ASM Metals HandBook Volume 12 - Fractography
857 pág.

ASM Metals HandBook Volume 12 - Fractography


DisciplinaMetalurgia Mecânica138 materiais1.895 seguidores
Pré-visualização50 páginas
p 969 
51. G. Henry and J. Plateau, La Microfractographie, Institute de Recherches de la Sidérurgie Francaise 
[1966]; see translation by B. Thomas with Preface by C. Crussard, Éditions Métaux [1967] 
52. C.F. Tipper and A.M Sullivan, Fracturing of Silicon-Ferrite Crystals, Trans. ASM, Vol 43,1951, p 906-
928; discussion, p 929-934 
53. E.P. Klier, A Study of Cleavage Surfaces in Ferrite, Trans. ASM, Vol 43, 1951, p 1935-953; discussion p 
953-957 
54. The Transmission Electron and Microscope and Its Application to Fractography, in Fractography and 
Atlas of Fractographs, Vol 9, 8th ed., Metals Handbook, American Society of Metals, 1974, p 54-63 
55. V.K. Zworykin and J. Hillier, Microscopy: Electron, Medical Physics, Vol II, 1950, p 511-529 
56. J. Hiller, Electron Microscope, in Encyclopedia Britannica, 1960 
57. V.E. Cosslett, Practical Electron Microscopy, Academic Press, 1951, p 41-46 
58. H. Busch, Calculation of Trajectory of Cathode Rays in Electromagnetic Fields of Axial Symmetry, Ann. 
d. Physik, Vol 81, 1926, p 
59. E. Ruska and M. Knoll, The Electron Microscope, Ztschr. f. Physik, Vol 78, 1932, p 318 
60. E. Ruska, Advance in Building and Performing of Magnetic Electron Microscope, Ztschr. f. Physik, Vol, 
87, 1934, p 580 
61. E. Driest and H.O. Müller, Electron Micrographs of Chitin Substances, Ztschr. f. wissensch. Mikr., Vol 52, 
1935, p 53 
62. B. von Borries and E. Ruska, Development and Present Efficiency of the Electron Microscope, Wissensch. 
Veröfent. Siemens-Werke, Vol 17, 1938, p 99 
63. A. Prebus and J. Hillier, Construction of Magnetic Electron Microscope of High Resolving Power, Can. J. 
Res., Vol A17, 1939, p 49 
64. A.D. Romig, Jr. et al., Analytical Transmission Electron Microscopy, in Materials Characterization, Vol 
10, 9th ed., Metals Handbook, American Society for Metals, 1986, p 429-489 
65. L. Robert. J. Bussot, and J. Buzon, First International Congress for Electron Microscopy, Rev. d' Optique, 
1953, p 528 
66. D.E. Bradley, Br. J. Appl. Phys., Vol 5, 1954, p 96 
67. E. Smith and J. Nutting, Br, J. Appl. Phys., Vol 7, 1956, p 214 
68. A. Phillips, V. Kerlins, R.A. Rawe and B.V. Whiteson, Ed., Electron Fractography Handbook, sponsored 
by Air Force Materials Laboratory, Air Force Wright Aeronautical Laboratories, Air Force Systems 
Command, published by Metals and Ceramics Information Center, Battelle Columbus Laboratories, March 
1968 (limited quantities), June 1976 (unlimited distribution) 
69. C. Crussard, R. Borione, J. Plateau, Y. Morillon, and F. Maratray, A Study of Impact Test and the 
Mechanism of Brittle Fracture, J. Iron Steel Inst., Vol 183, June 1956, p 146 
70. C. Crussard and R. Tamhankar, High Temperature Deformation of Steels: A Study of Equicohesion, 
Activation Energies and Structural Modifications, Trans. AIME, Vol 212, 1958, p 718 
71. C. Crussard, J. Plateau, R. Tamhankar, and D. Lajeunesse, A Comparison of Ductile and Fatigue 
Fractures, (Swampscott Conference, 1959), John Wiley & Sons, 1959 
72. J. Plateau, G. Henry, and C. Crussard, Quelque Nouvelles Applications de la Microfractographie, Rev. 
Metall., Vol 54 (No. 3), 1957 
73. C.D. Beachem, "Characterizing Fractures by Electron Fractography, Part IV, The Slow Growth and Rapid 
Propagation of a Crack Through a Notched Type 410 Stainless Steel Wire Specimen," NRL Memorandum 
Report 1297, Naval Research Laboratory, April 1962 
74. C.D. Beachem, "Gases in Steel (Electron Fractograhic Examination of Ductile Rupture Tearing in a 
Notched Wire Specimen)," NRL Problem Report, Naval Research Laboratory, Aug 1962 
75. C.D. Beachem, "An Electron Fractographic Study of the Mechanism of Ductile Rupture in Metals," NRL 
Report 5871, Naval Research Laboratory, 31 Dec 1962 
76. C.D. Beachem, "Effect of Test Temperature Upon the Topography of Fracture Surfaces of AMS 6434 
Sheet Steel Specimens," NRL Memorandum Report 1293, Naval Research Laboratory, March 1962 
77. C.D. Beachem, "Characterizing Fractures by Electron Fractography, Part V, Several Fracture Modes and 
Failure Conditions in Four Steel Specimens," NRL Memorandum Report 1352, Naval Research 
