Titanium based IrO2 +Ta2O5 oxide anodes with different compositions and pyrolysis temperatures were prepared by termodecompoisition method. By using X-ray diffraction (XRD), the structure and texture coefficient of th...Titanium based IrO2 +Ta2O5 oxide anodes with different compositions and pyrolysis temperatures were prepared by termodecompoisition method. By using X-ray diffraction (XRD), the structure and texture coefficient of the coatings, TC(hkl), of IrO2 rutile crystal have been tested. It showed that, the crystallization processes of IrO2 and Ta2O5 in xIrO2 +(100-x) Ta2 O5 (x is in mol%) films affected and confined each other.In the mixed system, IrO2 rutile phase existed as a solid solution with Ta, and attained the maximum solubility when x=70mol%, i.e. for the coating of 70% IrO2 +Ta2O5.For the coatings of low iridium content or at low preparing tem pemture, (110) and (101) pwtered orientations were dominant. However, preferred growth of IrO2 weakened with increasing either iridium content or temperature. Three typical surface morphologies were observed by using scanning electron tnicroscopy(SEM). The crystallite size of the mixed oxide coatings were finest for the the film of 70%IrO2 +30%Ta2O5,and decreased with the pyrolysis tempemture. As the results of the finest crystallite segregating on sudece and the maxitnum solid solubility of Ir and Ta component in deposits, the coatings with the composition of 70%IrO2 +Ta2O5 prepared at 450℃ presented the mdrimutn electrocatalgtic activitg for O2 evolution in 0. 5M H2SO4 solution.UP to 550℃, Ti base suffered to oxidation resulting in decreasing anode conductivity,therefore, coatings performed a low activity.展开更多
Vanadium-titanium-based catalysts are the most widely used industrial materials for NO_x removal from coal-fired power plants. Owing to their relatively poor low-temperature deNO_x activity, low thermal stability, ins...Vanadium-titanium-based catalysts are the most widely used industrial materials for NO_x removal from coal-fired power plants. Owing to their relatively poor low-temperature deNO_x activity, low thermal stability, insufficient Hg^0 oxidation activity, SO_2 oxidation, ammonia slip, and other disadvantages,modifications to traditional vanadium-titanium-based selective catalytic reduction(SCR)catalysts have been attempted by many researchers to promote their relevant performance. This article reviewed the research progress of modified vanadium-titanium-based SCR catalysts from seven aspects, namely,(1) improving low-temperature deNO_x efficiency,(2) enhancing thermal stability,(3) improving Hg^0 oxidation efficiency,(4) oxidizing slip ammonia,(5) reducing SO_2 oxidation,(6) increasing alkali resistance, and(7) others. Their catalytic performance and the influence mechanisms have been discussed in detail. These catalysts were also divided into different categories according to their modified components such as noble metals(e.g., silver, ruthenium), transition metals(e.g., manganese, iron, copper, zirconium, etc.), rare earth metals(e.g., cerium, praseodymium),and other metal chlorides(e.g., calcium chloride, copper chloride) and non-metals(fluorine,sulfur, silicon, nitrogen, etc.). The advantages and disadvantages of these catalysts were summarized.Based on previous studies and the author's point of view, doping the appropriate modified components is beneficial to further improve the overall performance of vanadium-titanium-based SCR catalysts. This has enormous development potential and is a promising way to realize the control of multiple pollutants on the basis of the existing flue gas treatment system.展开更多
Vacuum diffusion bonding of a TiAl based alloy (TAD) to a titanium alloy (TC2) was carried out at 1 273 K for 15~120 min under a pressure of 25 MPa . The kinds of the reaction products and the interface s...Vacuum diffusion bonding of a TiAl based alloy (TAD) to a titanium alloy (TC2) was carried out at 1 273 K for 15~120 min under a pressure of 25 MPa . The kinds of the reaction products and the interface structures of the joints were investigated by SEM, EPMA and XRD. Based on this, a formation mechanism of the interface structure was elucidated. Experimental and analytical results show that two reaction layers have formed during the diffusion bonding of TAD to TC2. One is Al rich α(Ti)layer adjacent to TC2,and the other is (Ti 3Al+TiAl)layer adjacent to TAD,thus the interface structure of the TAD/TC2 joints is TAD/(Ti 3Al+TiAl)/α(Ti)/TC2.This interface structure forms according to a three stage mechanism,namely(a)the occurrence of a single phase α(Ti)layer;(b)the occurrence of a duplex phase(Ti 3Al+TiAl)layer;and(c)the growth of the α(Ti)and (Ti 3Al+TiAl)layers.展开更多
