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Advanced smart

In advanced smart hybrid designs, the drive modes (ICE only, electric only, both ICE and electric, battery recharge, braking by mechanical brakes or by... [Pg.399]

Xie P, Zhang R. 2005. Liquid crystal elastomers, networks and gels advanced smart materials. J Mater Chem 15 2529 2550. [Pg.143]

The development of wound dressings can be discussed, taking into account of traditional and modem (advanced, smart) dressings. [Pg.452]

Transition and rare earth metal oxides are the fundamental ingredients for the advanced smart and functional materials. Many functional properties of inorganic materials are determined by the elements with mixed valences in the structure unit [1], by which we mean that an element has two or more different valences while forming a compound. The discovery of high-temperature superconductors is a successM example of the mixed valence chemistry, and... [Pg.87]

A more advanced smart pixel is shown in Fig. 63, as it contains two photodetectors which are separately addressed by different optical sources [73]. If light is incident on photodiode 1, then the modulation of the pixel (i. e., the amount of light reflected) increases. If light is incident on photodiode 2, then the modulation of the pixel decreases. The pixel is capable of a 4 bit (16 levels) grey scale modulation (weight) based on an electroclinic or distorted helix FLC. It is this functionality that performs the interconnect weights in the neural network and allows... [Pg.847]

Figure 63. A more advanced smart pixel (SASLM 2). Figure 63. A more advanced smart pixel (SASLM 2).
Then, in the early and mid-1 990s, CAS developed SciFinder and SciFinder Sc ho lar to address the needs of professional chemists and other scientists. SciFinder was developed to allow more intelligence in data access, such as smart structure searching, research topic exploration, advanced author searching, and powerful refine and analysi.s capabilities including categorize and panorama". [Pg.242]

Smart or adaptive structures are a class of advanced structures with integrated sensors, actuators, and controls which allow it to adaptively change or respond to external conditions (Figure 10.1). Examples are buildings, bridges, and roadways that can sensor, mitigate, and control damage, e.g., aircraft that can actively minimize a stmcture-bome noise in the interior. [Pg.278]

Post, R.M. Central stimulants. Clinical and experimental evidence on tolerance and sensitization. In Israel, Y. Glaser, F.B. Kalant, H. Popham, R.E. Schmidt, W. and Smart, R.G., eds. Research Advances in Alcohol and Drug Problems. Vol. 6. New York Plenum, 1981. pp. 1-65. [Pg.339]

The three biomimetic actuator models mentioned above are driven in a solution. The next target of the advanced model is an actuator electrically driven in air. A mechanical hand composed of two smart gel fingers working in... [Pg.160]

Halton, D.W., Shaw, C., Maule, A.G. and Smart, D. (1994) Regulatory peptides in helminth parasites. Advances in Parasitology 34, 164-227. [Pg.446]

By incorporating on-chip electronics or using external analyzers with advanced control and signal processing functions, the lab-on-a-chip or yuTAS can act as smart sensors ,... [Pg.305]

SMART H2 [Steam Methane Advanced Reformer Technology] A process for making hydrogen by the steam reforming of methane. It differs from similar systems in housing the catalyst within a proprietary heat exchanger. Developed by Mannesmann KTI in 1996 it was planned for installation in Salisbury, MD, in late 1997. [Pg.247]

Beck, C.W., Smart, C.J. and Ossenkop, D.J. (1989). Residues and linings in ancient Mediterranean transport amphoras. In Archaeological Chemistry IV, ed. Allen, R.O., Advances in Chemistry Series 220, American Chemical Society, Washington, pp. 369-380. [Pg.261]

The understanding of bio- and chemo-catalytic functionalities, their integration in recognizing materials (doped materials, membranes, tubes, conductive materials, biomarker detection, etc.) and the development of smart composite materials (e.g., bio-polymer-metal) are all necessary elements to reach above objectives. It is thus necessary to create the conditions to realize a cross-fertilization between scientific areas such as catalysis, membrane technology, biotech materials, porous solids, nanocomposites, etc., which so far have had limited interaction. Synergic interactions are the key factor to realizing the advanced nanoengineered devices cited above. [Pg.403]

Catalytic methods to produce smart and/ or advanced materials by functionalization of polymeric and dendrimeric materials... [Pg.408]


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See also in sourсe #XX -- [ Pg.207 ]




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