{"id":252055,"date":"2024-10-19T16:38:07","date_gmt":"2024-10-19T16:38:07","guid":{"rendered":"https:\/\/pdfstandards.shop\/product\/uncategorized\/bs-en-60034-18-312012\/"},"modified":"2024-10-25T11:56:39","modified_gmt":"2024-10-25T11:56:39","slug":"bs-en-60034-18-312012","status":"publish","type":"product","link":"https:\/\/pdfstandards.shop\/product\/publishers\/bsi\/bs-en-60034-18-312012\/","title":{"rendered":"BS EN 60034-18-31:2012"},"content":{"rendered":"
IEC 60034-18-31:2012 describes thermal endurance test procedures for classification of insulation systems used in a.c. or d.c. rotating electrical machines with indirect cooling and form-wound windings. These test procedures are intended to compare the thermal endurance performance of the mainwall insulation between conductor(s) and ground and, where required by the design of the coil or bar, the insulation between the turns. The main technical changes with regard to the previous edition include: – Definition of the test method and sub-cycles required to establish a consistent standardized platform for thermal ageing of insulation systems for form-wound windings. – Recommendations for establishing a thermal life curve based on confidence intervals. – Comparison of candidate and reference system performance for specific requirements of thermal class, within feasible limits. Keywords: rotating machinery, insulation systems<\/p>\n
PDF Pages<\/th>\n | PDF Title<\/th>\n<\/tr>\n | ||||||
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6<\/td>\n | English CONTENTS <\/td>\n<\/tr>\n | ||||||
8<\/td>\n | INTRODUCTION <\/td>\n<\/tr>\n | ||||||
9<\/td>\n | 1 Scope 2 Normative references <\/td>\n<\/tr>\n | ||||||
10<\/td>\n | 3 General considerations 3.1 Reference insulation system 3.2 Test procedures <\/td>\n<\/tr>\n | ||||||
11<\/td>\n | 4 Test objects and test specimens 4.1 Construction of test objects 4.2 Verification of effects of minor changes in insulation systems 4.3 Number of test specimens 4.4 Quality control <\/td>\n<\/tr>\n | ||||||
12<\/td>\n | 4.5 Initial diagnostic tests 5 Test procedures 5.1 Thermal ageing sub-cycle 5.2 Ageing temperatures and sub-cycle lengths Tables Table 1 \u2013 Thermal classes <\/td>\n<\/tr>\n | ||||||
13<\/td>\n | 5.3 Method of heating Table 2 \u2013 Recommended temperatures and ageing sub-cycle exposure periods <\/td>\n<\/tr>\n | ||||||
14<\/td>\n | 5.4 Thermal ageing of test objects 6 Diagnostic sub-cycle 6.1 Conditioning procedure 6.1.1 General 6.1.2 Mechanical conditioning <\/td>\n<\/tr>\n | ||||||
15<\/td>\n | 6.1.3 Moisture conditioning 6.2 Diagnostic tests 6.2.1 Voltage withstand test <\/td>\n<\/tr>\n | ||||||
16<\/td>\n | 6.2.2 Method 6.2.3 Mainwall insulation test 6.2.4 Turn insulation test <\/td>\n<\/tr>\n | ||||||
17<\/td>\n | 6.3 Informative tests 7 Reporting and functional evaluation of data from candidate and reference systems 7.1 General 7.2 Determining qualification 7.2.1 Overview <\/td>\n<\/tr>\n | ||||||
18<\/td>\n | 7.2.2 Case A: Qualification for the same class temperature and same expected service life Table 3 \u2013 Conditions for qualification of candidate system <\/td>\n<\/tr>\n | ||||||
19<\/td>\n | 7.2.3 Case B: Qualification for the same class temperature and a different expected service life Figures Figure 1 \u2013 Candidate system qualified for the same thermal class and the same expected service life <\/td>\n<\/tr>\n | ||||||
20<\/td>\n | 7.2.4 Case C: Qualification for a different class temperature and same expected service life Figure 2 \u2013 Candidate system qualified for the same thermal class and different expected service life <\/td>\n<\/tr>\n | ||||||
21<\/td>\n | 7.2.5 Case D: Qualification for a different class temperature and different expected service life Figure 3 \u2013 Candidate system qualified for a different class temperature and the same expected service life <\/td>\n<\/tr>\n | ||||||
22<\/td>\n | 7.2.6 Non-linearity of regression lines 7.2.7 Reduced evaluation Figure 4 \u2013 Candidate system qualified for a different service life and different thermal class from the reference <\/td>\n<\/tr>\n | ||||||
24<\/td>\n | Annex A (informative) Example of test object (formette) construction <\/td>\n<\/tr>\n | ||||||
25<\/td>\n | Figure A.1 \u2013 Typical slot assembly <\/td>\n<\/tr>\n | ||||||
26<\/td>\n | Figure A.2 \u2013 Typical slot assembly <\/td>\n<\/tr>\n | ||||||
27<\/td>\n | Figure A.3 \u2013 Formette for testing DC armature coils <\/td>\n<\/tr>\n | ||||||
28<\/td>\n | Figure A.4 \u2013 Test fixture for rotor slot section <\/td>\n<\/tr>\n | ||||||
29<\/td>\n | Bibliography <\/td>\n<\/tr>\n<\/table>\n","protected":false},"excerpt":{"rendered":" Rotating electrical machines – Functional evaluation of insulation systems. Test procedures for form-wound windings. Thermal evaluation and classification of insulation systems used in rotating machines<\/b><\/p>\n |