A new type of corrosion-resistant alloyed-steel rebar,Cr10MoV,was researched using techniques such as corrosion electrochemistry,X-ray computed tomography,and zero resistance ammeter to systematically study the macro-...A new type of corrosion-resistant alloyed-steel rebar,Cr10MoV,was researched using techniques such as corrosion electrochemistry,X-ray computed tomography,and zero resistance ammeter to systematically study the macro-cell corrosion behavior and corrosion resistance of alloyed-steel rebar in mortar and concrete samples induced by chloride ion concentration in the marine environment.The macro-cell corrosion characteristics and development patterns induced by chloride ion concentration in alloyed-steel rebar were preliminarily revealed.In the macro-cell corrosion system of rebar mortar samples induced by 29 times chloride ion concentration,the corrosion current density of the alloyed-steel rebar combination stabilizes at 1.6–2.4μA/cm^(2),which is only one-third of that of the carbon-steel rebar combination,while the dissimilar steel rebar combination stabilizes at 0–0.4μA/cm^(2).Alloyed-steel rebar and carbon-steel rebar are configured in high concentration and low concentration chlorine salt areas,respectively.With the help of high corrosion resistance,the long-term stable corrosion resistance of alloyed-steel rebar is ensured.The potential difference between carbon-steel rebar and alloyed-steel rebar is reduced to weaken the driving force of macro-cell corrosion.It is a useful way to inhibit the macro-cell corrosion of dissimilar steel rebar and ensure the high corrosion resistance and durability of marine reinforced concrete structures.展开更多
The postmortem redistribution of aconitine(AC) and its influencing factors by orally ingested Aconitum brachypodum Diels (AbD) in rabbits were studied. The results showed that postmortem AC redistribution did exist, a...The postmortem redistribution of aconitine(AC) and its influencing factors by orally ingested Aconitum brachypodum Diels (AbD) in rabbits were studied. The results showed that postmortem AC redistribution did exist, and the diffusion along a concentration gradient was the major influencing factor on it. Change of temperature and incomplete distribution in life also influenced it.Besides those mentioned above, there were other influencing factors. These may be related to postmortem blood movement and toxin released from cells occurring as part of the processes of autolysis and putrefaction.展开更多
The effect of thermal wave at the initial stage for non-conductive Al_2 O_3 powders compact in field assisted sintering technique(FAST) was investigated. The Lord and Shulman type generalized thermoselastic theory was...The effect of thermal wave at the initial stage for non-conductive Al_2 O_3 powders compact in field assisted sintering technique(FAST) was investigated. The Lord and Shulman type generalized thermoselastic theory was introduced to describe the influence of thermal-mechanical interaction, as well as the heat transport and thermal focusing caused by thermal wave propagation. The expression of vacancy concentration difference of the particles was deduced by considering transient thermal stress. Subsequently, the relationship between activation energy and vacancy concentration difference was obtained. The mechanism of surface diffusion, volume diffusion, simultaneous surface and volume diffusion was analyzed. The numerical simulations indicate that low sintering temperature can obtain high local temperature by the superposition effect of thermal wave. Vacancy concentration differences were improved during FAST compared with hot-pressure and pressureless sintering, thereby decreasing the sintering time. By contrast, the activation energy declined with the decrease of vacancy concentration difference in the neck growth process.展开更多
We experimentally compare the output abilities of lightly and heavily doped Ti:Sapphire(Ti:S) amplifiers with diameters as large as 150 mm. Although a lightly doped Ti:S is more favorable to overcome parasitic la...We experimentally compare the output abilities of lightly and heavily doped Ti:Sapphire(Ti:S) amplifiers with diameters as large as 150 mm. Although a lightly doped Ti:S is more favorable to overcome parasitic lasing(PL)and transverse amplified spontaneous emission(TASE), the self-phase-modulation(SPM) effect becomes more pronounced when a longer crystal is used. Recompression of the amplified, stretched pulses can be seriously affected by the SPM effect. We then propose a temporal multi-pulse pump scheme to suppress PL and TASE in a thin, heavily doped Ti:S crystal. This novel temporal multi-pulse pump technique can find potential applications in 10 PW chirped-pulse amplification laser systems.展开更多
基金the financial support from National Natural Science Foundation of China(Grant Nos.52278255 and 51878246)Postgraduate Research&Practice Innovation Program of Jiangsu Province(SJCX24_0195).
