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Strong reduction

Corrosion suppression by inhibitors can be achieved by adding chemical species to tlie environment, which lead to a strong reduction of tlie dissolution rate. Depending on tlieir specific action, corrosion inliibitors can be divided into tlie following groups. [Pg.2730]

Large stepsizes result in a strong reduction of the number of force field evaluations per unit time (see left hand side of Fig. 4). This represents the major advantage of the adaptive schemes in comparison to structure conserving methods. On the right hand side of Fig. 4 we see the number of FFTs (i.e., matrix-vector multiplication) per unit time. As expected, we observe that the Chebyshev iteration requires about double as much FFTs than the Krylov techniques. This is due to the fact that only about half of the eigenstates of the Hamiltonian are essentially occupied during the process. This effect occurs even more drastically in cases with less states occupied. [Pg.407]

May form explosive mixtures when contacting organic material. Explosive C2H2 formed. Slow in drying action. H2 formed. Used as column drying of organic liquids. - Strong reductant. [Pg.1082]

During the late 1960s and 1970s, the finding of health problems associated with heavy exposure to airborne asbestos fibers led to a strong reduction (or ban) in the use of asbestos fibers for thermal insulation. In most of the current applications, asbestos fibers are contained within a matrix, typically cement or organic resins. [Pg.344]

Liquid crystals stabilize in several ways. The lamellar stmcture leads to a strong reduction of the van der Waals forces during the coalescence step. The mathematical treatment of this problem is fairly complex (28). A diagram of the van der Waals potential (Fig. 15) illustrates the phenomenon (29). Without the Hquid crystalline phase, coalescence takes place over a thin Hquid film in a distance range, where the slope of the van der Waals potential is steep, ie, there is a large van der Waals force. With the Hquid crystal present, coalescence takes place over a thick film and the slope of the van der Waals potential is small. In addition, the Hquid crystal is highly viscous, and two droplets separated by a viscous film of Hquid crystal with only a small compressive force exhibit stabiHty against coalescence. Finally, the network of Hquid crystalline leaflets (30) hinders the free mobiHty of the emulsion droplets. [Pg.203]

The conserved linker between repeats III and IV is critical for fast inactivation. Cleavage of the III-IV linkage causes a strong reduction in the rate of inactivation. A cluster of three hydrophobic residues (IFM) in the linker is an essential component, probably serving as a hydrophobic latch to stabilize the inactivated state. Other parts of the a subunit are also involved in fast inactivation. Conformational changes in the P region contribute to the slow inactivation process. [Pg.1306]

Lamellar compounds, arising from the attack of moderately strong reductants (such as potassium metal) or oxidants (such as AsFs)... [Pg.282]

At the time of its discovery in 1970, few chemical methods were known for the laboratory syntheses of such molecules. Fewer still were appropriate for their industrial scale production. Unlike many other amino acid derivatives, gl rphosate is stable in strong acid or base, even at elevated temperatures. It can also tolerate strong reductants and some oxidants (1,2). This stability accounts for the diversity of synthetic methods that have been explored and developed to prepare glyphosate and its heterocyclic derivatives over the last 25+ years. [Pg.18]

A viscometric assay and identification of hydrolysis products were used to determine the mechanism of action of PG. An endo-PG is characterized by a strong reduction in viscosity (e.g. 50%) with a concomitantly low (e.g. 1-3%) release of reducing groups [9]. The time required for 50% decrease in viscosity of a 3.0% (w/v) sodium polypectate solution at 25°C was approximately 10 min, at which time about 1.5% of the total galacturonide bonds had been hydrolysed (data not shown). These results reveal a random mechanism of hydrolysis of sodium polypectate and the enzyme was a poly oc(l,4)-D-galacturonide glycanohydrolase (EC 3.2.1.15) or endo-PG. [Pg.863]

Sand is the simplest proppant material. Sand is cheap, but at higher stresses it shows a comparatively strong reduction in permeability. [Pg.268]

