Effect of one variant of Ti3Ni4 particles on stress-induced martensitic transformations in <111>-oriented Ti49.2Ni50.8 single crystals

In the present study the effects of stress-assisted aging of the Ti49.2Ni50.8 single crystals oriented along [11] direction on the stress-induced B2-R-B19' thermoelastic martensitic transformations and superelasticity are investigated. It is experimentally established that aging at 823 K for 1h under compression stress of 150 MPa along [11] direction leads to the precipitation of one crystallographic variant of Ti3Ni4 particles of 350(±30) nm in size. Precipitation the single variant of Ti3Ni4 particle results in an appearance of homogeneous long-range internal stress field || ≈ 65 MPa, that defines the main features of stress-induced B2-R-B19' transformation and determines the increase in the characteristic temperatures of martensitic transformation and the existence of two-way shape memory effect

Estimation of acute toxicity of a drug based on the complex of lithium citrate, polymethylsiloxane, aluminum oxide

Research Institute of Clinical and Experimental Lymphology has developed an innovative drug based on a complex of lithium citrate, polymethylsiloxane and aluminum oxide (LOAP). Lithium-based drugs are effective in treating bipolar disorders. However, the toxic effects of lithium cause a “narrow therapeutic window”, which limits its clinical use. The creation of the drug LOAP was aimed at creating a prolonged form with a slow release of lithium to reduce toxic properties and use lithium citrate as an active pharmacological agent. At the moment, the lithium complex has no analogues. The purpose of the study was to study the parameters of acute toxicity of the LOAP. Material and methods. When studying acute toxicity, drugs were administered once intragastrically to mice and rats at doses of 12000, 10000, and 5000 mg/kg. Results. A single administration of drugs intragastrically through a probe in the maximum possible doses to mice and rats did not cause the death of animals and did not cause a locally irritating effect on the gastric mucosa. LOAP can be assigned to hazard class 4 (GOST 12.1.007-76)

Effect of one variant of Ti3Ni4 particles on stress-induced martensitic transformations in <111>-oriented Ti49.2Ni50.8 single crystals

In the present study the effects of stress-assisted aging of the Ti49.2Ni50.8 single crystals oriented along [11] direction on the stress-induced B2-R-B19' thermoelastic martensitic transformations and superelasticity are investigated. It is experimentally established that aging at 823 K for 1h under compression stress of 150 MPa along [11] direction leads to the precipitation of one crystallographic variant of Ti3Ni4 particles of 350(±30) nm in size. Precipitation the single variant of Ti3Ni4 particle results in an appearance of homogeneous long-range internal stress field || ≈ 65 MPa, that defines the main features of stress-induced B2-R-B19' transformation and determines the increase in the characteristic temperatures of martensitic transformation and the existence of two-way shape memory effect

One-way and two-way shape memory effect in ferromagnetic NiFeGaCo single crystals

The effects of stress-free and stress-assisted aging at 673 K for 4 h on the one-way and two-way shape memory effect (TWSME) in ferromagnetic Ni49Fe18Ga27Co6 (at%) single crystals were investigated. Thermal cycling in the interval of stress-induced martensitic transformation was used to induce a two-way shape memory effect. A large reversible TWSME strain of up to 4.5% was observed after stress-assisted aging, which is attributed to the selection of certain precipitate variants and the corresponding favorably oriented internal stress fields formed

One-way and two-way shape memory effect in ferromagnetic NiFeGaCo single crystals

The effects of stress-free and stress-assisted aging at 673 K for 4 h on the one-way and two-way shape memory effect (TWSME) in ferromagnetic Ni49Fe18Ga27Co6 (at%) single crystals were investigated. Thermal cycling in the interval of stress-induced martensitic transformation was used to induce a two-way shape memory effect. A large reversible TWSME strain of up to 4.5% was observed after stress-assisted aging, which is attributed to the selection of certain precipitate variants and the corresponding favorably oriented internal stress fields formed