Showing total 6,056 results

1. A method to determine arsenic concentration in drinking water based on proton gradient and conductance measurements in filter paper media.

Author

Rozario, Joan and Hussam, Abul

Subjects

*FILTER paper, *ARSENIC in water, *PROTONS, *ARSENIC, *GROUNDWATER sampling, *DRINKING water

Abstract

This work describes a novel technique for the measurement of inorganic arsenic in water by generating arsine gas and detecting the conductivity of moving protons, H+ (aqueous or aq), produced by the reaction: Ag+ (aq) + AsH3 (gas, g) → AgAsH2 (solid, s) + H+ (aq). The detection is based on an electrochemical gradient of protons in a confined porous substrate (filter paper) and measures the change in the conductance due to the higher mobility of H+ compared to other ions. The conductance was measured with a pair of silver electrodes attached to opposite sides of the substrate with a bipolar pulse conductance technique. The method is established in theory and in practice. The theoretical equation for conductance change shows that a constant increase in conductance is directly proportional to the As(total) concentration. The method is validated with a standard reference material and applied to the measurement of the groundwater sample. [ABSTRACT FROM AUTHOR]

Published

2023

2. Molecular simulation of different types of polysilsesquioxane doped cellulose insulating paper: A guide for special cellulose insulating paper.

Author

Zeng, Zhenglin, Tan, Weimin, Deng, Yanhe, Cheng, Quan, Fu, Liuyue, and Tang, Chao

Subjects

*CELLULOSE fibers, *CELLULOSE, *GLASS transition temperature, *MODULUS of rigidity, *BULK modulus, *ELASTIC modulus, *DIELECTRIC properties

Abstract

To develop special insulating paper is of great significance to promote the service life of transformers. Using molecular simulation to guide the development of special insulating paper can greatly reduce the trial-and-error rate and waste of resources in traditional experiments. The effect of different types of polysilsesquioxane (POSS) on cellulose insulating paper was investigated by using molecular simulation. This paper investigated the thermal stability and mechanical properties and electrical characteristics of caged POSS, semi-caged POSS, and ladder-like POSS doped cellulose insulating paper. The results show that POSS with all types can enhance the performance of cellulose insulating paper, and ladder-like POSS possess the best modification effect. The glass transition temperature was increased by 58 K, and the bulk modulus, shear modulus, and elastic modulus of cellulose insulating paper doped with ladder-like POSS can improve up to 27.07%, 45.67%, and 41.28%, respectively. Meanwhile, the dielectric properties of ladder-like POSS modified insulating paper are also significantly improved. The findings of this paper propose a method for the preparation of ladder-like POSS modified insulating paper, which provides theoretical guidance for the experimental preparation of special insulating paper. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fabrication of negative magnetostrictive Japanese traditional paper (washi) with cobalt ferrite particles.

Author

Kurita, Hiroki, Rova, Lovisa, Keino, Takumi, and Narita, Fumio

Subjects

*MAGNETOSTRICTION, *FERRITES, *COBALT, *JAPANESE language, *WOOD-pulp, *CELLULOSE fibers, *MAGNETIC particles

Abstract

The cellulose fibers that form washi are longer than those of regular paper made from wood pulp. Hence, the mechanical properties of washi can be higher than those of conventional paper. This study evaluated the magnetic, magnetostrictive, and tensile properties of negative magnetostrictive cobalt ferrite (CoFe2O4) particle dispersed handmade washi (washi−CoFe2O4). The CoFe2O4 additives magnetized the washi, which displayed negative magnetostriction with the fiber direction perpendicular to the magnetic field and in the parallel fiber direction. Concerning the mechanical properties, the washi−CoFe2O4 displayed an elongation of up to 77% after yielding. [ABSTRACT FROM AUTHOR]

Published

2023

4. Electrically and magnetically dual-driven Janus particles for handwriting-enabled electronic paper.

Author

Komazaki, Y., Hirama, H., and Torii, T.

Subjects

*JANUS particles, *ELECTRONIC paper, *MICROFLUIDIC analytical techniques, *SUPERPARAMAGNETIC materials, *NANOPARTICLES, *ELECTRIC potential, *MAGNETIC fields, *INTERNET forums

Abstract

In this work, we describe the synthesis of novel electrically and magnetically dual-driven Janus particles for a handwriting-enabled twisting ball display via the microfluidic technique. One hemisphere of the Janus particles contains a charge control agent, which allows the display color to be controlled by applying a voltage and superparamagnetic nanoparticles, allows handwriting by applying a magnetic field to the display. We fabricated a twisting ball display utilizing these Janus particles and tested the electric color control and handwriting using a magnet. As a result, the display was capable of permitting handwriting with a small magnet in addition to conventional color control using an applied voltage (80 V). Handwriting performance was improved by increasing the concentration of superparamagnetic nanoparticles and was determined to be possible even when 80V was applied across the electrodes for 4 wt.% superparamagnetic nanoparticles in one hemisphere. This improvement was impossible when the concentration was reduced to 2 wt.% superparamagnetic nanoparticles. The technology presented in our work can be applied to low-cost, lightweight, highly visible, and energy-saving electronic message boards and large whiteboards because the large-size display can be fabricated easily due to its simple structure. [ABSTRACT FROM AUTHOR]

Published

2015

5. Reactive molecular dynamics research on influences of water on aging characteristics of PMIA insulation paper.

Author

Wang, Lihan, Yin, Fei, Shen, Yin, and Tang, Chao

Subjects

*MOLECULAR dynamics, *INSULATING oils, *CHEMICAL stability, *HYDROXYL group, *ACTIVATION energy, *MOISTURE content of food

Abstract

The diffusion of moisture in the meta-aramid fiber (PMIA) oil-paper insulation system and the thermal decomposition of PMIA insulation paper in different moisture contents were studied via molecular dynamics simulations. The results showed that the PMIA insulation paper had a stronger ability to absorb water molecules than the insulating oil; therefore, water molecules in the insulating oil diffuse to the insulation paper, which further affects the thermal decomposition of the PMIA insulation paper. The activation energy of the water-bearing composite model was 129.96 kJ/mol, which was 5.5% lower than that of the pure PMIA (137.61 kJ/mol). It indicated that moisture could promote PMIA decomposition. The micromechanism of the enhanced thermal decomposition of PMIA with moisture contents could be described as follows: The O–H bond of the water can easily break to generate H atoms and hydroxyl radicals (•OH). The strong activity of H atoms allows it to easily combine with the ammonia base at the end of PMIA to generate NH3. Additionally, the free •OH radical can easily combine with the amido and carbonyl bonds at two ends of PMIA, undergo an oxidation reaction, and generate an oxhydryl. Therefore, it can reduce the chemical stability of the PMIA chain and further drive thermal decomposition. Statistical data on fragments generated by the thermal decomposition of the water-bearing PMIA composite system show that the main products include H2, C/H/O-containing molecules, hydrocarbon molecules, N-bearing molecules, and free radicals. [ABSTRACT FROM AUTHOR]

Published

2020

6. Fabrication and characterization of graphene-based paper for heat spreader applications.

Author

Muhsan, Ali A. and Lafdi, Khalid

Subjects

*THERMAL conductivity measurement, *THERMAL conductivity, *CHEMICAL processes, *CHEMICAL vapor deposition, *SCANNING electron microscopy, *SLURRY

Abstract

In this work, in-plane thermal conductivity measurement was carried out on graphene-based papers. Graphene-based papers were fabricated using various processing techniques such as chemical vapor deposition (CVD), hot pressing of graphene slurry, and evaporation induced self-assembly. The prepared materials were characterized using scanning electron microscopy, Raman spectroscopy, and X-ray diffraction. In-plane thermal conductivity measurement was performed via a steady state thin film thermal conductivity apparatus. The in-plane thermal conductivity measurements show that the CVD based sample has the highest thermal conductivity. COMSOL Multiphysics was used to simulate the in-plane thermal conductivity of graphene-based papers. [ABSTRACT FROM AUTHOR]

Published

2019

7. X-ray texture analysis of paper coating pigments and the correlation with chemical composition analysis.

Author

Roine, J., Tenho, M., Murtomaa, M., Lehto, V.-P., and Kansanaho, R.