An overview of a severe kind of environmentally-assisted cracking-stress corrosion cracking (SCC) of pressure vessel steel (PVS),such as stainless steel 304, alloy 600,690 and other nickel-based alloys in subcritical ...An overview of a severe kind of environmentally-assisted cracking-stress corrosion cracking (SCC) of pressure vessel steel (PVS),such as stainless steel 304, alloy 600,690 and other nickel-based alloys in subcritical (~300 ℃) aqueous environment was given. The mechanisms of SCC of metals under this inclement surrounding were briefly generalized. Herein,some pragmatic solutions to mitigate the SCC susceptibility and retard its propagation were presented. The titanium and cerium-based inhibitors addition countermeasure was highlighted.展开更多
For developing TiO based imitated gold materials, the wettabilities of Fe and Fe Cr Ni Ti on TiO were studied. The results indicated that the wettabilities of Fe and Fe Cr on TiO were poor, and their wetting angles we...For developing TiO based imitated gold materials, the wettabilities of Fe and Fe Cr Ni Ti on TiO were studied. The results indicated that the wettabilities of Fe and Fe Cr on TiO were poor, and their wetting angles were about 90° at melting point. The wetting angles reduced with the increase of wetting temperature, but the influence of temperature was small. Fe and Fe Cr containing Cr 50% or less could react with TiO on the interface to form Fe 2Ti and Ti 2O 3, but this did not improve the wettability effectively. When Ni Ti was added into Fe Cr alloy, Ni 3Ti was formed on the interface, which can reduce the interface energy, improve the wettability, and prevent the formation of Fe 2Ti and Ti 2O 3. The wetting angles could go down to about 40° when 3% Ni Ti was added to Fe Cr alloy.展开更多
The interaction between the slag containing titanium oxides(TiO2of 2.0 %-20.0%)and a MgO-C based refractory was investigated by immersion test.The relationship between TiO2 content in slag and corrosion rate of the re...The interaction between the slag containing titanium oxides(TiO2of 2.0 %-20.0%)and a MgO-C based refractory was investigated by immersion test.The relationship between TiO2 content in slag and corrosion rate of the refractory was studied.The microstructure and compositions of the corroded refractory were analyzed by SEM and X-ray diffraction.The corrosion mechanism of MgO-C based refractory in the slag containing titanium was proposed,and the effects of TiO2 content,slag basicity(ωCaO/ωSiO2)and temperature in molten bath on the corrosion rate of the refractory were obtained.展开更多
Fe-based alloy Fe-Cr-Ti-C composite layers with and without titanium ( other powder ingredients are about the same) were fabricated on Q235 steel by plasma cladding process with high-energy plasma jet as heat source...Fe-based alloy Fe-Cr-Ti-C composite layers with and without titanium ( other powder ingredients are about the same) were fabricated on Q235 steel by plasma cladding process with high-energy plasma jet as heat source. Microstructure , phase composition and micro-hardness of the layers were investigated by optical microscope (OM), X-ray diffraction (XRD), electron probe microanalysis ( EPMA ) and micro-hardness tester. The results show that the grains of the cladding layers with Ti are much finer than that of the Fe-based cladding layer without Ti. Compared with the cladding layers without Ti, there are more shingle crystals in the cladding layers with Ti and the hard phase ( Cr, Fe ) 7 C3 of the eutectic in the layers increase gradually. However, as increasing titanium content in the alloy powder, the hard phase (Cr, Fe ) 7 C3 in eutectic structure of the cladding layer increases gradually, restraining ( Cr, Fe )7 C3 carbide precipitation and decreasing the average and maximum hardness of the cladding layer.展开更多
The effects of Ti element on the corrosion resistance of the metallic glass Zr51.3AlloNi6Cu31.8Ag0.lY0.8 in aqueous solution with various chloride concentrations were investigated, and the effect mechanism was discuss...The effects of Ti element on the corrosion resistance of the metallic glass Zr51.3AlloNi6Cu31.8Ag0.lY0.8 in aqueous solution with various chloride concentrations were investigated, and the effect mechanism was discussed. X-ray diffraction con-firmed that Ti-added Zr51.3All0Ni6Cu31.8Ag0.lY0.8 metallic glasses with diameter of 3 mm were all metallic glasses. Weight loss and electrochemical method were introduced to characterize their corrosion resistance, and X-ray photo-electron spectroscopy study was used t9 characterize the passive film composition. The results show that the corrosion resistance of metallic glass is significantly improved with Ti addition, and Zr dioxides dominate in passive film during corrosion when Ti content is low. High Ti addition can lead to an obvious accumulation of Ti dioxides, which results in a thicker, Ti-enriched protective passive film.展开更多
