In this paper, influence of new plasticizers on the mechanical and low-temperature properties of rubbers is studied. The subjects of the research are rubbers based on BNKS-18 butadiene-nitrile rubber and Hydrin T-6000 epichlorohydrin rubber (ECHR). As used plasticizers: DINP (diisononylphthalate), TOTM (trioctyltrimellitate), DOA (dioctyladipate), Alphaplast (complex plasticizer based on esters of organic alcohols and acids). For identification the efficiency, rubbers with the studied plasticizers compared with standard rubber, in which plasticizers have not introduced, as well as with rubber in which a widely used industrial plasticizer DOF (dioktilphthalate) was added. Research of the mechanical properties of rubbers based on BNKS-18 showed that the introduction of plasticizers leads to an increase in elasticity and a slight decrease in the strength of rubbers and on the contrary for rubbers based on ECHR. Low-temperature properties of rubbers with all studied plasticizers have an increased level in comparison with standard rubber. In rubber based on BNKS-18, the highest values of the coefficient of frost resistance at-45°C are observed with the introduction of plasticizers Alphaplast and DOA, an increase in the index compared to standard rubber is more than 50%. The same plasticizers have shown the greatest contribution to the increase in frost resistance of rubbers based on ECHR.
The results of development of frost-resistant rubber based on epichlorohydrin rubber (ECHR) of Hydrin T6000 brand of Zeon Chemicals L.P. (USA) are described in the present work. The properties of ECHRs are determined by the nature of the structural units that constitute the macromolecules. The absence of olefinic functionality in the main chain gives ECHR the resistance to heat, oxygen, ozone and other factors. The presence of chlorine causes the high resistance of Hydrin T6000 rubber to the effect of hydrocarbon media (oils, fuels, fats, waxes, solvents), and the presence of oxygen atoms helps to maintain the flexibility and elasticity of materials at low temperatures. Hydrin T6000 rubber has the lowest glass transition temperature (Tgt= -60 ° C) from all the epichlorohydrin rubber brands, high oil resistance, increased heat and ozone resistance, and, therefore, attracts researchers' interest as a promising rubber for the development of frost-resistant rubber with sealing capability. The paper presents the formulation of rubbers based on Hydrin T6000 and the results of studies of their physical and mechanical properties. Analysis of the data revealed that the obtained rubber has excellent frost resistance, increased oil resistance at a satisfactory level of residual deformation after compression and strength characteristics. Thus, Hydrin T6000 has established itself as a promising rubber for manufacturing frost-resistant rubber with sealing function and will provide increased reliability and durability of equipment operation in extreme conditions of cold climate in Russia.
The aim of this study is to investigate some vasoactive properties of the blood of spontaneously hypertensive rats (SHR). Isolated segments of rat tail arteries obtained from normotensive rats (Wistar-Kyoto (WKY) and Wistar) were perfused with blood from conscious donor rats (WKY, Wistar or SHR). Alterations of the neurogenic constrictor responses (NCR) of the isolated segments evoked by electrical stimulation were studied. The amplitude of NCR of the isolated arteries was studied during perfusion with blood according to the perfusion scheme WKY1(1)-SHR1(2)-WKY1(3) and WKY1(1)-WKY2(2)-WKY1(3). The release of 3H-noradrenaline ([3H]-NA) from vascular sympathetic fibres was measured. The influence of adrenal demedullation on NCR was estimated. We have shown that NCR of isolated arteries decreased by 28.3 +/- 7.9% (P < 0.05 vs. WKY1(1)) during perfusion with blood from SHR (scheme WKY1(1)-SHR1(2)-WKY1(3)). In these experiments, release of [3H]-NA from sympathetic fibres of the artery segments decreased by 39.9 +/- 9.6% during the perfusion with blood from SHR vs. WKY1(1) (P < 0.05). Adrenal demedullation prevented the decrease of NCR during perfusion of the arteries with blood from SHR. In conclusion, the blood of SHR has some antihypertensive factor(s), which causes decrease of NCR in the tail artery from normotensive rats. This decline is accompanied by the decrease of release in [3H]-NA from the transmural sympathetic fibres and is abolished after adrenal demedullation of blood donor rats.
Аннотация В статье представлен прогноз результатов юных лёгкоатлетов, занимающихся в отделениях «Спринтерского и барьерного бега» и «Прыжков», на основе анализа двигательной подготовленности в беговых и прыжковых тестах. Ключевые слова: спортивный отбор, прогнозирование результатов, двигательная подготовленность. SPORT SELECTION AND PROGNOSIS OF THE RESULTS OF TRACK AND FIELD ATHLETES AGED 10-12 YEARS OLD BASED ON THE ANALYSIS OF MOTOR READINESS Nadezda Mikhailovna Sokolova, the candidate of pedagogical sciences, track-and-field coach, Specialized Youth Track-and-Field Sport School named after Honored Coach A.R. Elfimov, Rybisk, Yaroslavl Region, Eduard Anatolievich Gaidukov, senior lecturer, Rysinsk State Aircraft Engineering Academy named after P.A Solovyev Annotation The prognosis of the results of youth track-and field athletes is presented in the article. The athletes were selected from the "Sprint and Hurdles" and "Long Jump" activity categories; the analysis is based on the degree of motor efficiency in running and long jump tests.
The effects of mechanical activation of carbon black on the processing and properties of butadiene nitrile rubber were studied. Mechanical activation of carbon black caused an improvement in the physical and mechanical properties of the butadiene-nitrile rubber, BNR-18AMN. The optimum activation time that would afford rubber with improved properties was established.
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