Subjects

*SURFACES (Technology), *PRINTING properties of paper, *PRINTING equipment, *X-ray spectroscopy, *SURFACE coatings

Abstract

The present research experiments the applicability of x-ray texture analysis in investigating the properties of paper coatings. The preferred orientations of kaolin, talc, ground calcium carbonate, and precipitated calcium carbonate particles used in four different paper coatings were determined qualitatively based on the measured crystal orientation data. The extent of the orientation, namely, the degree of the texture of each pigment, was characterized quantitatively using a single parameter. As a result, the effect of paper calendering is clearly seen as an increase on the degree of texture of the coating pigments. The effect of calendering on the preferred orientation of kaolin was also evident in an independent energy dispersive spectrometer analysis on micrometer scale and an electron spectroscopy for chemical analysis on nanometer scale. Thus, the present work proves x-ray texture analysis to be a potential research tool for characterizing the properties of paper coating layers. [ABSTRACT FROM AUTHOR]

Published

2007

8. Improvements of mechanical properties of multilayer open-hole graphene papers.

Author

Xia, Yuxuan, Li, Yeyuan, Zhu, Chunhua, Wei, Ning, and Zhao, Junhua

Subjects

*SHEAR strength, *CARBON-carbon bonds, *TENSILE strength, *STRESS concentration, *COVALENT bonds, *LAMINATED glass

Abstract

Holes and defects can greatly reduce the mechanical properties of multilayer graphene sheets under different loading conditions due to the stress concentration near the hole edge in each in-plane sheet and the lack of interlayer carbon–carbon bonds between the layers. Here, we report a novel design of multilayer open-hole graphene papers (MLGPs) formed through interlayer covalent bonding at the hole edges of multilayer open-hole graphene sheets (MLGSs) under high temperature using molecular dynamics (MD) simulations. Our MD results show that the hybrid sp2–sp3 interlayer bonds of MLGPs can significantly improve their both tensile strength and interlayer shear strength. The tensile strength and interlayer shear strength of MLGPs increase by around 20% and 3 times by comparison with those of MLGSs with the same number of layers, respectively, which mainly depends on the uniformity of their interlayer bond distribution. This study can provide an effective way to improve the mechanical performances of multilayer graphene sheets with flaws and also offer corresponding guidance for the design of MLGS-based nanocomposites. [ABSTRACT FROM AUTHOR]

Published

2019

9. Thermophysical characterization of artificially aged papers by means of the photothermal...

Author

Bertolotti, M. and Ligia, S.

Subjects

*PAPER, *THERMOPHYSICAL properties

Abstract

Presents information on a study which determined the thermophysical properties of artificially aged paper samples by means of photothermal deflection technique. Theory; Experimental results and discussion; Conclusions.

Published

1999

10. Thin film versus paper-like reduced graphene oxide: Comparative study of structural, electrical, and thermoelectrical properties.

Author

Okhay, Olena, Gonçalves, Gil, Tkach, Alexander, Dias, Catarina, Ventura, Joao, da Silva, Manuel Fernando Ribeiro, Valente Gonçalves, Luís Miguel, and Titus, Elby

Subjects

*GRAPHENE oxide, *THIN films, *CHEMICAL reduction, *HYDRAZINE, *SEMICONDUCTORS

Abstract

We report fabrication of reduced graphene oxide (rGO) films using chemical reduction by hydrazine hydrate and rGO paper-like samples using low temperature treatment reduction. Structural analysis confirms the formation of the rGO structure for both samples. Current-voltage (I-V) measurements of the rGO film reveal semiconductor behavior with the maximum current value of ~3×10-4A. The current for the rGO paper sample is found to be, at least, one order of magnitude higher. Moreover, bipolar resistance switching, corresponding to memristive behavior of type II, is observed in the I-V data of the rGO paper. Although precise values of the rGO film conductivity and the Seebeck coefficient could not be measured, rGO paper shows an electrical conductivity of 6.7×102S/m and Seebeck coefficient of -6μV/°C. Thus, we demonstrate a simplified way for the fabrication of rGO paper that possesses better and easier measurable macroscopic electrical properties than that of rGO thin film. [ABSTRACT FROM AUTHOR]

Published

2016

11. X-ray microtomography and laser ablation in the analysis of ink distribution in coated paper.

Author

Myllys, M., Häkkänen, H., Korppi-Tommola, J., Backfolk, K., Sirviö, P., and Timonen, J.

Subjects

*LASER ablation, *X-ray computed microtomography, *INK chemistry, *PERMEABILITY of paper coatings, *PROFILOMETER, *PENETRATION mechanics

Abstract

A novel method was developed for studying the ink-paper interface and the structural variations of a deposited layer of ink. Combining high-resolution x-ray tomography with laser ablation, the depth profile of ink (toner), i.e., its varying thickness, could be determined in a paper substrate. X-ray tomography was used to produce the 3D structure of paper with about 1 μm spatial resolution. Laser ablation combined with optical imaging was used to produce the 3D structure of the printed layer of ink on top of that paper with about 70 nm depth resolution. Ablation depth was calibrated with an optical profilometer. It can be concluded that a toner layer on a light-weight-coated paper substrate was strongly perturbed by protruding fibers of the base paper. Such fibers together with the surface topography of the base paper seem to be the major factors that control the leveling of toner and its penetration into a thinly coated paper substrate. [ABSTRACT FROM AUTHOR]

Published

2015

12. Paper-based ultracapacitors with carbon nanotubes-graphene composites.

Author

Jian Li, Xiaoqian Cheng, Jianwei Sun, Brand, Cameron, Shashurin, Alexey, Reeves, Mark, and Keidar, Michael

Subjects

*SUPERCAPACITORS, *CARBON nanotubes, *GRAPHENE, *SCANNING electron microscopes, *TRANSMISSION electron microscopes, *RAMAN spectroscopy, *THIN films

Abstract

In this paper, a paper-based ultracapacitors were fabricated by the rod-rolling method with the ink of carbon nanomaterials, which were synthesized by arc discharge under various magnetic conditions. Composites of carbon nanostructures, including high-purity single-walled carbon nanotubes (SWCNTs) and graphene flakes were synthesized simultaneously in a magnetically enhanced arc. These two nanostructures have promising electrical properties and synergistic effects in the application of ultracapacitors. Scanning electron microscope, transmission electron microscope, and Raman spectroscopy were employed to characterize the properties of carbon nanostructures and their thin films. The sheet resistance of the SWCNT and composite thin films was also evaluated by four-point probe from room temperature to the cryogenic temperature as low as 90 K. In addition, measurements of cyclic voltammetery and galvanostatic charging/discharging showed the ultracapacitor based on composites possessed a superior specific capacitance of up to 100 F/g, which is around three times higher than the ultracapacitor entirely fabricated with SWCNT. [ABSTRACT FROM AUTHOR]

Published

2014

13. Advanced mechanical properties of graphene paper.

Author

Bei Wang, Xiaoping Shen, Guoxiu Wang, and Ranjbartoreh, Ali R.

