SU501192A1 - Mechanical operation method - Google Patents

Description

one

The invention relates to the field of engine-building, in particular, to methods of performing mechanical work during phase transformations in a solid working body, and can be used to manufacture sensitive elements and actuators in devices for automation and telemechanics.

A known method for producing mechanical work under reverse martensitic transformation in alloys such as titanium nickelide, in which, by applying an external mechanical stress, internal strains are ordered at a temperature below the martensitic transformation, and then the material is additionally loaded and heated above the reverse martensitic transformation temperature. At the same time, the material recovers its original form and performs useful work.

However, this method is characterized by a low specific performance of a solid working fluid due to the considerable energy consumption for the ordering of internal strains at a temperature below the martensitic transformation.

The purpose of the invention is to increase the specific performance of the working fluid.

This is achieved by arranging the internal deformations by applying an external force field during the phase transformation.

For additional ordering of internal deformations and, accordingly, reduction of energy costs of an external force field, the working body is pre-plastically deformed in the direction of idling.

The method can be implemented, for example, on a nickel alloy containing 41% titanium.

Pa figs. Figure 1 shows the full working cycle of a TWE; solid working fluid without prior plastic deformation; in fig. 2 - full working cycle of a solid working fluid, previously plastically deformed in the direction of idling at a temperature of - 196 ° С.

As a result of the imposition of an external force field, in this case a mechanical stress, above the martensitic transformation temperature, the working body is deformed (a, b). With a direct martensitic transformation — a decrease in temperature — the working fluid is additionally deformed, making an idling

(oh, 0). At a temperature n) of the same martensitic transformation, the working body is additionally loaded, the body is additionally deformed (c, d}. In the case of a reverse martensitic transformation — an increase in temperature — the working body makes a working stroke (g, E), and then

np; -i those: the temperature is higher than liigtepspiti ir,) ciii); v its chips are unloaded to the PSR) ypach, voltage II it is 150315 | pa1tsast and the initial cost (b). The duty cycle is closed and southerly repeated a second time.

The area of closed petd is equal to

useful volume of work done by a unit of a working body per cycle (specificity).

If the working fluid was previously clastically deformed in the course of idling, then it would tilt a macro-conforming deformity on the march of the iridescent oil (Fig. 2), i. P. ordering of internal deformations occurs without external force-iol (ai). Otherwise, the duty cycle (augda) is similar to that shown in FIG. one.

Ph o m l a i 3 o b e te n i 1. Slsib io, 1 mechanic 1) mechanical work of the nrn phasic n) europadens in solid 1 body by ordering internal deformations and styling of reverse phase and rotation in working body during the working course of the last and direct - at idle periodically varying external conditions (thermal, mechanical, magnetic, electrolytic iol or their combinations), characterized in that, in order to increase the specific working capacity of the working fluid, internal deformations are resolved during the direct phase prev raschenn.

2. The method according to n. 1, characterized in that, in order to reduce the energy expenditure at idle, the working fluid of the preformed power is deformed into idle-air pan-lenvlenin.

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