Laboratory, Aug 1962 
78. C.D. Beachem, Electron Fractographic studies of Mechanical Fracture Processes in Metals, J. Basic Eng. 
(Trans. ASME), 1964 
79. C.D. Beachem and D.A. Meyn, "Illustrated Glossary of Fractographic Terms," NRL Memorandum Report 
1547, Naval Research Laboratory, June 1964 
80. C.D. Beachem, B.F. Brown, and A.J. Edwards, "Characterizing Fractures by Electron Fractography, Part 
XII, Illustrated Glossary, Section 1, Quasi-Cleavage," NRL Memorandum Report 1432, Naval Research 
Laboratory, June 1963 
81. C.D. Beachem, An Electron Fractographic Study of the Influence of Plastic Strain Conditions Upon 
Ductile Rupture Processes in Metals, Trans. ASM, Vol 56 (No. 3), Sept 1963, p 318 
82. C.D. Beachem, "The Interpretation of Electron Microscope Fractographs," NRL Report 6360, Naval 
Research Laboratory, 21 Jan 1966 
83. C.D. Beachem, Electron Fractographic Studies of Mechanical Processes in Metals, Trans. ASME, Series 
D, Vol 87, 1965 
84. C.D. Beachem and D.A Meyn, "Fracture by Microscope Plastic Deformation Process," Paper 41, 
presented at the Seventieth Annual Meeting of ASTM, Boston, MA, American Society for Testing and 
Materials, 25-30 June 1967 
85. C.D. Beachem, "The Formation of Cleavage Tongues in Iron," NRL Report, Naval Research Laboratory, 
Feb 1966 
86. C.D. Beachem, "The Interpretation of Electron Microscope Fractographs," NRL Report No. 6360, Naval 
Research Laboratory, 21 Jan 1966 
87. C.D. Beachem, Microscopic Fatigue Fracture Surface Features in 2024-T3 Aluminum and the Influence of 
Crack Propagation Angle Upon Their Formation, Trans. ASM, Vol 60, 1967, p, 324 
88. C.D. Beachem, "The Origin of Tire Tracks," NRL Progress Report, Naval Research Laboratory, May 1966 
89. C.D. Beachem, "The Usefulness of Fractography," Paper 46, presented at the Seventieth Annual Meeting 
of ASTM, Boston, MA, American Society for Testing and Materials, 25-30 June, 1967 
90. C.D. Beachem, "The Crystallographic of Herringbone Fractures in an Iron-Chromium-Aluminum Alloy," 
NRL Report, Naval Research Laboratory, Jan 1967 
91. C.D. Beachem and R.M.N. Pelloux, Electron Fractography--A Tool for the Study of Micromechanisms of 
Fracturing Processes, in Fracture Toughness Testing and Its Applications, STP 381, American Society for 
Testing and Materials, 1964 p 210-245 
92. R.M.N. Pelloux, "Influence of Constituent Particles on Fatigue Crack Propagation in Aluminum Alloys," 
DI-82-0297, Boeing Scientific Research Laboratories, Sept 1963 
93. R.M.N. Pelloux, "The Analysis of Fracture Surfaces by Electron Microscopy," DI-82-0169-RI, Boeing 
Scientific Research Laboratories, Dec 1963 
94. R.M.N. Pelloux and J.C. McMillan, The Analysis of Fracture Surfaces by Electron Microscopy, in 
Proceeding of the First International Conference of Fracture, Vol 2, Japanese Society for Strength and 
Fracture of Materials, 1966 
95. R.M.N. Pelloux, The Analysis of Fracture Surfaces by Electron Microscopy, Met., Eng. Quart., Nov 1965, 
p 26-37 
96. O.C. Wells, A. Boyde, E. Lifshin, and A. Rezanowich, Scanning Electron Microscopy, McGraw-Hill, 
1974 
97. M. Knoll, Static Potential and Secondary Emission of Bodies Under Electron Irradiation, Z. Tech. Phys., 
Vol 11, 1935, p 467-475 (in German) 
98. M. von Ardenne, The Scanning Electron Microscope: Practical Construction, Z. Tech. Phys., Vol 19, 1938, 
p 407-416 (in German) 
99. M. von Ardenne, The Scanning Electron Microscope: Theoretical Fundamentals, Z. Tech. Phys., Vol 109, 
1938, p 553-572 
100. V.K. Zworykin, J. Hillier, and R.L. Snyder, A Scanning Electron Microscope, ASTM Bull., No. 117, 1942, 
p 14-23 
101. C. Brachet, Note on the Resolution of the Scanning Electron Microscope, Bull. L'Assoc. Tech. Mar.