Subjects

*GRAPHENE, *CARBON steel, *MICROMECHANICS, *STRAINS & stresses (Mechanics), *STRENGTH of materials, *CARBON

Abstract

Graphene paper (GP) has been prepared by flow-directed assembly of graphene nanosheets. The mechanical properties of as-prepared GPs were investigated by tensile, indentation, and bending tests. Heat treated GPs demonstrate superior hardness, ten times that of synthetic graphite, and two times that of carbon steel; besides, their yielding strength is significantly higher than that of carbon steel. GPs show extremely high modulus of elasticity during bending test; in the range of a few terapascal. The high strength and stiffness of GP is ascribed to the interlocking-tile microstructure of individual graphene nanosheets in the paper. These outstanding mechanical properties of GPs could lead to a wide range of engineering applications. [ABSTRACT FROM AUTHOR]

Published

2011

14. Temperature-dependence of electrical and dielectric properties of papers for electrophotography.

Author

Maldzius, R., Sirviö, P., Sidaravicius, J., Lozovski, T., Backfolk, K., and Rosenholm, J. B.

Subjects

*ELECTROPHOTOGRAPHY, *PRINTING, *PHOTORECEPTORS, *ELECTRIC fields, *ELECTRIC conductivity, *TEMPERATURE

Abstract

The temperature-dependence of the electrical and dielectric properties of paper substrates was studied using experimental papers with different NaCl contents, different thicknesses, and different grammages. Physical processes related to the charging potential, charge decay rate, conductivity, dielectric constant, and dielectric loss of papers are dependent on thermal energy, and this dependence on temperature can be described by exponential expressions. The ion content of paper not only determines the level of these properties at a given temperature, as expected but also influences their temperature-dependence. Frequency analysis of the dielectric loss confirms that new structures are formed in paper by the addition of NaCl. The results may be applicable to the design of materials and equipment, e.g., for the electrophotographic printing processes. [ABSTRACT FROM AUTHOR]

Published

2010

15. Electrical conductivity of carbon-nanotube/cellulose composite paper.

Author

Tanaka, Tomo, Sano, Eiichi, Imai, Masanori, and Akiyama, Kousuke

Subjects

*CARBON nanotubes, *NANOTUBES, *ELECTRIC conductivity research, *CELLULOSE, *COMPOSITE materials, *QUANTUM tunneling, *MATHEMATICAL models

Abstract

We fabricated multiwalled carbon-nanotube/cellulose composite papers and measured their temperature dependences of electrical conductivity. The dependences were described with the Sheng’s fluctuation-induced tunneling (FIT) model. A possible mechanism of the electrical conduction in the composite paper was discussed in the context of the FIT model. [ABSTRACT FROM AUTHOR]

Published

2010

16. Radiation effects in single-walled carbon nanotube papers.

Author

Cress, Cory D., Schauerman, Christopher M., Landi, Brian J., Messenger, Scott R., Raffaelle, Ryne P., and Walters, Robert J.

Subjects

*CARBON nanotubes, *NANOTUBES, *IONIZING radiation, *RADIATION, *NANOSTRUCTURES

Abstract

The effects of ionizing radiation on the temperature-dependent conductivity of single-walled carbon nanotube (SWCNT) papers have been investigated in situ in a high vacuum environment. Irradiation of the SWCNT papers with 4.2 MeV alpha particles results in a steady decrease in the SWCNT paper conductivity, resulting in a 25% reduction in room temperature conductivity after a fluence of 3×1012 alpha particles/cm2. The radiation-induced temperature-dependent conductivity modification indicates that radiation damage causes an increase in the effective activation barrier for tunneling-like conductivity and a concomitant increase in wavefunction localization of charge carriers within individual SWCNTs. The spatial defect generation within the SWCNT paper was modeled and confirms that a uniform displacement damage dose was imparted to the paper. This allows the damage coefficient (i.e., differential change in conductivity with fluence) for alpha particles, carbon ions, and protons to be compared with the corresponding nonionizing energy loss (NIEL) of the incident particle. The resulting nonlinear relationship with NIEL between these parameters is distinct from the more typical linear response observed in many bulk semiconductors and superconductors and indicates that localized radiation damage in the SWCNT papers has a greater impact than distributed damage. Although SWCNT papers behave largely as a bulk material with properties that are a convolution of the underlying SWCNT distribution, the radiation response appears to be largely dominated by degradation in the preferred one-dimensional conduction within these two-dimensionally confined nanostructures. [ABSTRACT FROM AUTHOR]

Published

2010

17. Biocellulose-based flexible magnetic paper.

Author

Barud, H. S., Tercjak, A., Gutierrez, J., Viali, W. R., Nunes, E. S., Ribeiro, S. J. L., Jafellici, M., Nalin, M., and Marques, R. F. C.

Subjects

*CELLULOSE, *ELECTROMAGNETIC waves, *X-rays, *IRON oxides, *SPECTRUM analysis, *ADSORPTION, *MAGNETIC materials

Abstract

Biocellulose or bacterial cellulose (BC) is a biocompatible (nano) material produced with a threedimensional network structure composed of microfibrils having nanometric diameters obtained by the Gluconacetobacter xylinus bacteria. BC membranes present relatively high porosity, allowing the incorporation or synthesis in situ of inorganic nanoparticles for multifunctional applications and have been used as flexible membranes for incorporation of magnetic nanocomposite. In this work, highly stable superparamagnetic iron oxide nanoparticles (SPION), functionalized with polyethylene glycol (PEG), with an average diameter of 5 nm and a saturation magnetization of 41 emu/g at 300K were prepared. PEG-Fe2O3 hybrid was dispersed by mixing a pristine BC membrane in a stable aqueous dispersion of PEG-SPION. The PEG chains at PEG-SPION's surface provide a good permeability and strong affinity between the BC chains and SPION through hydrogen-bonding interactions. PEG-SPION also allow the incorporation of higher content of nanoparticles without compromising the mechanical properties of the nanocomposite. Structural and magnetic properties of the composite have been characterized by XRD, SEM, energy-dispersive X-ray spectroscopy (EDX), magnetization, Raman spectroscopy, and magnetic force microscopy. [ABSTRACT FROM AUTHOR]

Published

2015

18. Modeling of electromechanical behavior of chitosan-blended cellulose electroactive paper (EAPap).

Author

Jang, Sang-Dong, Kim, Joo-Hyung, and Kim, Jaehwan

Subjects

*CHITOSAN, *CELLULOSE, *ELECTRIC fields, *ACTUATORS, *BENDING (Metalwork), *IONS

Abstract

Electromechanical bending actuation of chitosan-blended cellulose (CBC) electroactive paper (EAPap) was studied using a theoretical model, followed by an experimental comparison. The bending displacement of the model was calculated based on an ion traveling phenomenon and multilayered cantilever beam. By comparing the bending model and experimental data, we found that the bending model could predict the electromechanical actuation behavior as well as redistribution of ions inside of CBC EAPap under different humidity levels and electric fields. The bending actuation model of EAPap can be useful to investigate the electromechanical actuation behavior of EAPap devices such as artificial muscles, microrobots, and other various actuators. [ABSTRACT FROM AUTHOR]

Published

2009

19. Simulation studies of internal mechanisms in the static deflection of a cellulose electroactive paper actuator.

Author

Joshi, R. P., Mbaye, F., Basappa, P., Jang, S. D., Kim, J., and Hall, J. C.

