBeam Lines: Part II-completely inorganic insulated coils |
Yamanoi |
KEK |
IEEE Transactions on Magnetics Vol 32 No 4 p2147 |
1996 |
1996_Yamanoi_KEK.pdf |
Magnet design based on MIC |
|
| MIC |
Improved Mineral Insulation Cables for High
Radiation Environments |
Snead |
ORNL |
CRADA ORNL 94-0301 |
1995 |
1995_Snead_ORNL.pdf |
SBIR investigation of various MIC for diagnostics,
much useful data |
|
| MIC |
Pyrotenax Engineering Data Manual |
Pyrotenax |
TYCO |
|
1994 |
1994_Pyrotenax_TYCO.pdf |
Basic engineering data |
|
| MIC |
Manufacture of Mineral Insulated Metal Sheathed
Cables |
Thompson |
MML |
Patent Application |
1990 |
1990_Thompson_MML.pdf |
Patent application for production of continuous
lenghts of MIC |
|
| MIC |
Radiation Hardening of Magnet Coils |
Harvey |
SLAC |
SLAC-PUB-4910 |
1989 |
1989_Harvey_SLAC.pdf |
Overview of early experience with MIC magnets |
|
| MIC |
Radiation Dose Rate Resistivity Degradation in
Ceramic Insulators and Assessment of the Consequences in Fusion Reactor
Applications |
Perkins |
Uwisc |
UWFDM-469 |
1982 |
1982_Perkins_Uwisc.pdf |
Concise analysis of MgO application considerations |
|
| MIC |
Cable Prototype - Drawing and Bending Tests |
ANSALDO |
NET |
Internal report |
1980 |
1980_ANSALDO_NET.pdf |
Excerpt from test report on R&D for NET |
|
| MIC |
Sizing of the Thermal and Electrical Systems for An
FED Bundle Divertor Design with MgO Insulation |
Schultz |
MIT |
|
1980 |
1980_Schultz_MIT.pdf |
Design study for a MIC magnet |
|
| MIC |
Radiation-Hardened Magnets Using Mineral-Insulated
Conductors |
Harvey |
LANL |
LA-5306-MS |
1973 |
1973_Harvey_LANL.pdf |
Data on various MIC including insulation resistance
and breakdown voltage |
|
| MIC |
Mineral Insulated Magnets for High Radiation
Environment |
Harvey |
LANL |
IEEE proceedings of PAC |
1969 |
1969_Harvey_LANL.pdf |
Pioneer in MIC magnet design, example of jointing
scheme |
|
| MgO |
Magnesium Oxide Insulation Characteristics |
Tyco |
Tyco |
|
2009 |
2009_Tyco_Tyco.pdf |
MIC properties |
|
| MgO |
Thermal Conductivity of Magnesium Oxide
From Absolute, Steady-State Measurements |
Slifka |
NIST |
Journal of Research of the National Institute of
Standards and Technology Volume 103, Number 4, July–August 1998 |
1998 |
1998_Slifka_NIST.pdf |
Thermal conductivity measurements above 400K |
|
| MgO |
Radiation-induced changes in the physical
properties
of ceramic materials |
Zinkle |
ORNL |
Journal of Nuclear Materials 191-194 (1992) 58-66 |
1992 |
1992_Zinkle_ORNL.pdf |
Overview of radiation effects in ceramic insulators |
|
| MgO |
High-temperature electrical breakdown in single
crystal and polycrystalline MgO |
Murata |
UTokyo |
JOURNAL OF MATERIALS SCIENCE 20 (1985) 4507-4513 |
1985 |
1985_Murata_UTokyo.pdf |
High temperature MgO breakdown (above 1000C) |
|
| MgO |
Magnesium oxide as a high-temperature insulant |
Wilson |
BICC |
IEE PROC, Vol. 128, Pt. A, No. 3 p 159 |
1981 |
1981_Wilson_BICC.pdf |
Theory of temperature-dependant conductivity in MIC
including impurity effects, etc. |
|
| MgO |
Effect of Microstructure on Pulse Electrical
Strength of MgO |
Beauchamp |
SNL |
Journal of The American Ceramic Society, Vol. 54,
No. 10 |
1972 |
1972_Beauchamp_SNL.pdf |
Basic dielectric strength of MgO at room temperature |
|
| General |
Generic Diagnostic Issues for a Burning Plasma
Experiment |
Vayakis |
ITER |
Fusion Science and Technology Vol. 53 Feb. 2008 |
2008 |
2008_Vayakis_ITER.pdf |
Good overview on radiation effects particular to
ITER |
|
| General |
Materials Considerations for Highly Irradiated
Normal-Conducting Magnets in Fusion Reactor Applications |
Perkins |
UWisc |
Journal of Nuclear Materials 122 & 123 (1984)
1371-1375 |
1984 |
1984_Perkins_UWisc.pdf |
Good review of radiation effects on a fusion magnet
design |
|
| General |
Design Practice and Operational Experience of Highly
Irradiated, High Performance Normal Magnets |
Schultz |
MIT |
Journal of Fusion Energy, Vol. 3, No. 2, 1983 |
1983 |
1983_Schultz_MIT.pdf |
Comprehensive overview of radiation-hard magnet
technology |
|
| General |
Radiation-Resistant Magnets |
Keizer |
CERN |
CERN-82-05 |
1982 |
1982_Keizer_CERN.pdf |
Comprehensive overview of radiation-hard magnet
technology |
|
| Electrical |
Ripple Current and Flux In Mineral Insulated Magnets |
Schneider |
LANL |
|
1969 |
1969_Schneider_LANL.pdf |
Method for calculating eddy currents in sheath of
MIC |
|
| Cooling Water |
Design of a cooling system for the ITER Ion Source
and Neutral Beam test facilities |
DallaPalma |
RFX |
Fusion Engineering and Design 84 (2009)
1460–1464 |
2009 |
2009_DallaPalma_RFX.pdf |
ITER NBI water cooling test facility |
|
| Cooling Water |
Behaviour of Copper in Generator Stator
Cooling-Water Systems |
Svoboda |
Alstom |
ICPWS |
2008 |
2008_Svoboda_Alstom.pdf |
Experience in water cooled AC generators |
|
| Cooling Water |
The Fundamental Conductivity and Resistivity of
Water |
Light |
|
Electrochemical and Solid-State Letters, 8 (1)
E16-E19 (2005) |
2005 |
2005_Light_.pdf |
Conductivity of pure water including temperature
effect |
|
| Cooling Water |
Low Conductivity Water Systems for Accelerators |
Dortwet |
ANL |
Proceedings of the 2003 Particle Accelerator
Conference |
2003 |
2003_Dortwet_ANL.pdf |
Review of water chemistry issues |
|
| Cooling Water |
Erosion /corrosion tests on ITER copper alloys in
high
temperature water circuit with incident heat flux |
Zheng |
ULeuven |
Fusion Engineering and Design 61�/62 (2002)
649�/657 |
2002 |
2002_Zheng_ULeuven.pdf |
Erosion and corrosion in CuCrZr |
|
| Ceramic Polymer |
Fabrication, Characterization Testing, and
Irradiation of Ceramic Polymer Composite Materials at 373 K |
CTD |
CTD |
Final Test Report
for
Purchase Order No. 090501 |
2009 |
2009_CTD_CTD.pdf |
Test results of irradiation of ceramic polymer |
|
| Ceramic Polymer |
Novel Radiation-Resistant Insulation Systems for
Fusion Magnets |
Fabian |
CTD |
6th ISFNT |
2002 |
2002_Fabian_CTD.pdf |
CTD discussion of insulation options |
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