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Creep will continue at a very low rate after this point, which is the classic behavior of elastomers.RubberHose 2 and Overlord are available at up to 30% discount price. The amount of creep is a function of stress level. After approximately 3000 hours (18 weeks) creep reaches a plateau and becomes almost constant. The creep characteristics of two urethane polymers, over a ten-month period, are shown on Figure 2. Creep is also increased more under dynamic loading then under static loading. Creep is greater under tension strain then under equal compression strain. In general, the degree of creep is dependent on the type of strain. It has been established that the higher the initial strain, the higher the creep also, the higher the temperature, the higher the creep. The relative effects of variables have not yet been correlated so that results of tests under one set of conditions will permit accurate prediction of creep under another set of conditions. Chief among these are amount of strain, operating temperature and changes in these two resulting from vibration. Yet, it is difficult to predict these properties for a given application without resorting to simulated service tests because several factors have an important effect on them. Strain relaxation is important in applications such as engine mountings since it influences the alignment of various parts of the equipment. However, continuous vibratory loading will increase creep since internal heat is generated. Loads which allow intermittent recovery will exhibit less creep than if continuously loaded. The unrecoverable portion is called permanent set. AB in the high stress creep curve indicates the failure phase where actual fracture can occur.īelow the failure zone, when stress is removed, the part will attempt to return to its original dimension however, it will never fully recover. Figure 1 illustrates characteristic creep curves. Failure can occur after an extended period of high stress. In the initial stage, creep occurs at a relatively high rate and then continues at a very slow rate. Creep, expressed as a percent, equals total deformation minus initial deformation divided by initial deformation, time 100. Determination of creep takes place after some arbitrary short time interval such as one minute, five minutes or even on day after applying the load. No rapid method has been developed for its measurement because there is no know way of accelerating time effects without introducing inaccuracies in predicting rate of creep.Ĭreep is usually expressed in percent of deformation after the part is loaded rather than the unloaded dimension. In service, creep can be minimized by using low working stresses and avoiding high temperatures. This occurs at any stress level and takes place in compression, tension and shear loadings and varies for each type of loading. When subjected to load, all elastomers exhibit an increasing deformation with time, know as creep.