Resistance, increase with

Nickel-based aUoys have superior corrosion resistance to Hon-based aUoys. The only aUoys recommended for hot hydrochloric acid use are Ni—Mo aUoys containing 60—70% Ni and 25—33% Mo. Chlorimet (63 Ni, 32 Mo, 3 Fe) and HasteUoy (60 Ni, 28 Mo, 6 Fe) are found to be stable at aU acid concentrations in the absence of aH and Hon chlorides. Electroless nickel, a Ni—P aUoy containing 2—10% P, shows exceUent resistance to hot hydrogen chloride (71). The corrosion resistance increases with phosphoms content. This coating can be deposited on cast Hon, wrought Hon, mild steel, stainless steels, brass, bron2e, and aluminum (qv). 

Vinyl Acetate—Ethylene Copolymers. In these random copolymers, the ratio of ethylene to vinyl acetate (EVA) is varied from 30—60%. As the vinyl acetate content increases, the oil and heat resistance increases. With higher ethylene content the physical strength, tensile, and tear increases. The polymers are cured with peroxide. The main properties of these elastomers include heat resistance, moderate oil and solvent resistance, low compression set, good weather resistance, high damping, exceUent o2one resistance, and they can be easily colored (see Vinyl polymers, poly(VINYL acetate)). 

When the product layer is porous the reaction will continue but at decreasing rate as the diffusional resistance increases with increasing conversion. Then,... 

The system aluminum/water belongs to group II where represents the pitting potential and lies between -0.8 and -1.0 V according to the material and the medium [22,23,36,39,42]. Since alkali ions are necessary as opposite ions to the OH ions in alkalization, the resistance increases with a decrease in alkali ion concentration (see Fig. 2-11). In principle, however, active aluminum cannot be protected cathodically [see the explanation of Eq. (2-56)]. 

Polycarbonates with superior notched impact strength, made by reacting bisphenol A, bis-phenol S and phosgene, were introduced in 1980 (Merlon T). These copolymers have a better impact strength at low temperatures than conventional polycarbonate, with little or no sacrifice in transparency. These co-carbonate polymers are also less notch sensitive and, unlike for the standard bis-phenol A polymer, the notched impact strength is almost independent of specimen thickness. Impact resistance increases with increase in the bis-phenol S component in the polymer feed. Whilst tensile and flexural properties are similar to those of the bis-phenol A polycarbonate, the polyco-carbonates have a slightly lower deflection temperature under load of about 126°C at 1.81 MPa loading. 

For these reasons, most riders cannot, or will not, increase their speed much above their personal comfort levels, even with lots of training. The additional speed just costs the rider too much energy. A rider going 15 mph must double his power output to ride 20 mph. Why these dramatic numbers Wind resistance varies with the square of the rider s airspeed, but the energy to overcome tvind resistance increases with the cube of the rider s airspeed. 

This example of aluminium illustrates the importance of the protective him, and hlms that are hard, dense and adherent will provide better protection than those that are loosely adherent or that are brittle and therefore crack and spall when the metal is subjected to stress. The ability of the metal to reform a protective him is highly important and metals like titanium and tantalum that are readily passivated are more resistant to erosion-corrosion than copper, brass, lead and some of the stainless steels. There is some evidence that the hardness of a metal is a signihcant factor in resistance to erosion-corrosion, but since alloying to increase hardness will also affect the chemical properties of the alloy it is difficult to separate these two factors. Thus althou copper is highly susceptible to impingement attack its resistance increases with increase in zinc content, with a corresponding increase in hardness. However, the increase in resistance to attack is due to the formation of a more protective him rather than to an increase in hardness. 

When samples of about 1 cm were taken from a single cast film of 100 X 200 mm of a number of paint and varnish films, their resistances varied with the concentration of potassium chloride solution in one of two ways (Fig. 14.2). Either the resistance increased with increasing concentration of the electrolyte (inverse or / conduction) or the resistance of the film followed that of the solution in which it was immersed (direct or D conduction). The percentage of / and D samples taken from different castings varied, but average values for a number of castings were 50% D for the pentaerythritol alkyd and the tung oil phenol formaldehyde varnishes, 57% for urethane alkyd, 76% for epoxypolyamide and 78% for polyurethane varnishes... 

