Results 161 to 170 of about 10,854 (213)
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Generalized micropolar thermoelasticity
International Journal of Engineering Science, 1978Abstract The basis of entropy production inequality for classical thermoelastic solid, as proposed by Green and Laws[1] and independently by Suhubi[2], is extended in this paper to encompass the more general case of micropolar thermoelastic solids.
Dost, S., Tabarrok, B.
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Restudy of coupled field theories for micropolar continua (I)—Micropolar thermoelasticity
Applied Mathematics and Mechanics, 2002zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Lubrication Theory for Micropolar Fluids
Journal of Applied Mechanics, 1971The equations governing the flow of a fluid with rigid, spherical substructure are summarized. A two-dimensional flow field is considered and applied to the geometry of a slider bearing. Order-of-magnitude arguments are used which reduce the governing equations to a system of coupled, linear, ordinary differential equations.
Allen, S. J., Kline, K. A.
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Micropolar fluids with stretch
International Journal of Engineering Science, 1969Abstract Equations of motion, constitutive equations, and boundary conditions are derived for a class of micropolar fluids which can stretch or contract. These fluids respond to intrinsic rotational motions and spin inertia and therefore can support couple stress and body couples.
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Infrared liquid crystal polymer micropolarizer
Applied Optics, 2014The ability to create arbitrary patterned linear and circular infrared (IR) liquid crystal polymer (LCP) polarizers is demonstrated. The operating wavelength of the thin-film polarizer ranges from 700 to 4200 nm. The linear micropolarizer is fabricated using IR dichroic dye as a guest in LCP host with feature size as small as 4 μm.
Wei-Liang, Hsu +3 more
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Nature Chemical Biology
Macromolecules can undergo liquid–liquid phase separation to form condensates that have critical roles in biological functions and dysfunctions. A new study demonstrates that differences in micropolarity between components is a prime determinant of the multiphasic architecture of biomolecular condensates.
My Diem Quan +2 more
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Macromolecules can undergo liquid–liquid phase separation to form condensates that have critical roles in biological functions and dysfunctions. A new study demonstrates that differences in micropolarity between components is a prime determinant of the multiphasic architecture of biomolecular condensates.
My Diem Quan +2 more
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Journal of Lubrication Technology, 1975
An analysis of micropolar squeeze films is presented. Expressions are derived for calculating the pressure, the load-carrying capacity of the squeeze film and film thickness–time relationship. Numerical results computed from these expressions reveal that fluid microstructure improves the squeeze film action and increases the load-carrying capacity of ...
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An analysis of micropolar squeeze films is presented. Expressions are derived for calculating the pressure, the load-carrying capacity of the squeeze film and film thickness–time relationship. Numerical results computed from these expressions reveal that fluid microstructure improves the squeeze film action and increases the load-carrying capacity of ...
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Heat-conducting micropolar fluids
Rheologica Acta, 1971In this paper heat-conducting micropolar fluids are introduced as an extension of the theory of micropolar fluids. Constitutive equations appropriate to describe the thermal and mechanical response of micropolar fluids are constructed. The heat conduction equation is derived and the field equations are obtained. The solution to the problem ofPoiseuille
Kazakia, Y., Ariman, T.
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Noncentrosymmetry in micropolar elasticity
International Journal of Engineering Science, 1982Abstract Consequences of noncentrosymmetry in a micropolar elastic solid are considered. A solid which is isotropic with respect to coordinate rotations but not with respect to inversions, has three new elastic constants in addition to the six considered in the fully isotropic micropolar solid.
Lakes, Roderic S., Benedict, Robert L.
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