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Alloy effect

F1 NMR of chemisorbed hydrogen can also be used for the study of alloys. For example, in mixed Pt-Pd nanoparticles in NaY zeolite comparaison of the results of hydrogen chemisorption and F1 NMR with the formation energy of the alloy indicates that the alloy with platinum concentration of 40% has the most stable metal-metal bonds. The highest stability of the particles and a lowest reactivity of the metal surface are due to a strong alloying effect. [Pg.12]

Table 3.10. Alloying Effects that Improve Creep Properties [14]... Table 3.10. Alloying Effects that Improve Creep Properties [14]...
Alloying effects that improve creep properties.67... [Pg.198]

We have used the basis set of the Linear-Muffin-Tin-Orbital (LMTO) method in the atomic sphere approximation (ASA). The LMTO-ASA is based on the work of Andersen and co-workers and the combined technique allows us to treat all phases on equal footing. To treat itinerant magnetism we have employed the Vosko-Wilk-Nusair parametrization for the exchange-correlation energy density and potential. In conjunction with this we have treated the alloying effects for random and partially ordered phases with a multisublattice generalization of the coherent potential approximation (CPA). [Pg.57]

To further discuss the underlying mechanisms that forces the phase stabilities we also did calculations where the alloying effects were treated within the so-called virtual crystal approximation (VGA) where the real alloy constituents are replaced by an atom with an average (noninteger) atomic number. [Pg.58]

However, for high-concentrated alloys it becomes important t.o l.reat the alloy effect,s outside the imirrrrity cluster. The use of CPA medium is strortgly suggested. [Pg.132]

Our work demonstrates that EELS and in particular the combination of this technique with first principles electronic structure calculations are very powerful methods to study the bonding character in intermetallic alloys and study the alloying effects of ternary elements on the electronic structure. Our success in modelling spectra indicates the validity of our methodology of calculating spectra using the local density approximation and the single particle approach. [Pg.180]

Zinc and zinc alloys Effective Ineffective Ineffective Effective — Reasonably effective Reasonably effective... [Pg.780]

Min M, Cho J, Cho K, Kim H. 2000. Particle size and alloying effects of Pt-based alloy catalysts for fuel cell applications. Electrochim Acta 45 4211-4217. [Pg.338]

Huges, R.C., Schubert, W.K. and Buss, R.J., Solid-state hydrogen sensors using palladium-nickel alloys Effect of alloy composition on sensor response, Journal of Electrochemical Society, 142, 249,1995. [Pg.533]

Copper-nickel alloys, 17 100 Copper-nickel-tin alloys, effect... [Pg.219]

H. Yukawa, M. Takagi, A. Teshima, M. Morinaga, Alloying effects on the stabUity of vanadium hydrides, J. Alloys Compd. 330-332 (2002) 105-109. [Pg.192]

To stress the localized character of chemisorption (a term surface pseudomolecules was introduced at that time), Sachtler introduced for the alloying effects discussed in paragraph (2) a term ligand effect (5). It was then a task for an experimentalist to establish how important—relatively—the effects (1) and (2) were. A general consensus now is that effect (1) is more essential than (2) in any case, but the discussion is still going on, on the reliability of some pieces of evidence which have been presented in the literature in favor of a role for effect (2). [Pg.156]

A. Classification of the Reactions on Metals and General Description of Alloying Effects... [Pg.186]

A quantitative analysis (like, e.g., determination of the exact size of ensembles required) of the alloying effect is impossible at this time. The surface composition, in particular that of small particles, under a running catalytic reaction is generally not known. Further, it is not known how metals and alloys differ in extent and composition of the carbonaceous deposits and in their influence on the reaction under study. Therefore, no reliable quantitative conclusions can be made on the number of metal atoms involved in the formation of individual complexes. For the sake of simplicity... [Pg.189]

CC-AI2O3 catalyst was attributed to a decrease in hydrogen coverage brought about by an alloying effect.396... [Pg.671]

See other pages where Alloy effect is mentioned: [Pg.74]    [Pg.129]    [Pg.131]    [Pg.367]    [Pg.970]    [Pg.1279]    [Pg.327]    [Pg.94]    [Pg.284]    [Pg.95]    [Pg.16]    [Pg.62]    [Pg.191]    [Pg.539]    [Pg.541]    [Pg.149]    [Pg.206]    [Pg.104]    [Pg.105]    [Pg.279]    [Pg.144]    [Pg.885]    [Pg.355]    [Pg.377]    [Pg.382]    [Pg.188]    [Pg.197]   


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After effect, magnetic amorphous alloys

Alloy catalysis, ensemble effect

Alloy catalysts ensemble effect

Alloy catalysts ligand effect

Alloy films effects

Alloy operation condition effects

Alloying effect

Alloying effect

Alloying effects, stainless steels

Alloying element effects

Alloying elements, effect aluminum

Alloying elements, effect cadmium

Alloying elements, effect calcium

Alloying elements, effect cerium

Alloying elements, effect chromium

Alloying elements, effect cobalt

Alloying elements, effect corrosion resistance

Alloys compensation effect

Alloys doping effect

Alloys hydrogen evolution effect

Alloys metal particle size effects

Aluminium alloys composition effects

Aluminum alloys corrosion microstructure effects

Amorphous alloys Mossbauer effect spectroscopy

Analysis of the Effective Interatomic Interactions in Metallic Alloys

Carbon monoxide alloy effects

Corrosion alloying, effect

Effect of Alloy Composition on Pitting

Effect of alloying

Effective medium approaches to the alloy problem

Effects of Alloy Formation

Effects of alloying elements

Engine coolants alloy effect

INDEX alloying, effect

Ligand effects of alloying

Mechanism of the Alloying Effect on Anode Catalysts

Oxidation-resistant alloys Reactive element effect

Oxide films alloying effects

Pitting corrosion alloy composition effect

Pressure effects amorphous alloys

Pt Alloy Nanoparticles and Particle Size Effects

Residual alloying elements, effect

Supported metals alloying effects

Supported metals, small particles alloying effects

The Alloying Effect on Anode Catalyst Activity

The Alloying Effect on Cathode Catalyst Activity

The site isolation effect by alloys

Titanium alloys pressure effects

Titanium alloys strain effects

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