It is a very important and complex task to estimate the thermo-elasticproperties of a textile structural composite. In this paper, the finite element method (FEM) wasused for the prediction of the orthotropic thermo-e...It is a very important and complex task to estimate the thermo-elasticproperties of a textile structural composite. In this paper, the finite element method (FEM) wasused for the prediction of the orthotropic thermo-elastic properties of a composite reinforced byglass fiber knitted fabric. In order to define the final 3-D configuration of the loop reinforcingstructure, the interactions between the adjacent loops, the large displacement and the contactelements without friction were considered. The values predicted were compared with the experimentalresults.展开更多
It is investigated the interaction of Ge(IV) with bis(2,3,4-trigodroksifenolazo) benzidine (R) in the presence of KSAS (cationic surface active substances)-CPCl (cetylpyridinium chloride), CPBr (cetylpyridi...It is investigated the interaction of Ge(IV) with bis(2,3,4-trigodroksifenolazo) benzidine (R) in the presence of KSAS (cationic surface active substances)-CPCl (cetylpyridinium chloride), CPBr (cetylpyridinium bromide) and CTMABr (cetyltrimethylammonium bromide). It is studied the effect pH, time on the formation of ternary complexes. It is determinated of molar absorption coefficients and stability constants of germanium. Binary (Ge-R) and triple (Ge-R-CPCI, Ge-R-CPBr, Ge-R-CTMaBr) complex form at pH 4 and pH 1, respectively. The composition proportion of binar system is 1:2 and the composition proportion triple complex is 1:1:2. The concentration interval of germanium which obeying beer low in the Ge-R 0.12-2.92 mkq/mL, in the Ge-R-CPCI is 0.04-1.46 mkq/mL, in the Ge-R-CPBr is 0.00-1.00 mkq/mL and in the Ge-R-CTMaBr is 0.00-1.00 mkq/mL. Molar absorbtivities of complexes are 45,000, 57,000, 59,000 and 60,000, respectively. The effect of interfering ions and masking agents has been learned. Stability constants of complexes have been determined: lgKl = 7.21 + 0.06 (Ge-R),' lgK1 = 12.08 _+ 0.05 (Ge-R-CPCI), lgK1 = 12.12 + 0.07 (Ge-R-CPBr) and lgK1 = 12.85 + 0.06 (Ge-R-CTMaBr). It is developed highly selective method of photometric determination of trace amounts of Ge(IV) in petroleum coke.展开更多
文摘It is a very important and complex task to estimate the thermo-elasticproperties of a textile structural composite. In this paper, the finite element method (FEM) wasused for the prediction of the orthotropic thermo-elastic properties of a composite reinforced byglass fiber knitted fabric. In order to define the final 3-D configuration of the loop reinforcingstructure, the interactions between the adjacent loops, the large displacement and the contactelements without friction were considered. The values predicted were compared with the experimentalresults.
文摘It is investigated the interaction of Ge(IV) with bis(2,3,4-trigodroksifenolazo) benzidine (R) in the presence of KSAS (cationic surface active substances)-CPCl (cetylpyridinium chloride), CPBr (cetylpyridinium bromide) and CTMABr (cetyltrimethylammonium bromide). It is studied the effect pH, time on the formation of ternary complexes. It is determinated of molar absorption coefficients and stability constants of germanium. Binary (Ge-R) and triple (Ge-R-CPCI, Ge-R-CPBr, Ge-R-CTMaBr) complex form at pH 4 and pH 1, respectively. The composition proportion of binar system is 1:2 and the composition proportion triple complex is 1:1:2. The concentration interval of germanium which obeying beer low in the Ge-R 0.12-2.92 mkq/mL, in the Ge-R-CPCI is 0.04-1.46 mkq/mL, in the Ge-R-CPBr is 0.00-1.00 mkq/mL and in the Ge-R-CTMaBr is 0.00-1.00 mkq/mL. Molar absorbtivities of complexes are 45,000, 57,000, 59,000 and 60,000, respectively. The effect of interfering ions and masking agents has been learned. Stability constants of complexes have been determined: lgKl = 7.21 + 0.06 (Ge-R),' lgK1 = 12.08 _+ 0.05 (Ge-R-CPCI), lgK1 = 12.12 + 0.07 (Ge-R-CPBr) and lgK1 = 12.85 + 0.06 (Ge-R-CTMaBr). It is developed highly selective method of photometric determination of trace amounts of Ge(IV) in petroleum coke.