Subjects

*HUMIDITY, *ABSORPTION, *STRAINS & stresses (Mechanics), *PROPERTIES of matter, *DYNAMICS, *PHYSICS

Abstract

Studies of voltage-induced deflections in electroactive paper (EAPap) have been carried out. On the experimental side, measurements of bias-dependent deflections and strain, water absorption as a function of time, and relative humidity were obtained for the cellulose EAPap actuator. In addition, model simulations have also been carried out to probe and quantify the role of the various internal mechanisms responsible for the deflection. Our simulation predictions yield good agreement with the measured deflection data for the EAPap. The modeling suggests that internal ion content and its migration, water absorption leading to a nonuniform permittivity, random variations in the transverse piezoelectric-coupling coefficient d31,i, and the modulus of elasticity all collectively contribute to the EAPap deflection electrophysics. It also appears that higher sensitivity, with a minimal bias dependence, could be achieved by deliberately adding ions during EAPap processing. [ABSTRACT FROM AUTHOR]

Published

2008

20. Model for electrostatic imaging of forensic evidence via discharge through Mylar-paper path.

Author

Seward, George H.

Subjects

*ELECTROSTATICS, *PHYSICS

Abstract

Presents a model for the electrostatic detection apparatus. Why the model was developed; Information on the experimental evidence provided to support the model; Role of Mylar-paper in the detection apparatus; Detailed information on the model presented.

Published

1998

21. Synthesis, characterizations, and field emission studies of crystalline Na2V6O16 nanobelt paper.

Author

Lim, S. H., Lin, J. Y., Zhu, Y. W., Sow, C. H., and Ji, W.

Subjects

*SEMICONDUCTORS, *CRYSTALS, *ELECTRIC conductivity, *ELECTRICAL engineering materials, *FIELD emission, *ELECTRON emission

Abstract

Crystalline Na2V6O16·3H2O nanobelts have been synthesized by refluxing V2O5 and NaF and self-weaved into a sheet of paper via a vacuum filtration process. Scanning electron microscopy, x-ray diffraction, and x-ray photoelectron spectroscopy were used to characterize the morphology, structure, and chemical composition of the nanobelt papers. The dehydrated Na2V6O16 nanobelts are excellent field emission candidates, with a low turn-on field of 6.8 V/μm, a large current density up to 2.5 mA/cm2 at an electric field of 10 V/μm, and a very uniform distribution of emission sites. [ABSTRACT FROM AUTHOR]

Published

2006

22. Understanding ac losses in CORC cables of YBCO superconducting tapes by numerical simulations.

Author

Nguyen, Linh N., Shields, Nathaniel, Ashworth, Stephen, and Nguyen, Doan N.

Subjects

*SUPERCONDUCTING coils, *SUPERCONDUCTING cables, *HIGH temperature superconductors, *CABLES, *FINITE element method, *COMPUTER simulation, *ADHESIVE tape, *CURRENT distribution

Abstract

Alternating current (ac) losses in conductor-on-rounded-core (CORC) cables of YBCO high-temperature superconducting (HTS) tapes are a significant challenge in HTS power applications. This study employs two finite element analysis (FEA) models to investigate the contributions from different ac loss components and provide approaches for reducing ac losses in cables. An FEA model based on the T-A formulation treats the cross section of thin superconducting layers as 1D lines and, therefore, only can predict the ac loss generated by the perpendicular magnetic field. In contrast, the model based on H-formulation can be performed on the actual 2D rectangular cross section HTS tapes to provide the total ac losses generated by magnetic fluxes penetrating from both the edges and surfaces of HTS tapes, although this model requires more computing time and memory. The 1D and 2D simulation models were validated by cross comparing the results from both models and by comparing sub-section and full cross section models. Subsequently, two models relate cable design and operational parameters to the surface and edge losses of a two-layer CORC cable by considering the (1) relative contributions of edge and surface losses to the overall ac losses; (2) effect of the current distribution between inner and outer HTS layers on ac losses; (3) impact of the tape alignment on ac losses in each HTS layer; (4) influence of the thickness of HTS layers on ac losses; (5) effect of size and number of inter-tape gaps on ac losses; and (6) contribution frequency on the ac losses. The research results given in this paper are therefore not only valuable to suggest strategies for reducing ac loss in multi-layer cables but also for developing more accurate and effective methods to calculate ac loss in CORC HTS cables. [ABSTRACT FROM AUTHOR]

Published

2023

23. Negative elastic wave refraction and focusing regulation of single-phase solid phononic crystals.

Author

Liu, Fei-Yu, Wang, Fa-Jie, and Zhao, Sheng-Dong

Abstract

This paper presents the design of a single-phase solid phononic crystal (PnC) structure featuring a regular hexagonal perforation pattern. The structure manifests three negative refraction bands, encompassing one for transverse waves and two for longitudinal waves, thereby enabling simultaneous control of shear and longitudinal waves. Due to the high symmetry of the triangular lattice, the equal frequency curves corresponding to the negative refraction band approach circular shapes, suggesting a nearly isotropic negative refraction effect. This negative refraction effect is achieved through specific mass resonance modes closely related to the porous structure designed in this paper. Initially, we analyze the band structure of the PnC, followed by designing the PnC plate structure to achieve negative refraction control for transverse waves at a frequency of 32.4 kHz, with a negative refraction index of −1. Additionally, negative refraction control for longitudinal waves is attained at frequencies of 44 and 64.54 kHz. Subsequently, we scrutinize the influence of various conditions on negative refraction, including different structural parameters, incident angles, and operating frequencies, while verifying the robustness of the designed phonon crystal structure. Leveraging the negative refraction characteristics of the structure, we construct an elastic wave lens to achieve perfect imaging of shear and longitudinal waves. Finally, employing finite element simulation and analyzing focusing imaging characteristics with different source positions, we validate that the results closely align with theoretical expectations. The solid PnC structure designed in this study holds significant potential for applications in the fields of elastic wave imaging. [ABSTRACT FROM AUTHOR]

Published

2024

24. A programmable metasurface based on acoustic black hole for real-time control of flexural waves.

Author

Su, Kun and Li, Lixia

Subjects

*FREQUENCY changers, *REAL-time control, *ELASTIC waves, *STRUCTURAL engineering, *ACTIVE medium, *SOLAR atmosphere, *SMART structures