Alkylphenol ether sulfates are slightly more resistant to biodegradation than alkylbenzenesulfonates. Similarly to alcohol ether sulfates, this resistance increases with the degree of ethoxylation. Again there are some differences in favor of primary alkylphenol ether sulfates with respect to secondary alkylphenol ether sulfates [426]. 

The output from the semibatch model GASPP permits a detailed look at the way in which polymerization resistances increase during the course of a run. Figure 3 shows how these resistances increase with yield for a run using the intermediate activity catalyst (kg = 0.00638 cm/sec), with 50 mg TiCil3 loading. Overall resistance, is the sum of the individual resistances in... 

All of these characteristics can be under the regulation of the cell and influenced by the cell culture conditions. The age of the cell monolayer in culture can have a profound impact on the quality of the barrier. In monolayers with actively dividing cells, resistance increases with time in culture as tight junctions form (see Fig. 15, Section III.C.4). Resistance reaches a plateau, then decreases as cell viability declines (Section III.C.4). Time in culture may also be a factor in the expression of polarity, which is related to tight junction formation as well as the state of differentiation of the cells (e.g., differential gene expression). 

It should be recognized that the operation of a filter is an unsteady cyclic process. As the cake builds up and its resistance increases with time, either the flow rate (Q) will drop or the pressure drop (AP) will increase with time. The specific behavior depends on how the filter is operated, as follows. 

These postulated mechanisms3 are consistent with the observed temperature dependence of the insulator dielectric properties. Arrhenius relations characterizing activated processes often govern the temperature dependence of resistivity. This behavior is clearly distinct from that of conductors, whose resistivity increases with temperature. In short, polymer response to an external field comprises both dipolar and ionic contributions. Table 18.2 gives values of dielectric strength for selected materials. Polymers are considered to possess... 

It is difficult to make a comparison because each material can be sensitive to different chemicals but, generally, within the service temperatures range, the chemical resistance increases with the amount of fluorine, or halogen total for PCTFE and ECTFE. 

For a selected family ofTPEs, the characteristics depend on the hardness. Generally, tensile strength and chemical resistance increase with hardness and elongation at break decreases. 

Fatigue resistance increases with the [PU] up to 50Z, while energy absorption determined from dynamic properties and pendulum impact tests varies directly with the [PU], The micromechanism of failure Involves the generation of discontinuous growth bands associated with shear yielding rather than crazing. 

Another example of such behaviour is found in LaNii M 03(M = Mn, Cr etc.) where the temperature coefficient of resistivity changes sign at a critical value of x (Fig. 6.36) LaNi03(x = 0) is a d-band metal and the resistivity increases with increase in x. Laj. Sr VOj also shows similar behaviour (Sayer et al, 1975). 

Causes of insulin resistance Insulin resistance increases with weight gain and, conversely, diminishes with weight loss. This... 

Let us finally comment on the morphological stability of the boundaries during metal oxidation (A + -02 = AO) or compound formation (A+B = AB) as discussed in the previous chapters. Here it is characteristic that the reaction product separates the reactants. 1 vo interfaces are formed and move. The reaction resistance increases with increasing product layer thickness (reaction rate 1/A J). The boundaries of these reaction products are inherently stable since the reactive flux and the boundary velocity point in the same direction. The flux which causes the boundary motion pushes the boundary (see case c) in Fig. 11-5). If instabilities are occasionally found, they are not primarily related to diffusional transport. The very fact that the rate of the diffusion controlled reaction is inversely proportional to the product layer thickness immediately stabilizes the moving planar interface in a one-... 

Platinum 100ft 70 to 870 0.4 Resistance increases with temperature (i.e. 

A similar correlation was obtained also for the experiments of Figure 3, where oxygen adsorption temperature was varied. The sensor resistance at 300 8C is shown as a function of the adsorption temperature in Figure 7. The resistance increased with increasing adsorption temperature, and then decreased via a maximum. The variation corresponds roughly well with that of the total amount of surface oxygens. 

---