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Resistivity of a composite conducting polymer as a function of temperature, pressure, and environment: Applications as a pressure and gas concentration transducer (1986)

Lundberg, B. ; Sundqvist, B.

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 60 (1986), S. 1074-1079

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: The resistivity of a commercial carbon-filled composite conducting polymer (ET-Semicon(large-closed-square)) has been measured as a function of temperature between 80 and 400 K and under pressure up to 1.5 GPa (15 kbar). Large changes in resistivity were observed. The resistivity was also very sensitive to the presence of certain solvents and hydrocarbons. The results are explained as percolation effects caused by changes in volume due to pressure, thermal expansion, or dissolved solvents. The material studied is found to have a wide range of potential applications for pressure measurements and as a transducer for gas or liquid concentration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.337401

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Impact energy absorption by a rate-dependent locking target (1974)

Lundberg, B.

Springer

Flow, turbulence and combustion 29 (1974), S. 305-318

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ISSN: 1573-1987

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract The impact by an elastic cylindrical piston on a thin plate-like target resting on a rigid foundation is considered. The relationship between force F acting on the target and displacement x is given by F=kx+q dx/dt provided dx/dt≥0 and 0≤x〈d (k, q and d≥0). When x=d locking occurs, and F can assume any value ≥kd without increase in x. The displacement is assumed to be completely irreversible. The motion of the impactor is assumed to be governed by the elementary wave equation and, since the target is thin, wave motion in the target is neglected. The energy W=εFdx and its components W k=kεx dx (the energy absorbed in a corresponding quasistatic process) and W q=qε(dx/dt)2 dt (the excessive energy because of the rate-dependence) are determined in terms of the impact energy as functions of non-dimensional parameters representing k, q and d. With the aid of diagrams, it is shown under what circumstances locking occurs, and under what circumstances W k or W q, or both, are large.