Abstract

The time-modulated active medium with linear independent frequency conversion method has been demonstrated to enable wave orientation and reconstruction. However, due to the symmetric scattering field, this technique requires intricate microcircuit designs. To overcome this limitation, this paper proposes a tunable piezoelectric metasurface based on acoustic black holes (ABHs) to redirect flexural wave reflections. The system can convert an incident flexural wave into a reflected wave of any direction and frequency. This is accomplished through the linear time modulation of the sensing signal, which breaks the constraints of Snell's law inherent in traditional designs and is insensitive to the incident amplitude. The coupling of the ABH damping system with a linear independent frequency conversion mechanism allows for the conversion of an incident flexural wave into a reflected wave in any direction and frequency while also eliminating the influence of second harmonic reflection on the wave field and simplifying the time modulation circuit. In addition, this paper demonstrates arbitrary angle reflection, focusing, beam splitting, and frequency conversion of the incident wave. By improving the flexibility of elastic wave manipulation, this paper introduces a new approach for active control of elastic waves and provides a design method that can be employed in a variety of applications ranging from vibration protection of engineering structures to vibration sensing and evaluation. [ABSTRACT FROM AUTHOR]

Published

2024

25. Copper ion concentration detection based on quantum weak measurement of circular dichroism.

Author

Tang, Tingting, Huang, Hua, Li, Jun, He, Yu, Li, Jie, Liang, Xiao, and Li, Chaoyang

Subjects

*COPPER ions, *CIRCULAR dichroism, *TECHNOLOGICAL innovations, *METAL detectors, *TERNARY forms

Abstract

In this paper, a high precision detection method of copper ion (C u 2 + ) concentration based on weak measurement is proposed. The ternary complex formed by C u 2 + with L-tryptophan and phenanthroline reagents has circular dichroism (CD) signal at 605 nm in visible light. The CD signal can be obtained using the intensity contrast as a pointer in the imaginary weak-value amplification scheme. The measured sensitivity and resolution are 0.3417 mrad l/mg and 0.058 mg/l, respectively, which is improved by an order of magnitude compared to the traditional CD measurement method. It is also more accurate and less costly than commonly used C u 2 + detection methods. The C u 2 + concentration detection based on the weak measurement of CD signal detection proposed in this paper not only brings technological breakthroughs in the field of heavy metal ion detection, but also is of great significance in promoting the cross-development of chemistry, biomedicine, and life sciences. [ABSTRACT FROM AUTHOR]

Published

2024

26. Metasurface-based wireless communication technology and its applications.

Author

Cheng, Xinyue, Li, Chenxia, Fang, Bo, Hong, Zhi, Jin, Yongxing, and Jing, Xufeng

Subjects

*WIRELESS communications, *TELECOMMUNICATION, *WIRELESS power transmission, *COMMUNICATION of technical information, *LITERATURE reviews

Abstract

Metasurfaces, due to their outstanding ability to control electromagnetic waves, have great application prospects in the field of wireless communication. This paper provides a comprehensive review of research work based on metasurface in three aspects: wireless power transfer, wireless information transmission, and novel wireless transceiver architectures. In the domain of wireless power transfer, several focusing metasurfaces and systems with unique performance are presented along with a new formula for calculating wireless power transfer. Concerning wireless information transmission section, the direct digital information transmission based on metasurface and the information transmission based on space-time-coding digital metasurface are introduced. Lastly, a simplified wireless transceiver with metasurfaces was introduced. The paper concludes with a discussion on the future directions of metasurfaces in the wireless communication domain. [ABSTRACT FROM AUTHOR]

Published

2024

27. Preface to Special Topic: Plenary and Invited Papers from the 29th International Conference on the Physics of Semiconductors, Rio de Janeiro, Brazil, 2008.

Author

Caldas, Marília J. and Studart, Nelson

Subjects

*SEMICONDUCTORS, *CONFERENCES & conventions

Abstract

The article introduces a section of the issue dedicated to papers from the 29th International Conference on the Physics of Semiconductors (ICPS29), held in Rio de Janeiro, Brazil, from July 27-August 1, 2008.

Published

2009

28. Preface to Special Topic: Invited Papers from the 59th Annual Conference on Magnetism and Magnetic Materials, Honolulu, HI, USA, 3-7 November 2014.

Author

Leighton, Chris

Subjects

*MAGNETISM, *MAGNETIC materials

Abstract

A preface to the special topic "Invited Papers from the 59th Annual Conference on Magnetism and Magnetic Materials" is presented.

Published

2015

29. Multi-scale modeling of shock initiation of a pressed energetic material III: Effect of Arrhenius chemical kinetic rates on macro-scale shock sensitivity.

Author

Parepalli, P., Nguyen, Yen T., Sen, O., Hardin, D. B., Molek, C. D., Welle, E. J., and Udaykumar, H. S.

Subjects

*MULTISCALE modeling, *CHEMICAL kinetics, *CHEMICAL models, *PREDICTION models

Abstract

Multi-scale predictive models for the shock sensitivity of energetic materials connect energy localization ("hotspots") in the microstructure to macro-scale detonation phenomena. Calculations of hotspot ignition and growth rely on models for chemical reaction rates expressed in Arrhenius forms; these chemical kinetic models, therefore, are foundational to the construction of physics-based, simulation-derived meso-informed closure (reactive burn) models. However, even for commonly used energetic materials (e.g., HMX in this paper) there are a wide variety of reaction rate models available. These available reaction rate models produce reaction time scales that vary by several orders of magnitude. From a multi-scale modeling standpoint, it is important to determine which model best represents the reactive response of the material. In this paper, we examine three global Arrhenius-form rate models that span the range of reaction time scales, namely, the Tarver 3-equation, the Henson 1-equation, and the Menikoff 1-equation models. They are employed in a meso-informed ignition and growth model which allows for connecting meso-scale hotspot dynamics to macro-scale shock-to-detonation transition. The ability of the three reaction models to reproduce experimentally observed sensitivity is assessed by comparing the predicted criticality envelope (Walker–Wasley curve) with experimental data for pressed HMX Class V microstructures. The results provide a guideline for model developers on the plausible range of time-to-ignition that are produced by physically correct Arrhenius rate models for HMX. [ABSTRACT FROM AUTHOR]

Published

2024

30. A compensation method of carrier magnetic interference under pathological conditions for geomagnetic navigation.

Author

Ji, Caijuan, Song, Chengying, Li, Sheng, Gao, Yang, and Chen, Qingwei

Subjects

*LEAST squares, *MEASUREMENT errors, *GEOMAGNETISM, *ELECTRONIC equipment, *MAGNETOMETERS, *NAVIGATION

Abstract

Geomagnetic navigation has become a hot spot in current research because of its characteristics of passiveness and good concealment. However, the magnetic interference from various ferromagnetic substances, electronic equipment, etc., of the carrier will be superimposed on the geomagnetic field, causing magnetometer measurement errors, thus affecting navigation accuracy. In practice, due to the limited maneuverability of the carrier, sufficient geomagnetic observation data cannot be obtained, resulting in the observation equation used for carrier magnetic interference compensation to be seriously pathological. To achieve the compensation of carrier magnetic interference, this paper proposes the total least squares method based on the ridge regression using the L curve to solve ridge parameters. This method can effectively suppress the measurement noise that exists on both sides of the observation equation, and is suitable for alleviating the pathological effects of carrier magnetic interference compensation. Experimental results show that the compensated magnetometer measurement error is reduced to 3% of the carrier magnetic interference by using the method proposed in this paper, which obtains more stable and accurate parameter estimates. [ABSTRACT FROM AUTHOR]

Published

2024

31. Piezoelectric energy harvester with outstanding output performance at low frequency vibration based on concentrating force on the piezoelectric element by parallel springs.

