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Mechanical ultimate strength

Because pure aluminum is n picaUy too soft to be drawn into a fine wine, it is often alloyed with 1° o sihcon or 1° o magnesium to provide a sofid solution-strengthening mechanism. The resistance of Al-1° o Mg wine to fatigue failure and to degradation of ultimate strength after exposure to elevated temperatures is superior to that of Al—1° o Si wine. [Pg.528]

Some rubber base adhesives need vulcanization to produce adequate ultimate strength. The adhesion is mainly due to chemical interactions at the interface. Other rubber base adhesives (contact adhesives) do not necessarily need vulcanization but rather adequate formulation to produce adhesive joints, mainly with porous substrates. In this case, the mechanism of diffusion dominates their adhesion properties. Consequently, the properties of the elastomeric adhesives depend on both the variety of intrinsic properties in natural and synthetic elastomers, and the modifying additives which may be incorporated into the adhesive formulation (tackifiers, reinforcing resins, fillers, plasticizers, curing agents, etc.). [Pg.573]

In many cases, a product fails when the material begins to yield plastically. In a few cases, one may tolerate a small dimensional change and permit a static load that exceeds the yield strength. Actual fracture at the ultimate strength of the material would then constitute failure. The criterion for failure may be based on normal or shear stress in either case. Impact, creep and fatigue failures are the most common mode of failures. Other modes of failure include excessive elastic deflection or buckling. The actual failure mechanism may be quite complicated each failure theory is only an attempt to explain the failure mechanism for a given class of materials. In each case a safety factor is employed to eliminate failure. [Pg.293]

The preceding models permit an evaluation of the ultimate strength of some simple polymers under mechanical stress. Under specific circumstances, it is important to predict the average lifetime of a bond stressed at a level which is below its... [Pg.108]

The treated phenomena and investigations summarized above are at the centre of the topic of this special two-volume edition of the Advances in Polymer Science on Intrinsic molecular mobility and toughness of polymers . However, little has been said about the mutual relations between molecular configuration, polymer morphology, nature, intensity and cooperativity of sub-Tg relaxation mechanisms, and mode of solicitation on the one hand and their effect on disentanglement, craze formation, yield behaviour and ultimate strength on the other. These subjects will be critically evaluated in the subsequent presentations of this Volume. [Pg.31]

In the case of siloxane elastomers, the testing of mechanical properties is of particular importance. Elongation or tensile measurements are used almost to the exclusion of other types of mechanical tests, probably because of their simplicity. In this way, structural information is obtained about the networks, such as their degrees of cross-linking.92 Measurements of the ultimate strength (modulus at rupture), and the maximum... [Pg.161]

Hydrogen influences mechanical properties of construction materials [2]. For example, accumulation of hydrogen inside the metal gives rise to the fact that the material becomes more fragile and easily destroyed. On the contrary, some materials (e.g. titanium alloys) saturated with hydrogen become more plastic, though their ultimate strength decreases. [Pg.681]

Figure 6. Example of the relationship between a typical stress-strain diagram and some mechanical properties. Key A, proportional limit B, ultimate strength a, MOR cr., FSPL Acr/Ae (from origin to A), MOE ... Figure 6. Example of the relationship between a typical stress-strain diagram and some mechanical properties. Key A, proportional limit B, ultimate strength a, MOR cr., FSPL Acr/Ae (from origin to A), MOE ...
When wood is exposed to environmental agents of deterioration, such as chemical treatments or elevated temperatures, each mechanical property reacts differently. Most commonly, ultimate strength... [Pg.236]

What causes the phenomenon of stress and strain reduction and why is the reduction in impact and work properties so visible at small or negligible changes in elastic modulus and ultimate strengths As discussed previously, mechanical properties deal with stress and strain relationships that are simply functions of chemical bond strength. At the molecular level, strength is related to both covalent and hydrogen intrapolymer bonds. At the microscopic level, strength... [Pg.237]

The knowledge of the total fracture energy of concrete determined by equilibrium tests is especially important for structures operating in corrosive environments, shock, and cyclic mechanical loads because in this case the material acts, as a rule, beyond ultimate strength (descending branch of the deformation graph, Figure 3.11). [Pg.148]

Hardening mechanism in lead-calcium alloys. Lead-calcium alloys harden extremely rapidly 80% of the ultimate strength is reached in one day, and virtually full ageing in seven days. Such rapid hardening enhances grid handling and battery production. The rapid hardening was a benefit to VRLA batteries. [Pg.17]

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See also in sourсe #XX -- [ Pg.446 ]



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