1 |
J.A.BRYDSON, Rubbery Materials and their compounds, ELDEVIER APPLIED SCIENCE, (p 31-32, p 34-35)
|
2 |
'Standard Test Method for Decomposition Kinetics by Thermogravimetry', ASTM E1641, (1999)
|
3 |
'Test method for rapid thermal degradation of solid electrical insulation materials by thermogravimetric method(TGA)', ASTM 3850, (2000)
|
4 |
Jong-seog Kim, 'Evaluation of cable life based on condition monitoring', 01 fall meeting of Korean nuclear society, (2001)
과학기술학회마을
|
5 |
'Standard test methods for rubber properties in tension', ASTM D412, (1983)
|
6 |
Jong-seog Kim, 'Development of cable aging indenter', 99 spring meeting of Korean nuclear society, April (1999)
과학기술학회마을
|
7 |
GILLEN, K.T., CLOUGH, R.L., WISE,J., MALONE, G.M., Explanation of enhanced mechanical degradation for radiation-aged polyolefins as the temperature is decrease, Rep. SAND 94-1104C, Sandia National Laboratories, Albuquerque, NM(1994)
|
8 |
INTERNATIONAL ELECTROTECHNICAL COMMISSION, Guide for the Determination of Thermal Endurance Properties of Electrical Insulating Materials, IEC 216-1 Part 1: General Guidelines for Aging Procedures and Evaluation of Test Results, Geneva, (1990)
|
9 |
'Assessment and management of ageing of major nuclear power plant components important to safety', IAEA-TEDOC-1188, IAEA, Austria, December (2000)
|
10 |
GAZDZINSKI, R.F., DENNY, W.M., TOMAN,G.J. & BUTWIN, R. T., Aging Management Guideline for Commercial Nuclear Power Plant-Electrical Cable and Terminations, Rep. SAND 96-0344, US Dept. Of Energy, Prepared by Sandia National Labs for the US Dept. of Energy, Albuquerque, NM(1996)
|
11 |
URNAY, D.G.,DAWSON,J., 'Reverse temperature effect during radiation aging of XLPE cable insulation material', (Proc. Of Int. Conf. On Aging Studies and Lifetime Extension of Materials', Oxford, 1999) Kluwer/Plenum Press,London(in press)
|