Author

Hao, Yifan, Luo, Hongzhi, Lu, Xinyue, Huang, Jiawei, Chen, Hang, and Yang, Tongqing

Subjects

*FREQUENCIES of oscillating systems, *PIEZOELECTRIC ceramics, *STAINLESS steel, *LEAD titanate, *LEAD zirconate titanate

Abstract

This paper proposes a piezoelectric energy harvester that concentrates force on the piezoelectric element by parallel springs. When vibrating, the force exerted by the mass is released at three equal points on the surface of the brass substrate through three parallel springs. This concentrated release of energy through the spring amplification effect facilitates large deformation of the piezoelectric ceramic sheet, resulting in a higher charge output. The results show that under the combined action of a 14 g annular hollow mass and a 0.3 mm wire diameter stainless steel spring, the energy harvester based on the lead zirconate titanate ceramic exhibited an outstanding output power of 1.0–32.1 mW at a low resonance frequency with acceleration amplitudes of 0.5–3 g (1 g = 9.8 m/s2). More importantly, to match the vibration frequency of the actual environment, this paper optimized the structure of the harvester and proposed that the harvester can be designed by selecting the weight of the mass block, the parameters and number of springs, and the shape of the brass substrate. The energy harvester designed in this study is expected to capture energy from low-frequency natural environments and exhibit outstanding output performance, which can provide guidelines for future efforts in this direction. [ABSTRACT FROM AUTHOR]

Published

2024

32. High-volume biological sample processing using microwaves.

Author

Wilson-Garner, S., Alzeer, S., Baillie, L., and Porch, A.

Subjects

*SAMPLING (Process), *BACTERIAL DNA, *MICROWAVES, *DNA probes, *CAVITY resonators

Abstract

This paper describes the design and optimization of a 10 ml cartridge for patient sample processing using a 3.5 GHz (empty resonant frequency) TM010 cylindrical microwave cavity. The cartridge has been designed to augment a novel approach for the rapid diagnosis of M. tuberculosis (the causative agent of Ttuberculosis), which uses the direct application of microwaves to a bacteria-containing sample to release pathogen-specific DNA. The target bacterial DNA is then captured and recovered using magnetic nanoparticles coated with pathogen-specific DNA probes. Excitation parameters were optimized using three surrogates for M. tuberculosis, namely, M. smegmatis, M. abscessus, and M. bovis suspended in water and simulated sputum. The paper also explores the mechanism of microwave-mediated DNA release from bacteria using scanning electron microscopy. Examination of bacteria exposed to microwaves at power levels known to mediate the release of DNA reveals no obvious signs of permanent cell disruption, suggesting that a more subtle interaction is taking place. Finally, the presence of microwave-liberated M. bovis DNA was able to be detected at a level of sensitivity comparable to that achieved using microscopy. [ABSTRACT FROM AUTHOR]

Published

2024

33. Study of electric-field induced ionic migration on all-inorganic perovskite CsPbBr3 single crystal nuclear radiation detector.

Author

Zhang, Mingzhi, Xia, Guotu, Huang, Chentao, Liu, Juan, Deng, Wenjuan, Tian, Fang, Zou, Jijun, and Tang, Bin

Subjects

*NUCLEAR counters, *SINGLE crystals, *PEROVSKITE, *HYSTERESIS, *ACTIVATION energy, *ELECTRIC fields, *PHOTOELECTRICITY

Abstract

As one of the promising room temperature nuclear radiation detection materials, the all-inorganic perovskite CsPbBr3 single crystal has been receiving much attention in recent years. Even though the performance of the CsPbBr3 detector is improving continuously, the disadvantages of detection instability have not been solved fundamentally, and this instability is mainly caused by ionic migration in the CsPbBr3 single crystal itself. In this paper, a reasonable ionic migration model is proposed based on an in-depth study of the current hysteresis phenomenon and ionic migration mechanism in the Ti/CsPbBr3/Ti detector. The model shows that the ions migrate to the anode or cathode under an external electric field, and the accumulated ions subsequently form an inverted internal electric field inside the crystal and carrier transport barriers at the metal–semiconductor interface simultaneously. The photoelectric characteristic and ionic migration activation energy (E a i o n) fitting results also prove the rationality of the ionic migration model. Furthermore, the ionic migration model can also be used to explain the left-shift of the energy response peak and the decrease in the normalized charge collection efficiency in the Ti/CsPbBr3/Ti detector. This paper systematically investigates the intrinsic origin of migrated ions and the influence of ionic migration on detection stability, which will provide a potential solution to improve detection stability by suppressing ionic migration in the near future. [ABSTRACT FROM AUTHOR]

Published

2024

34. Research on the encounter motion of super-cavitating vehicles.

Author

Zhou, Feng, Fan, Chunyong, Tian, Ying, Wang, Min, and Luan, Hengxuan

Subjects

*CAVITATION, *MOTION

Abstract

In this paper, the super-cavitating phenomenon under the effect of two vehicles' encounter motion processes is numerically studied. Particular attention is given to the influence of the vertical gaps between the vehicle, the cavitation number, and the slenderness ratio on the cavity profile and radial force of the object. Several numerical models are built to study the cavity evolution process and the force acting on the vehicle to explore the influence mechanism of two vehicles' encounter motion on supercavitating flow. The study shows that the cavity around the vehicle is primarily affected by the vertical gaps and cavitation number, but is relatively weakly affected by the slenderness ratio. Several impact laws are acquired in the paper. The relationship between cavity fracture time and vertical gaps is approximately a power function and obeys the law of t = 5.433h0.3688. The concept of the time of the maximum radial force occurrence and the cavitation number follows the formula of t = 4.86e0.3688σ. The relationship between the maximum radial force occurrence position and the cavitation number is a function of Ln and consistent with the law n = −0.799ln(σ) + 8.427. [ABSTRACT FROM AUTHOR]

Published

2023

35. Quantifying uncertainty in analysis of shockless dynamic compression experiments on platinum. II. Bayesian model calibration.

Author

Brown, Justin L., Davis, Jean-Paul, Tucker, J. Derek, Huerta, Gabriel, and Shuler, Kurtis W.

Subjects

*PLATINUM, *CALIBRATION, *LOW temperatures

Abstract

Dynamic shockless compression experiments provide the ability to explore material behavior at extreme pressures but relatively low temperatures. Typically, the data from these types of experiments are interpreted through an analytic method called Lagrangian analysis. In this work, alternative analysis methods are explored using modern statistical methods. Specifically, Bayesian model calibration is applied to a new set of platinum data shocklessly compressed to 570 GPa. Several platinum equation-of-state models are evaluated, including traditional parametric forms as well as a novel non-parametric model concept. The results are compared to those in Paper I obtained by inverse Lagrangian analysis. The comparisons suggest that Bayesian calibration is not only a viable framework for precise quantification of the compression path, but also reveals insights pertaining to trade-offs surrounding model form selection, sensitivities of the relevant experimental uncertainties, and assumptions and limitations within Lagrangian analysis. The non-parametric model method, in particular, is found to give precise unbiased results and is expected to be useful over a wide range of applications. The calibration results in estimates of the platinum principal isentrope over the full range of experimental pressures to a standard error of 1.6%, which extends the results from Paper I while maintaining the high precision required for the platinum pressure standard. [ABSTRACT FROM AUTHOR]

Published

2023

36. Self-consistent model and numerical approach for laser-induced non-equilibrium plasma.

Author

Pokharel, S. and Tropina, A. A.

