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Thermodynamics of Nitinol (1987)

McNichols, J. L. ; Cory, J. S.

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

Journal of Applied Physics 61 (1987), S. 972-984

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: A self-consistent macroscopic thermodynamics is developed for the calculation of work, heat, and dissipation for thermodynamic paths of the shape memory alloy, Nitinol. The thermodynamic system analyzed is a Nitinol helix for which extensive force–length–temperature (FLT) equation of state measurements have been made. The Nitinol system exhibits significant hysteresis and is determined to be a nonequilibrium thermostatic system. A set of equations of state are provided which correlate all reversible and irreversible Nitinol thermodynamic paths to both the set of helix (FLT) thermodynamic state variables and to new "history'' state variables. It is shown that these equations predict observed cyclic behaviors not previously interpreted. In the absence of calorimetric measurements for the Nitinol helix system, a physical assumption is made that reversible paths are of constant phase. This assumption is used to estimate the reversible path thermal and mechanical heat capacities for the Nitinol system. With the state equations and the estimated reversible path heat capacities, the nonequilibrium thermostatic formalism is employed to derive expressions for the heat flow for any Nitinol thermodynamic path. It is shown that predicted calorimetric quantities are in good qualitative agreement with measurements. It is also shown that the calorimetric quantities are sensitive to state equation coefficients, which in turn are sensitive to cold-working or "conditioning'' of the material. The large heat of transformation, ∼2.4 cal/g, an estimated isentropic temperature change of 22 °C and the large dimensional changes associated with the shape memory effect, imply that Nitinol may be useful for many applications, including use as a working medium for low-grade thermal-energy conversion (i.e., heat engines).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.338151

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Nonequilibrium thermostatics (1985)

Cory, J. S. ; McNichols, J. L.

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

Journal of Applied Physics 58 (1985), S. 3282-3294

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: A self-consistent thermodynamics is developed for nonrelaxation hysteretic processes. This theory, nonequilibrium thermostatics, is based upon macroscopic empirical descriptions of hysteretic behavior and the laws of thermodynamics. It is shown that the empirical behavior of hysteretic systems does not satisfy the conditions required for application of either equilibrium or relaxation nonequilibrium thermodynamics. Therefore, modified thermodynamic assumptions are proposed which are consistent with empirical hysteretic behavior. The principal new assumptions are (1) that processes (energy dissipation permitted) consists of a differential sequence of nonequilibrium states; (2) that three new "state variables'' describe all of the "history dependence of a state;'' (3) that at least some "reversible'' processes exist; (4) that the time-independent "modified Gibbs relation'' can be used to describe the Second Law constraints. With these assumptions, it is shown that the thermodynamic relationships derived from the First Law are identical to those for standard equilibrium thermodynamics, but Second Law implications are significantly different, e.g., a new "dissipation'' state function is derived; it is proven that hysteretic behavior is a positive indication of a dissipative process and that dissipation always causes hysteresis. It is concluded that nonequilibrium thermostatics provides a self-consistent theory which extends the useful domain of thermodynamics to include nonrelaxation, hysteretic (dissipative)processes. A comparison of detailed predictions and experimental measurements of heat capacities, adiabatic paths, etc., for a hysteretic system is provided in a separate paper.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.335788

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Effects of phenotypic plasticity on pathogen transmission in the field in a Lepidoptera-NPV system (2000)

Reeson, A. F. ; Wilson, K. ; Cory, J. S. ; [et al.]

Springer

Oecologia 124 (2000), S. 373-380

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ISSN: 1432-1939

Keywords: Key words Transmission ; Mass action assumption ; Phase polyphenism ; Spodoptera exempta ; Baculoviruses

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In models of insect–pathogen interactions, the transmission parameter (ν) is the term that describes the efficiency with which pathogens are transmitted between hosts. There are two components to the transmission parameter, namely the rate at which the host encounters pathogens (contact rate) and the rate at which contact between host and pathogen results in infection (host susceptibility). Here it is shown that in larvae of Spodoptera exempta (Lepidoptera: Noctuidae), in which rearing density triggers the expression of one of two alternative phenotypes, the high-density morph is associated with an increase in larval activity. This response is likely to result in an increase in the contact rate between hosts and pathogens. Rearing density is also known to affect susceptibility of S. exempta to pathogens, with the high-density morph showing increased resistance to a baculovirus. In order to determine whether density-dependent differences observed in the laboratory might affect transmission in the wild, a field trial was carried out to estimate the transmission parameter for S. exempta and its nuclear polyhedrosis virus (NPV). The transmission parameter was found to be significantly higher among larvae reared in isolation than among those reared in crowds. Models of insect–pathogen interactions, in which the transmission parameter is assumed to be constant, will therefore not fully describe the S. exempta-NPV system. The finding that crowding can influence transmission in this way has major implications for both the long-term population dynamics and the invasion dynamics of insect–pathogen systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420000397

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Characterization of the DNA of granulosis viruses isolated from two closely related moths,Chilo infuscatellus andC. saccariphagus indicus (1990)

Easwaramoorthy, S. ; Cory, J. S.

Springer

Archives of virology 110 (1990), S. 113-119

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ISSN: 1432-8798

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Digestion of the DNA fromChilo infuscatellus andC. saccariphagus indicus GVs with the restriction endonucleasesEcoRI,BamHI,XhoI, andSalI, produced readily distinguishable profiles, with very few co-migrating fragments. The approximate size of the genome was calculated to be 112 kbp for both GVs. The percent relative hybridization between the two DNAs was in the range 30 to 40%.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01310707

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