1 R. Truel, "Ultrasonic methods in solid state physics" Academic Press 136-138, 1969
2 M. Long, "Titanium alloys in total joint replacement-a materials science perspective" 19 : 1621-1639, 1998
3 M. Geetha, "Ti based biomaterials, the ultimate choice for orthopaedic implants – A review" 54 : 397-425, 2009
4 S. P. Timoshenko, "Teoria da elasticidade" Guanabara Dois 1980
5 T. Eadkhong, "Rotational dynamics with tracker" 33 : 615-622, 2012
6 T. Hanawa, "Research and development of metals for devices based on clinical needs" 11 (11): 64102-64116, 2012
7 D. Banerjee, "Perspectives on titanium science and technology" 61 : 844-879, 2013
8 H. E. Boyer, "Metal Handbook" ASM 1985
9 C. A. F. Pintão, "Medida do momento de inércia disco" 23 : 48-52, 2001
10 S. P. Timoshenko, "Mechanics of Materials" Van Nostrand Reinhold Co 1972
1 R. Truel, "Ultrasonic methods in solid state physics" Academic Press 136-138, 1969
2 M. Long, "Titanium alloys in total joint replacement-a materials science perspective" 19 : 1621-1639, 1998
3 M. Geetha, "Ti based biomaterials, the ultimate choice for orthopaedic implants – A review" 54 : 397-425, 2009
4 S. P. Timoshenko, "Teoria da elasticidade" Guanabara Dois 1980
5 T. Eadkhong, "Rotational dynamics with tracker" 33 : 615-622, 2012
6 T. Hanawa, "Research and development of metals for devices based on clinical needs" 11 (11): 64102-64116, 2012
7 D. Banerjee, "Perspectives on titanium science and technology" 61 : 844-879, 2013
8 H. E. Boyer, "Metal Handbook" ASM 1985
9 C. A. F. Pintão, "Medida do momento de inércia disco" 23 : 48-52, 2001
10 S. P. Timoshenko, "Mechanics of Materials" Van Nostrand Reinhold Co 1972
11 I. W. Griffiths, "Measuring the moment of inertia of the human body by a rotating platform method" 73 : 85-92, 2005
12 C. A. F. Pintão, "Measurement of the rotational inertia of bodies by using mechanical spectroscopy" 28 (28): 4011-4020, 2014
13 J. Goldemberg, "Fisica Geral e Experimental" Companhia Editora Nacional 481-483, 1970
14 C. A. F. Pintão, "Experimental study of the conventional equation to determine plate’s moment of inertia" 25 : 409-417, 2004
15 A. P. Boresi, "Elasticity in engineering mechanics" John Wiley & Sons 1999
16 P. Majundar, "Elastic modulus of biomedical titanium alloys by nano-indentation and ultrasonic techniques – A comparative study" A489 : 419-425, 2008
17 I. H. Shames, "Elastic and inelastic Stress analysis" Prentice-Hall International 1992
18 M. Niinomi, "Development of new metallic alloys for biomedical applications" 8 (8): 3888-3903, 2012
19 D. Amrani, "Computerized rotational system to study the moment of inertia of different objects" 27 : 1063-1069, 2006
20 P. F. Hinrichsen, "Bifilar suspension measurement of boat inertia parameters" 1 : 1-37, 2014
21 A. S. Nowick, "Anelastic relaxation in crystalline solids" Academic Press 1972
22 B. D. Ratner, "An introduction to materials in medicine" Biomaterials Science, Academic Press 2004
23 F. A. Tyler, "A Laboratory Manual of Physics" Edward Arnold 22-24, 1974