Subjects

*NONEQUILIBRIUM plasmas, *LASER plasmas, *LASER-induced breakdown spectroscopy, *PLASMA production, *ATMOSPHERIC nitrogen, *FEMTOSECOND pulses

Abstract

This paper presents a self-consistent multi-dimensional mathematical model and a numerical approach for simulating the low-temperature plasma induced by the femtosecond laser filament. Addressing limitations in current models, we analyze key aspects of the laser plasma behavior, including plasma generation, detailed chemical kinetics, energy exchange channels, total energy balance, and hydrodynamics. The developed model and LOTASFOAM code are applied to study the temporal and spatial decay of the plasma produced by a femtosecond laser pulse in pure nitrogen at atmospheric pressure. The paper also includes a discussion on the spatial and temporal dynamics of electronically excited states of nitrogen in the decaying laser plasma. [ABSTRACT FROM AUTHOR]

Published

2023

37. Realization of an ultra-thin absorber with fragmented magnetic structure at L-, S-, and partial C-bands.

Author

E, Liujia, Liu, Zhongqing, Zhang, Jingwei, Xu, Zhaoxuan, Yuan, Zhenliang, Mei, Zhonglei, and Niu, Tiaoming

Subjects

*MAGNETIC structure, *RADAR cross sections, *METAMATERIALS, *EVOLUTIONARY algorithms, *COPPER plating, *MAGNETIC materials, *POLARIZATION (Nuclear physics)

Abstract

In this paper, an ultra-thin absorber with a total thickness of 9.2 mm is designed and verified at the frequency band of 1–5.34 GHz. The absorber is composed of a layer of metasurface, multi-layered magnetic substrate, a layer of fragmented magnetic structure obtained by improved MOEA/D-GO (Multi-Objective Evolutionary Algorithm based on Decomposition combined with Enhanced Genetic Operators), and a copper back plate. The absorber is achieved by two steps. First, we designed and measured an ultra-thin absorber at 0.78–2.04 GHz by adding a layer metasurface onto the top of a basic multi-layer absorber composed of magnetic materials. The fractional bandwidth (FBW) of the absorber is 89.4%, and the electrical thickness is only 0.024 λ 0 at the lowest operating frequency. Second, to broaden the bandwidth, we use an improved MOEA/D-GO to optimize one magnetic layer of the absorber. The working frequency band of the optimized absorber is 1–5.34 GHz, covering L- (1–2 GHz), S- (2–4 GHz), and partial C-bands (4–8 GHz). Furthermore, we modified the structure of the metasurface to make the absorber polarization-independent. The FBW of the final absorber is 136.4%, and the electrical thickness is 0.031 λ 0 at the lowest operating frequency. The prototype of the absorber is measured, and the experimental results agree well with the simulated performance. The results show that the improved MOEA/D-GO can be used to design and optimize sophisticated electromagnetic (EM) structures with the predesigned properties, and the absorber with ultrathin thickness and light weight verified in this paper have great application potentials in EM compatibility, EM shielding, and radar cross section reduction at the low bands of the microwave spectrum. [ABSTRACT FROM AUTHOR]

Published

2023

38. Preface to Special Topic: Invited Papers from the International Symposium on Piezoresponse Force Microscopy and Nanoscale Phenomena in Polar Materials, Aveiro, Portugal, 2009.

Author

Kalinin, Sergei V., Setter, Nava, and Kholkin, Andrei L.

Subjects

*PREFACES & forewords

Abstract

A preface to the special issue of the "Journal of Applied Physics," which focused on piezoresponse force microscopy and nanoscale phenomena in polar materials, is presented.

Published

2010

39. Preface to Special Topic: Invited Papers of the 58th Annual Conference on Magnetism and Magnetic Materials, Denver, Colorado, USA, November 2013.

Author

Hoffmann, Axel

Subjects

*MAGNETISM

Abstract

A preface to the June 6, 2014 issue of the "Journal of Applied Physics," with papers on the 58th Annual Conference on Magnetism and Magnetic Materials is presented.

Published

2014

40. Announcement: Special Topic "Invited Papers from the 27th International Conference on Defects in Semiconductors".

Subjects

*SEMICONDUCTOR defects, *DELAY faults (Semiconductors), *CONFERENCES & conventions

Abstract

The article announces that the "Journal of Applied Physics" will present the special topic section "Invited Papers From the 27th International Conference on Defects in Semiconductors, July 2013."

Published

2014

41. Preface to Special Topic: Selected Papers from the Piezoresponse Force Microscopy Workshop Series: Part of the Joint ISAF-ECAPD-PFM 2012 Conference.

Author

Li, Jiangyu, Kalinin, Sergei, and Kholkin, Andrei

Subjects

*PIEZORESPONSE force microscopy, *FERROELECTRIC polymers

Abstract

The article presents an overview of papers taken from the Piezoresponse Force Microscopy (PFM) Workshop Series focused on recent advances in PFM techniques, theories and applications including a paper on temperature-induced evolution of structure and electromechanical response in ferroelectric polymer.

Published

2013

42. Preface to Special Topic: Selected Papers from The Eleventh International Conference on Surface X-Ray and Neutron Scattering.

Author

Schlossman, Mark L., Bedzyk, Michael, Lang, Jonathan, and Lyman, Paul F.

Subjects

*CONFERENCES & conventions, *X-ray scattering, *NEUTRON scattering

Abstract

The article discusses the highlights of the 11th International Surface X-ray and Neutron Scattering (SXNS-11) Conference that took place at the Northwestern University (NU) campus in Evanston, Illinois from July 13-17, 2010. The conference, which was hosted by the NU Materials Research Science and Engineering Center, has gathered 164 delegates from 16 countries. Information on papers presented at the conference are presented.

Published

2011

43. Preface to Special Topic: Selected Papers from the International Conference on Flexible and Printed Electronics, Jeju Island, Korea, 2009.

Author

Daniel, Jurgen, Gyoujin Cho, Burke, Peter, and Javey, Ali

Subjects

*PRINTING, *INK, *CONFERENCES & conventions

Abstract

An introduction to the topics discussed within the publication is presented, which are selected papers from the International Conference on Flexible and Printed Electronics held in Jeju Island, Korea on November 11 to 13, 2009, including articles on the difficulties posed by printing methods over ink materials to flexible and printed devices.

Published

2010

44. Preface to Special Topic: Selected Papers from the Fourth International Conference on Multiscale Materials Modeling, Tallahassee, Florida, USA, 2008.

Author

Phillpot, Simon R. and El-Azab, Anter

Subjects

*CONFERENCES & conventions, *PHYSICS conferences

Abstract

The article discusses conference papers on topics related to physics which were featured at the the Fourth International Conference on Multiscale Materials Modeling, which was held October 27-31 in 2008 in Tallahassee, Florida.

