Details

Title

Development Of High-Resolution Mechanical Spectroscopy, HRMS: Status And Perspectives. HRMS Coupled With A Laser Dilatometer

Journal title

Archives of Metallurgy and Materials

Yearbook

2015

Numer

No 3 September

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Identifier

ISSN 1733-3490

References

Jiang (2010), Further evidence of grain boundary internal friction in bicrystals, Mater Sci Eng, 527. ; Nó (2003), San Juan Damping behavior during martensitic transformation in shape memory alloys, Alloy Compd, 355. ; Benoit (1990), Anna Apparatus for dynamic and static measurements of mechanical properties of solids and of flux - lattice in type - II superconductors at low frequency Hz and temperature, Rev Sci Instrum, 10, 500. ; Magalas (2009), Ghost internal friction peaks ghost asymmetrical peak broadening and narrowing Misunderstandings consequences and solution, Mater Sci Eng, 521. ; Rodrigues (1986), de Correlation between expansivity and internal friction during the martensitic transformation in Fe - Ni and Fe alloys of the on Martensitic Transformations The Japan Institute of Metals, Proc Int Conf, 43, 447. ; Martin (2008), Tempering effects on three martensitic carbon steels studied by mechanical spectroscopy, Philos Mag, 88. ; Gavriljuk (2013), Low - temperature martensitic transformation in tool steels in relation to their deep cryogenic treatment, Acta Mater, 38, 61. ; Magalas (2008), Recent advances in determination of the logarithmic decrement and the resonant frequency in low - frequency mechanical spectroscopy, Sol St Phen, 137. ; Tkalcec (2006), Correlation between internal friction background and the concentration of carbon in solid solution in a martensitic steel, Mater Sci Eng, 442. ; Van Humbeeck (2001), The martensitic transformation, Materials Science Forum, 40, 366. ; Lu (2014), Origin of low - temperature shoulder internal friction peak of Snoek - Köster peak in a medium carbon high alloyed steel, Solid State Commun, 39, 195. ; Shui (1999), Relationship between the internal friction values of the specimen and the vibration system, Rev Sci Instrum, 70. ; Dutz (1990), Internal friction in the alloyed Fe martensites, Materials Science Forum, 56. ; Magalas (2006), Determination of the logarithmic decrement in mechanical spectroscopy, Sol St Phen, 115. ; Shi (2006), Basic mechanism of grain - boundary internal friction revealed by a coupling model Physical, Rev, 44, 73. ; Hoyos (2012), Anelastic effects on martensitic carbon steel, Sol St Phen, 184. ; Wang (2007), Comparative analysis of internal friction and natural frequency measured by free decay and forced vibration, Rev Sci Instrum, 78. ; Blanter (2003), Strain - induced interaction of dissolved atoms and mechanical relaxation in solid solutions A review, Sol St Phen, 89. ; Zhu (1997), Precise linear internal friction expression for a freely decaying vibrational system, Rev Sci Instrum, 68. ; Tweten (2014), Minimizing error in the logarithmic decrement method through uncertainty propagation, Sound and Vibration, 333. ; Woirgard (1977), Apparatus for the measurement of internal friction as a function of frequency between Hz, Rev Sci Instrum, 10, 48. ; Benoit (2001), Grain boundary relaxation in metals, Materials Science Forum, 47, 366. ; Gremaud (2001), Dislocation - point defect interactions, Materials Science Forum, 366. ; Bagramov (2001), Internal friction in a martensitic high - carbon steel, Philos Mag A, 81. ; Hoyos (2012), Evolution of martensitic microstructure of carbon steel tempered at low temperatures, Procedia Materials Science, 1. ; Jiang (2010), Internal friction in Al bicrystals with tilt and twist grain boundaries, Phil Mag, 46, 111. ; Magalas (2006), Advanced techniques for determining high and extreme high damping : OMI A new algorithm to compute the logarithmic decrement Key, Eng Materials, 319. ; Gribb (1998), A high - temperature torsion apparatus for the high - resolution characterization of internal friction and creep in refractory metals and ceramics : Application to the seismic - frequency dynamic response of Earth s upper mantle, Rev Sci Instrum, 13, 61. ; Klems (1976), Internal friction in ferrous martensites, Metall Mater Trans A, 34, 7. ; Magalas (2015), Hilbert - twin - A novel Hilbert transform - based method to compute envelope of free decaying oscillations embedded in noise and the logarithmic decrement in high - resolution mechanical spectroscopy HRMS, Arch Metall Mater, 60. ; Magalas (2012), Toward high - resolution mechanical spectroscopy HRMS Resonant frequency Young s modulus, Sol St Phen, 184. ; Magalas (2003), On the interaction of dislocations with interstitial atoms in BCC metals using mechanical spectroscopy : the Cold Work the Snoek and the Snoek peak Dedicated to the memory of Professor Ting - Sui Kê, Acta Metallurgica Sinica, 33, 39. ; Etienne (1981), Automatic system for micromechanical properties analysis de, Phys, 5, 1129. ; Schaller (2001), Grain boundary relaxations in ceramics, Materials Science Forum, 48, 366. ; Majewski (2012), Advances in computational high - resolution mechanical spectroscopy HRMS Part Resonant frequency Young s modulus IOP Conf Series, Materials Science and Engineering, 31. ; Magalas (2012), Toward high - resolution mechanical spectroscopy HRMS Logarithmic decrement, Sol St Phen, 184. ; Yoshida (1981), Automation of internal friction measurement apparatus of inverted torsion pendulum type, Sci Instrum, 14.

DOI

10.1515/amm-2015-0350

×