文摘A new type of corrosion-resistant alloyed-steel rebar,Cr10MoV,was researched using techniques such as corrosion electrochemistry,X-ray computed tomography,and zero resistance ammeter to systematically study the macro-cell corrosion behavior and corrosion resistance of alloyed-steel rebar in mortar and concrete samples induced by chloride ion concentration in the marine environment.The macro-cell corrosion characteristics and development patterns induced by chloride ion concentration in alloyed-steel rebar were preliminarily revealed.In the macro-cell corrosion system of rebar mortar samples induced by 29 times chloride ion concentration,the corrosion current density of the alloyed-steel rebar combination stabilizes at 1.6–2.4μA/cm^(2),which is only one-third of that of the carbon-steel rebar combination,while the dissimilar steel rebar combination stabilizes at 0–0.4μA/cm^(2).Alloyed-steel rebar and carbon-steel rebar are configured in high concentration and low concentration chlorine salt areas,respectively.With the help of high corrosion resistance,the long-term stable corrosion resistance of alloyed-steel rebar is ensured.The potential difference between carbon-steel rebar and alloyed-steel rebar is reduced to weaken the driving force of macro-cell corrosion.It is a useful way to inhibit the macro-cell corrosion of dissimilar steel rebar and ensure the high corrosion resistance and durability of marine reinforced concrete structures.
文摘The postmortem redistribution of aconitine(AC) and its influencing factors by orally ingested Aconitum brachypodum Diels (AbD) in rabbits were studied. The results showed that postmortem AC redistribution did exist, and the diffusion along a concentration gradient was the major influencing factor on it. Change of temperature and incomplete distribution in life also influenced it.Besides those mentioned above, there were other influencing factors. These may be related to postmortem blood movement and toxin released from cells occurring as part of the processes of autolysis and putrefaction.
基金Funded by the National Natural Science Foundation of China(No.11602042)the Chongqing Research Program of Basic Research and Frontier Technology(No.cstc2016jcyjA0259)the Scientific and Technological Research Program of Chongqing Municipal Education Commission(No.KJ1601304)
文摘The effect of thermal wave at the initial stage for non-conductive Al_2 O_3 powders compact in field assisted sintering technique(FAST) was investigated. The Lord and Shulman type generalized thermoselastic theory was introduced to describe the influence of thermal-mechanical interaction, as well as the heat transport and thermal focusing caused by thermal wave propagation. The expression of vacancy concentration difference of the particles was deduced by considering transient thermal stress. Subsequently, the relationship between activation energy and vacancy concentration difference was obtained. The mechanism of surface diffusion, volume diffusion, simultaneous surface and volume diffusion was analyzed. The numerical simulations indicate that low sintering temperature can obtain high local temperature by the superposition effect of thermal wave. Vacancy concentration differences were improved during FAST compared with hot-pressure and pressureless sintering, thereby decreasing the sintering time. By contrast, the activation energy declined with the decrease of vacancy concentration difference in the neck growth process.
文摘We experimentally compare the output abilities of lightly and heavily doped Ti:Sapphire(Ti:S) amplifiers with diameters as large as 150 mm. Although a lightly doped Ti:S is more favorable to overcome parasitic lasing(PL)and transverse amplified spontaneous emission(TASE), the self-phase-modulation(SPM) effect becomes more pronounced when a longer crystal is used. Recompression of the amplified, stretched pulses can be seriously affected by the SPM effect. We then propose a temporal multi-pulse pump scheme to suppress PL and TASE in a thin, heavily doped Ti:S crystal. This novel temporal multi-pulse pump technique can find potential applications in 10 PW chirped-pulse amplification laser systems.
