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목차 (Table of Contents)

[Volume. 1]----------
CONTENTS
Abstract = 1
Introduction = 1
Experimental apparatus = 2

[Volume. 1]----------
CONTENTS
Abstract = 1
Introduction = 1
Experimental apparatus = 2
Instrument calibrations = 6
Reduction of experimental observations = 12
Intercomparisons of piston gages = 16
Experimental procedure = 21
Composition of gases used = 23
Treatment of the experimental data = 24
Experimental results = 26
Discussion = 192
References = 193
ILLUSTRATIONS
1. Pressure containers, valves, and fittings of a Burnett type compressibility apparatus = 3
2. Pressure container, $$V_{b1}$$ = 4
3. Pressure container, $$V_{b2}$$ = 4
4. Compressibility apparatus = 5
5. Percentage pressure difference versus pressure, piston gages serial numbers 14860 and 13920, △P＝$$P_{13920}$$-$$P_{14860}$$ = 19
6. Percentage pressure difference versus pressure, piston gages serial numbers 14860 and 10682, △P＝$$P_{10662}$$-$$P_{14860}$$ = 21
7. Percentage pressure difference versus pressure, piston gages serial numbers 13920 and 10682, △P＝$$P_{10662}$$-$$P_{13920}$$ = 22
TABLES
1. Piston gage weight set calibration data = 7
2. Mueller bridge, serial No. 1603629, dial reading corrections = 10
3. Comparison of gas pressures measured with piston gage serial No. 14860 and piston gage serial No. 13920 = 17
4. Piston gage serial No. 14860 floated against piston gage serial No. 13920 = 18
5. Gas piston gage serial No. 10682 versus oil piston gage serial No. 14860, △P＝$$P_{10662}$$-$$P_{14860}$$ = 20
6. Gas piston gage serial No. 10682 versus oil piston gage rial No. 13920, △P＝$$P_{10662}$$-$$P_{13920}$$ = 20
7. Analyses of gases used = 23
8. Experimental pressures, calculated pressures, parameters, standard errors, variances, and covariances. 0 degree C (273.150 K ITS) isotherm = 27
9. Variances and covariances for integral pressures. 0 degree C (273.150 K ITS) isotherm = 68
10. Compressibility factors and standard errors for integral pressures. degree C (273.150 K TTS) isotherm = 79
11. Experimental pressures, calculated pressures, parameters, standard errors, variances, and covariances. 25 degree C (298.142 K TTS) isotherm = 85
12. Variances and covariances for integral pressures. 25 degree C (298.142 K TTS) isotherm = 119
13. Compressibility factors and standard errors for integral pressures. 25 degree C (298.142 K TTS) isotherm = 130
14. Experimental pressures, calculated pressures, parameters, standard errors, variances, and covariances. 50 degree C (323.140 K TTS) isotherm = 136
15. Variances and covariances for integral pressures. 50 degree C (323.140 K TTS) isotherm = 170
16. Compressibility factors and standard errors for integral pressures. 50 degree C (323.140 K TTS) isotherm = 181
17. Parameters as a function of composition and temperature = 187
18. Compressibility factors as a function of composition and temperature = 188
19. Chronology of runs = 189
[Volume. 2]----------
CONTENTS
Abstract = 1
Introduction = 2
Acknowledgments = 3
System description = 3
Computer acquisition of data = 4
Computer output = 4
Event detection = 6
Real-time acquisition of arrival times = 6
Special computer operations = 7
Programed-drill suppression = 7
Drill suppression hardware, the Schmitt trigger stack = 8
Drill suppression operation = 8
Processing high energy events = 9
Splitting of transducer outputs = 9
Selection criteria = 9
Conclusions = 10
References = 10
Appendix A. Data screening = 12
Appendix B. RBM system software and hardware = 13
Appendix C. Source listing of Galena program = 15
ILLUSTRATIONS
1. Block diagram of microseismic monitoring system at Galena mine = 4
2. Computer output and recorded waveforms = 5
B-1. Program flow chart = 14
[Volume. 3]----------
CONTENTS
Abstract = 1
Introduction = 2
Experimental procedures and equipment = 4
Alloy preparation = 4
Powder preparation = 4
Alinement and compaction = 5
Sintering = 5
Magnetic property measurements = 5
Results and discussion = 6
Magnetic properties of La Co alloys = 6
Effect of composition = 6
Effect of grinding time = 6
Magnetic properties of La Co Cu alloys : effect of copper content = 7
Magnetic properties of La Co Cu Mg alloys = 7
Effect of magnesium content = 7
Effect of lanthanum content = 10
Effect of copper content = 11
Effect of grinding time and method of cooling after sintering = 12
Physical stability of sintered La Co Cu Mg magnets = 14
Conclusions = 14
References = 15
Appendix. Definitions of basic magnetic properties of a permanent magnet = 16
ILLUSTRATIONS
1. Effect of copper and magnesium additions on the hysteresis curves of RE Co magnets = 3
2. Effect of lanthanum content on the magnetic properties of La Co alloys = 6
3. Effect of grinding time on the magnetic properties of La Co alloys = 7
4. Effect of copper content on the magnetic properties of La Co Cu alloys = 8
5. Effect of magnesium content on the intrinsic coercivity of La Co Cu Mg alloys = 10
6. Effect of lanthanum content on the magnetic properties of La Co Cu Mg alloys = 11
7. Effect of copper concentration on the magnetic properties of La Co Cu Mg alloys = 12
8. Effect of grinding time and method of cooling on the magnetic properties of La Co Cu Mg alloys = 13
9. Results of air exposure on sintered,magnets = 14
A-1. Hysteresis loop of a permanent magnet material = 16
TABLES
1. Composition of alloys prepared by arc melting = 4
2. Effect of magnesium on the magnetic properties of La Co Cu Mg alloys = 9

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