Figure 18.2 Summary of respiratory energy flows. Foods ate converted into the reduced form of nicotinamide adenine dinucleotide (NADH), a strong reductant, which is the most reducing of the respiratory electron carriers (donors). Respiration can he based on a variety of terminal oxidants, such as O2, nitrate, or fumarate. Of those, O2 is the strongest, so that aerobic respiration extracts the largest amount of free energy from a given amount of food. In aerobic respiration, NADH is not oxidized directly by O2 rather, the reaction proceeds through intermediate electron carriers, such as the quinone/quinol couple and cytochrome c. The most efficient respiratory pathway is based on oxidation of ferrocytochrome c (Fe ) with O2 catalyzed by cytochrome c oxidase (CcO). Of the 550 mV difference between the standard potentials of c)Tochrome c and O2, CcO converts 450 mV into proton-motive force (see the text for further details). Figure 18.2 Summary of respiratory energy flows. Foods ate converted into the reduced form of nicotinamide adenine dinucleotide (NADH), a strong reductant, which is the most reducing of the respiratory electron carriers (donors). Respiration can he based on a variety of terminal oxidants, such as O2, nitrate, or fumarate. Of those, O2 is the strongest, so that aerobic respiration extracts the largest amount of free energy from a given amount of food. In aerobic respiration, NADH is not oxidized directly by O2 rather, the reaction proceeds through intermediate electron carriers, such as the quinone/quinol couple and cytochrome c. The most efficient respiratory pathway is based on oxidation of ferrocytochrome c (Fe ) with O2 catalyzed by cytochrome c oxidase (CcO). Of the 550 mV difference between the standard potentials of c)Tochrome c and O2, CcO converts 450 mV into proton-motive force (see the text for further details).
In the present experiment, even when n = 59, the anionic clusters 0H (H20)B are still found to react very fast toward S02, approaching the gas collision limit of about 10 9 m3 s 1. Since S02 is a strong reductant in basic solution,125 no kinetic data are directly available for the reaction ... [Pg.218]

Figure 31 compares the dynamic structure factors obtained from the crosslinks and the chain ends for two different Q-values. Without any analysis a strong reduction of the cross-link mobility compared to that of the chain end is obvious. A closer inspection also shows that the line-shape of both curves differs. While S(Q,t)/S(Q, 0) from the chain end decays continuously, S(Q,t) from the cross-links appears to decay faster at shorter than at longer times. This difference in line shape is quantified via the line shape parameter p. For the end-labelled chains, p is in close agreement with the p = 1/2 prediction of the... [Pg.60]

The application of EN 45011 led to a strong reduction in the number of certification bodies in several countries, like France. In some EU countries the inspection bodies have to be accredited by the national accreditation body, in others they do not (Michaud et al 2004). [Pg.43]

FIGURE 3.9 EPR of titanium citrate. The citrate complex of the Ti(III) ion at pH 9 is a general-purpose strong reductant of metalloproteins. This 3d system gives an S = 1/2 EPR spectrum with. -values just below ge. The axial signal below 3300 gauss is from Ni(I) in factor F-430. [Pg.48]

In a comparative study of disulfide reducing agents, it was determined that use of the relatively strong reductants DTT and TCEP required only 3.25 and 2.75 mole equivalents per mole equivalent of antibody molecule to achieve the reduction of two interchain disulfide bonds between the heavy chains of a monoclonal IgG (Sun et al., 2005). This limited reduction strategy retains intact bispecific antibody molecules while providing discrete sites for conjugation to thiols. [Pg.90]

For example, the resistance of plants to the pathogen Pseudomonas syringae was studied by Thipyapong and others (2004) in tomato plants into which antisense PPO cDNA was inserted. Their results showed a strong reduction of PPO activity and a dramatic increase in the susceptibility of plants, although the overall growth and development of the tomato plants was not affected by the downregulation of PPO. [Pg.110]

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STRONG METAL-SUPPORT INTERACTIONS high-temperature reduction

Strong reductant

Strong reductant

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