A. Hamel scite author profile

The extrusion foaming process involves several critical steps, in which the physical foaming agent plays a significant role: plasticization, solubility, nucleation and bubble growth. Although these aspects can be studied by different techniques, a novel method based on ultrasonic sensors has proven to provide valuable information with respect to the thermoplastic foaming process. This technique can be either used off-line as a characterization tool to improve our understanding of the foaming agent characteristics, or it can be installed in-line, on the extrusion line, as a control device. Review of the different applications of this technique will be covered in this paper, with numerous examples given to the mixture of PS with CO2. The degree of plasticization of the polymer as a function of the blowing agent concentration will be addressed first, followed by the detection of the conditions prone to induce nucleation, in terms of pressure, temperature, type of nucleating agents and flow conditions. The evaluation of the kinetics of bubble growth will also be explored.

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Fatigue behaviour of a nickel alloyed sintered steel

Carabajar¹,

Verdu²,

Hamel³

et al. 1998

Materials Science and Engineering: A

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Influence of Er:YAG and Nd:YAG wavelengths on laser-induced breakdown spectroscopy measurements under air or helium atmosphere

et al. 2003

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Laser-induced breakdown spectroscopy (LIBS) is widely dependent on the conditions of its implementation in terms of laser characteristics (wavelength, energy, and pulse duration), focusing conditions, and surrounding gas. In this study two wavelengths, 1.06 and 2.94 microm, obtained with Nd:YAG and Er:YAG lasers, respectively, were used for LIBS analysis of aluminum alloy samples in two conditions of surrounding gas. The influence of the laser wavelength on the laser-produced plasma was studied for the same irradiance by use of air or helium as a buffer gas at atmospheric pressure. We used measurements of light emission to determine the temporally resolved space-averaged electron density and plasma temperature in the laser-induced plasma. We also examined the effect of laser wavelength in two different ambient conditions in terms of spectrochemical analysis by LIBS. The results indicate that the effect of the surrounding gas depends on the laser wavelength and the use of an Er:YAG laser could increase linearity by limiting the leveling in the calibration curve for some elements in aluminum alloys. There is also a significant difference between the plasma induced by the two lasers in terms of electron density and plasma temperature.

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Ultrasonic Characterization of Polymers as Function of Temperature, Pressure and Frequency

Piché¹,

Massines²,

Lessard³

et al. 1987

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Coherence multiplexing using a parallel array of electrooptic modulators and multimode semiconductor lasers

Goedgebuer

Hamel²

1987

IEEE J. Quantum Electron.

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A. Hamel

Application of Ultrasonic Sensors in the Study of Physical Foaming Agents for Foam Extrusion

Fatigue behaviour of a nickel alloyed sintered steel

Influence of Er:YAG and Nd:YAG wavelengths on laser-induced breakdown spectroscopy measurements under air or helium atmosphere

Ultrasonic Characterization of Polymers as Function of Temperature, Pressure and Frequency

Coherence multiplexing using a parallel array of electrooptic modulators and multimode semiconductor lasers

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