Published

2010

45. Preface to Special Topic: Selected Papers from the 20th International Symposium on Integrated Ferroelectrics, Biopolis, Singapore, June 2008.

Author

Yao, Kui and Auciello, Orlando

Subjects

*PREFACES & forewords, *FERROELECTRICITY

Abstract

A preface to the Special Topic section of selected papers for the 20th International Symposium on Integrated Ferroelectrics is presented.

Published

2009

46. Preface to Special Topic: Plenary and Invited Papers from the 28th International Conference on the Physics of Semiconductors, Vienna, Austria, 2006.

Author

Viccaro, P. James

Subjects

*PREFACES & forewords, *SEMICONDUCTORS, *CONFERENCES & conventions

Abstract

A preface to "Plenary and Invited Papers" from the 28th International Conference on the Physics of Semiconductors, Vienna, Austria, 2006 is presented.

Published

2007

47. Dynamic deformation behavior and constitutive model of a Zr–W alloy.

Author

Ma, Yue, Wang, Chuanting, Guo, Zhiping, Chen, Ying, Gao, Hongyin, Meng, Yuanpei, Yang, Yansong, He, Yuan, Guo, Lei, and He, Yong

Subjects

*MECHANICAL behavior of materials, *HOPKINSON bars (Testing), *MATERIAL plasticity, *DEFORMATIONS (Mechanics), *ALLOYS

Abstract

In this paper, a Zr–5W alloy was fabricated via casting. In order to obtain the mechanical properties of the material, quasi-static compression tests at room temperature and split Hopkinson pressure bar tests at various temperatures were carried out. The x-ray diffraction result showed that the main components of the alloy were αZr and W2Zr, where αZr is the matrix and W2Zr is the reinforcement. The metallographic characterization results showed that there were two main forms of W2Zr in the material, namely, large particle boundary and small diffuse submicrometer precipitates. The reinforcements of both distributions have the effect of increasing the strength of the material, but the small submicrometer W2Zr precipitates would cause microcrack nucleation during the late plastic deformation stage, resulting in damage softening. In order to make theoretical calculations of the mechanical properties of materials, the Johnson–Cook (JC) constitutive model and Zerilli–Armstrong (ZAM) constitutive model of the material were obtained. It was found that the JC constitutive model had poor consistency in describing material properties. Although the consistency of the ZAM constitutive model was higher than that of the JC constitutive model, it still had obvious shortcomings. Combined with the deformation mechanism of the alloy, a modified constitutive relation was established by adding damage softening terms based on the hexagonal close-packed metal constitutive model inferred by the kinetics of heat-activated dislocations. The relative error results of all working conditions show that the correlation consistency of the improved constitutive model in this paper is significantly better than that of JC constitutive and ZAM constitutive. [ABSTRACT FROM AUTHOR]

Published

2023

48. Phase field study on electrical treeing under combined AC/DC voltage based on bipolar barrier transfer model.

Author

Shang, Gaoyi, Sun, Yingman, Chen, Ming, Shao, Yuhang, Li, Minjie, Tang, Hao, Li, Xining, and Liu, Xuandong

Subjects

*TREES (Electricity), *SPACE charge, *VOLTAGE, *INSULATING materials, *ELECTRONIC equipment, *DIELECTRIC breakdown, *PARTIAL discharges

Abstract

The study of insulation degradation processes is crucial for the reliable operation of power equipment and electronic devices. The phase field method has been widely used in recent years to simulate the degradation process of insulation materials. However, the effect of space charge was ignored. In this paper, a novel phase field method based on the bipolar carrier transfer model is suggested. This model can simulate degradation under different temperatures and DC or combined AC/DC voltage. The cases under AC and combined AC/DC voltage at different temperatures are simulated by COMSOL. Methods to ensure model convergence are proposed. The results show that the field strength distribution under a combined AC/DC field is more uniform, especially for negative polarity. For the same voltage form, temperature and breakdown time show an exponential relationship. The results are consistent with those of previous experimental studies, proving the usability of the model. In addition, the processes of initiation, growth, and breakdown stage of the dielectric degradation process, as well as the stagnation period, are explored theoretically. The stagnation time at low temperatures under combined AC/negative DC voltage is long. The research in this paper is useful for insulation optimization design, condition assessment, and longevity prediction. [ABSTRACT FROM AUTHOR]

Published

2023

49. Toward new scaling laws for wrinkling in biologically relevant fiber-reinforced bilayers.

Author

Mirandola, A., Cutolo, A., Carotenuto, A. R., Nguyen, N., Pocivavsek, L., Fraldi, M., and Deseri, L.

Subjects

*WRINKLE patterns, *THICK films, *THIN films, *FINITE element method, *PHENOMENOLOGICAL biology

Abstract

Wrinkling, creasing, and folding are frequent phenomena encountered in biological and man-made bilayers made by thin films bonded to thicker and softer substrates often containing fibers. Paradigmatic examples of the latter are the skin, the brain, and arterial walls, for which wiggly cross sections are detected. Although experimental investigations on corrugation of these and analog bilayers would greatly benefit from scaling laws for prompt comparison of the wrinkling features, neither are they available nor have systematic approaches yielding to such laws ever been provided before. This gap is filled in this paper, where a uniaxially compressed bilayer formed by a thin elastic film bonded on a hyperelastic fiber-reinforced substrate is considered. The force balance at the film–substrate interface is here analytically and numerically investigated for highly mismatched film–substrates. The onset of wrinkling is then characterized in terms of both the critical strain and its corresponding wavenumber. Inspired by the asymptotic laws available for neo-Hookean bilayers, the paper then provides a systematic way to achieve novel scaling laws for the wrinkling features for fiber-reinforced highly mismatched hyperelastic bilayers. Such novel scaling laws shed light on the key contributions defining the response of the bilayer, as it is characterized by a fiber-induced complex anisotropy. Results are compared with finite element analyses and also with outcomes of both existing linear models and available ad hoc scalings. Furthermore, the amplitude, the global maximum and minimum of ruga occurring under increasing compression spanning the wrinkling, period doubling, and folding regimes are also obtained. [ABSTRACT FROM AUTHOR]

Published

2023

50. Plasma propulsion modeling with particle-based algorithms.

Author

Taccogna, F., Cichocki, F., Eremin, D., Fubiani, G., and Garrigues, L.

Subjects

*PLASMA chemistry, *CYCLOTRON resonance, *PLASMA-wall interactions, *PROPELLANTS, *ELECTROMAGNETIC devices, *PLASMA interactions, *ELECTRIC arc

Abstract

This Perspective paper deals with an overview of particle-in-cell/Monte Carlo collision models applied to different plasma-propulsion configurations and scenarios, from electrostatic (E × B and pulsed arc) devices to electromagnetic (RF inductive, helicon, electron cyclotron resonance) thrusters, as well as plasma plumes and their interaction with the satellite. The most important items related to the modeling of plasma–wall interaction are also presented. Finally, the paper reports new progress in the particle-in-cell computational methodology, in particular, regarding accelerating computational techniques for multi-dimensional simulations and plasma chemistry Monte Carlo modules for molecular and alternative propellants. [ABSTRACT FROM AUTHOR]

Published

2023