文摘Titanium based IrO2 +Ta2O5 oxide anodes with different compositions and pyrolysis temperatures were prepared by termodecompoisition method. By using X-ray diffraction (XRD), the structure and texture coefficient of the coatings, TC(hkl), of IrO2 rutile crystal have been tested. It showed that, the crystallization processes of IrO2 and Ta2O5 in xIrO2 +(100-x) Ta2 O5 (x is in mol%) films affected and confined each other.In the mixed system, IrO2 rutile phase existed as a solid solution with Ta, and attained the maximum solubility when x=70mol%, i.e. for the coating of 70% IrO2 +Ta2O5.For the coatings of low iridium content or at low preparing tem pemture, (110) and (101) pwtered orientations were dominant. However, preferred growth of IrO2 weakened with increasing either iridium content or temperature. Three typical surface morphologies were observed by using scanning electron tnicroscopy(SEM). The crystallite size of the mixed oxide coatings were finest for the the film of 70%IrO2 +30%Ta2O5,and decreased with the pyrolysis tempemture. As the results of the finest crystallite segregating on sudece and the maxitnum solid solubility of Ir and Ta component in deposits, the coatings with the composition of 70%IrO2 +Ta2O5 prepared at 450℃ presented the mdrimutn electrocatalgtic activitg for O2 evolution in 0. 5M H2SO4 solution.UP to 550℃, Ti base suffered to oxidation resulting in decreasing anode conductivity,therefore, coatings performed a low activity.
基金supported by the Science and Technology Plan Project of Hebei Province of China(16273703D)the Fundamental Research Funds for the Central Universities(2015ZD24,2017XS123)~~
文摘Vanadium-titanium-based catalysts are the most widely used industrial materials for NO_x removal from coal-fired power plants. Owing to their relatively poor low-temperature deNO_x activity, low thermal stability, insufficient Hg^0 oxidation activity, SO_2 oxidation, ammonia slip, and other disadvantages,modifications to traditional vanadium-titanium-based selective catalytic reduction(SCR)catalysts have been attempted by many researchers to promote their relevant performance. This article reviewed the research progress of modified vanadium-titanium-based SCR catalysts from seven aspects, namely,(1) improving low-temperature deNO_x efficiency,(2) enhancing thermal stability,(3) improving Hg^0 oxidation efficiency,(4) oxidizing slip ammonia,(5) reducing SO_2 oxidation,(6) increasing alkali resistance, and(7) others. Their catalytic performance and the influence mechanisms have been discussed in detail. These catalysts were also divided into different categories according to their modified components such as noble metals(e.g., silver, ruthenium), transition metals(e.g., manganese, iron, copper, zirconium, etc.), rare earth metals(e.g., cerium, praseodymium),and other metal chlorides(e.g., calcium chloride, copper chloride) and non-metals(fluorine,sulfur, silicon, nitrogen, etc.). The advantages and disadvantages of these catalysts were summarized.Based on previous studies and the author's point of view, doping the appropriate modified components is beneficial to further improve the overall performance of vanadium-titanium-based SCR catalysts. This has enormous development potential and is a promising way to realize the control of multiple pollutants on the basis of the existing flue gas treatment system.
文摘Vacuum diffusion bonding of a TiAl based alloy (TAD) to a titanium alloy (TC2) was carried out at 1 273 K for 15~120 min under a pressure of 25 MPa . The kinds of the reaction products and the interface structures of the joints were investigated by SEM, EPMA and XRD. Based on this, a formation mechanism of the interface structure was elucidated. Experimental and analytical results show that two reaction layers have formed during the diffusion bonding of TAD to TC2. One is Al rich α(Ti)layer adjacent to TC2,and the other is (Ti 3Al+TiAl)layer adjacent to TAD,thus the interface structure of the TAD/TC2 joints is TAD/(Ti 3Al+TiAl)/α(Ti)/TC2.This interface structure forms according to a three stage mechanism,namely(a)the occurrence of a single phase α(Ti)layer;(b)the occurrence of a duplex phase(Ti 3Al+TiAl)layer;and(c)the growth of the α(Ti)and (Ti 3Al+TiAl)layers.
