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Dynamic mechanical properties of elastin
Biopolymers, 1979AbstractThe dynamic mechanical properties of water‐swollen elastin under physiological conditions have been investigated. When elastin is tested as a colsed, fixed‐volume system, mechanical data could be temperature shifted to produce master curves.
J M, Gosline, C J, French
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Dynamic mechanical properties of amalgams
Journal of Biomedical Materials Research, 1981AbstractA recently developed dynamic mechanical analysis technique was utilized to determine the setting rates of dental amalgams. Via a compound parallel beam apparatus the dynamic mechanical properties of five amalgam materials were continuously measured at 37°C within ca. 7 min after the start of trituration.
R P, Kusy, A R, Greenberg
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Dynamic mechanical properties of dental amalgams
Dental Materials, 1990The dynamic mechanical properties of two high-copper amalgams (Tytin and Dispersalloy) and two traditional amalgams (Aristalloy and Aristalloy with Zn) were measured over a temperature range of 0-70 degrees C and at frequencies of 0.1, 1, and 10 Hz by means of a DuPont DMA.
J H, Chern Lin +3 more
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Dynamic mechanical properties of human lenses
Experimental Eye Research, 2005The purpose of this study was to determine the shear compliance of human crystalline lenses as a function of age and frequency. Dynamic mechanical analysis was performed on 39 human lenses, ranging in age from 18 to 90 years, within the frequency range of 0.001-30 Hz. The lenses were stored at -70 degrees C before being measured.
Henk A, Weeber +5 more
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2013
Studying the influence of temperature and loading frequency on the behavior of syntactic foams is important because of its diverse set of applications. Dynamic mechanical analysis (DMA) is a widely used technique for measuring viscoelastic properties of materials over a range of temperatures and loading frequencies. The storage modulus and loss modulus
Nikhil Gupta +2 more
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Studying the influence of temperature and loading frequency on the behavior of syntactic foams is important because of its diverse set of applications. Dynamic mechanical analysis (DMA) is a widely used technique for measuring viscoelastic properties of materials over a range of temperatures and loading frequencies. The storage modulus and loss modulus
Nikhil Gupta +2 more
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Dynamic Mechanical Properties of Mechanically Deformed Filaments
Textile Research Journal, 1985The effect of mechanical deformation on filament structure has been evaluated using a viscoelastometer. As a result of cyclic twisting, or torsional deformation, the fiber structure tends to disorient and behave more like an amorphous system where the loss factor (tan δ) increases as deformation cycles increase.
R.S. Chauhan, N.E. Dweltz
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Dynamic Mechanical Properties of Polyoxymethylene III
Japanese Journal of Applied Physics, 1967Dynamic mechanical measurements of a drawn polyoxymethylene are performed by a torsion pendulum apparatus over a frequency range of 1.0 to 0.005 Hz at various temperatures in the α-dispersion range. Real and imaginary parts of complex rigidity are measured on each of the specimens cut out from the drawn sample at various angles with the draw ...
Kyosuke Miki +2 more
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Dynamic Mechanical Properties of Sugarcane
Advanced Materials Research, 2013New design of a sugarcane shredder is being performed within a research project. This kind of equipment used to be traditionally designed on the basis experiences up to recent time. With increasing demand for the material economic utilization and reliable service, new material optimized design of shredders is required.
Jan Džugan +2 more
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1989
Knowledge of dynamic-mechanical properties is essential for the design of engineering components, such as antivibration mounts and sound-deadening devices. In addition, studies of these properties have added greatly to the understanding of molecular mobility in polymers.
Per Gradin +3 more
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Knowledge of dynamic-mechanical properties is essential for the design of engineering components, such as antivibration mounts and sound-deadening devices. In addition, studies of these properties have added greatly to the understanding of molecular mobility in polymers.
Per Gradin +3 more
openaire +1 more source