文摘An overview of a severe kind of environmentally-assisted cracking-stress corrosion cracking (SCC) of pressure vessel steel (PVS),such as stainless steel 304, alloy 600,690 and other nickel-based alloys in subcritical (~300 ℃) aqueous environment was given. The mechanisms of SCC of metals under this inclement surrounding were briefly generalized. Herein,some pragmatic solutions to mitigate the SCC susceptibility and retard its propagation were presented. The titanium and cerium-based inhibitors addition countermeasure was highlighted.
文摘For developing TiO based imitated gold materials, the wettabilities of Fe and Fe Cr Ni Ti on TiO were studied. The results indicated that the wettabilities of Fe and Fe Cr on TiO were poor, and their wetting angles were about 90° at melting point. The wetting angles reduced with the increase of wetting temperature, but the influence of temperature was small. Fe and Fe Cr containing Cr 50% or less could react with TiO on the interface to form Fe 2Ti and Ti 2O 3, but this did not improve the wettability effectively. When Ni Ti was added into Fe Cr alloy, Ni 3Ti was formed on the interface, which can reduce the interface energy, improve the wettability, and prevent the formation of Fe 2Ti and Ti 2O 3. The wetting angles could go down to about 40° when 3% Ni Ti was added to Fe Cr alloy.
文摘The interaction between the slag containing titanium oxides(TiO2of 2.0 %-20.0%)and a MgO-C based refractory was investigated by immersion test.The relationship between TiO2 content in slag and corrosion rate of the refractory was studied.The microstructure and compositions of the corroded refractory were analyzed by SEM and X-ray diffraction.The corrosion mechanism of MgO-C based refractory in the slag containing titanium was proposed,and the effects of TiO2 content,slag basicity(ωCaO/ωSiO2)and temperature in molten bath on the corrosion rate of the refractory were obtained.
基金Supported by Natural Science Foundation of Shandong Province (No. ZR2011EMM017), Project of Shandong Province Higher Educational Science and Technology Program (No. J12LA56) and in part by NSFC (No. 51004077).
文摘Fe-based alloy Fe-Cr-Ti-C composite layers with and without titanium ( other powder ingredients are about the same) were fabricated on Q235 steel by plasma cladding process with high-energy plasma jet as heat source. Microstructure , phase composition and micro-hardness of the layers were investigated by optical microscope (OM), X-ray diffraction (XRD), electron probe microanalysis ( EPMA ) and micro-hardness tester. The results show that the grains of the cladding layers with Ti are much finer than that of the Fe-based cladding layer without Ti. Compared with the cladding layers without Ti, there are more shingle crystals in the cladding layers with Ti and the hard phase ( Cr, Fe ) 7 C3 of the eutectic in the layers increase gradually. However, as increasing titanium content in the alloy powder, the hard phase (Cr, Fe ) 7 C3 in eutectic structure of the cladding layer increases gradually, restraining ( Cr, Fe )7 C3 carbide precipitation and decreasing the average and maximum hardness of the cladding layer.
基金This work is supported by the National Natural Science Foundation of China [51434008 (U1435204), 51531005], China's Manned Space Station Project (Mission No. TGJZ800-2-RW024), CAS Key Project "Research & Development of Nuclear Materials and Service Safety Assurance Technology" (ZDRW-CN- 2017-1 ), DongGuan Innovative Research Team Program (2014607134), Shenyang Key R&D and Technology Transfer Pro-gram (Z17-7-001), Theme Special Project of Shenyang Key Science and Technology Research and Development Programs (17-85-0-00), and Double-hundred Program of Shenyang Science and Technology Innovation Project (Y17-2-036).
文摘The effects of Ti element on the corrosion resistance of the metallic glass Zr51.3AlloNi6Cu31.8Ag0.lY0.8 in aqueous solution with various chloride concentrations were investigated, and the effect mechanism was discussed. X-ray diffraction con-firmed that Ti-added Zr51.3All0Ni6Cu31.8Ag0.lY0.8 metallic glasses with diameter of 3 mm were all metallic glasses. Weight loss and electrochemical method were introduced to characterize their corrosion resistance, and X-ray photo-electron spectroscopy study was used t9 characterize the passive film composition. The results show that the corrosion resistance of metallic glass is significantly improved with Ti addition, and Zr dioxides dominate in passive film during corrosion when Ti content is low. High Ti addition can lead to an obvious accumulation of Ti dioxides, which results in a thicker, Ti-enriched protective passive film.
