The use of "bath salts" or other new psychoactive substances,otherwise known as "legal highs",is increasing.Illicit drug use during pregnancy is not uncommon.Nevertheless,literature reporting bath salts and their ...The use of "bath salts" or other new psychoactive substances,otherwise known as "legal highs",is increasing.Illicit drug use during pregnancy is not uncommon.Nevertheless,literature reporting bath salts and their effect on pregnancy is scant.Besides,there seems to be no literature about bath salts and conduct of general anesthesia.This case report describes a general anesthetic for the surgical delivery of an infant to a woman under the acute influence of bath salts and methamphetamines.展开更多
Adding rare earth into permeating agent has an obvious catalytic effect on vanadizing on steel surface, and the vanadizing rate can increase about 30%~40%. The case depth ( x ) of the samples which have undergone d...Adding rare earth into permeating agent has an obvious catalytic effect on vanadizing on steel surface, and the vanadizing rate can increase about 30%~40%. The case depth ( x ) of the samples which have undergone different periods of vanadizing time at 950 ℃ was measured. These depth values ( x ) and its corresponded time ( t ) were substituded into the experimental formula, i.e., x n=Kt (ln x=(1/n) ln K+(1/n) ln t ), and were processed by mono linear regression. It is found that x and t have the relationship of x 2=Kt . Addition of rare earth can promote reaction of the permeating agent, and increase vanadium potential of the agent. Rare earth, as a strong reductant, makes the oxide on the steel surface reduced, and thus activates the steel surface. Permeating of rare earth into steel and the VC layer intensifies the crystal fault density, and, together with its excellent chemical activation, makes carbon atoms diffuse easily. These functions of rare earth can decrease the diffusion activation energy of the carbon atoms, and therefore has catalytic effect on permeation.展开更多
A novel process which can purify the organic solvents from their azeotropes with water is proposed. In this process,water can be drained off both from bottom and overhead of tower at the same time,and the organic solv...A novel process which can purify the organic solvents from their azeotropes with water is proposed. In this process,water can be drained off both from bottom and overhead of tower at the same time,and the organic solvent is concentrated in the tower and accumulated in the middle vessel at last. So the progress is time-shortened and energy-saving. The product purity is 99. 8% and the product yield is more than 99.5%. Simulation of liquid-liquid equilibrium (LLE) and the equipment operation data agree well with the experiment.展开更多
利用实验室盐浴热处理炉,对15 mm GCr15风冷盘条进行盐浴等温热处理模拟试验,分析等温盐浴温度对盘条组织和网状碳化物的影响。结果表明:盐浴温度在525℃及以下进行等温冷却,盘条组织中存在马氏体,球化退火后网状碳化物不大于2.0级,抗...利用实验室盐浴热处理炉,对15 mm GCr15风冷盘条进行盐浴等温热处理模拟试验,分析等温盐浴温度对盘条组织和网状碳化物的影响。结果表明:盐浴温度在525℃及以下进行等温冷却,盘条组织中存在马氏体,球化退火后网状碳化物不大于2.0级,抗拉强度1770~1920 MPa,断面收缩率1%~8%;盐浴温度在550℃以上进行等温冷却,盘条组织中无马氏体,且晶界渗碳体未成网状封闭,球化退火后网状碳化物不大于2.5级,抗拉强度1550~1710 MPa,断面收缩率25%~33%。盐浴等温冷却盘条的晶界渗碳体尺寸和网状碳化物级别均优于风冷盘条。展开更多
Vanadium pentoxide, borax, boron carbide and sodium fluoride were used to grow vanadium carbide coating on surface of Crl2 steel at 950℃ by TD process. The coating of vanadium carbide (VC) extended the serve-life p...Vanadium pentoxide, borax, boron carbide and sodium fluoride were used to grow vanadium carbide coating on surface of Crl2 steel at 950℃ by TD process. The coating of vanadium carbide (VC) extended the serve-life period of Crl2 steel as punching die. Kinetics of vanadium carbide coating growth was brought forward and verified by comparison of the mathematical model with the experimental results. The thickness of coating was illustrated by SEM. The chemical constituent of coating and remnants were tested by X-ray diffraction (XRD) and X-ray energy dispersive spectroscopy (EDS). To increase the thickness, rare earth silicon powder (FeSiRe23) was added to the borax salt bath. The analysis of XRD revealed that FeSiRe23 increased the depth of vanadium car-bide coating as reducing agent and catalysis.展开更多
文摘The use of "bath salts" or other new psychoactive substances,otherwise known as "legal highs",is increasing.Illicit drug use during pregnancy is not uncommon.Nevertheless,literature reporting bath salts and their effect on pregnancy is scant.Besides,there seems to be no literature about bath salts and conduct of general anesthesia.This case report describes a general anesthetic for the surgical delivery of an infant to a woman under the acute influence of bath salts and methamphetamines.
文摘Adding rare earth into permeating agent has an obvious catalytic effect on vanadizing on steel surface, and the vanadizing rate can increase about 30%~40%. The case depth ( x ) of the samples which have undergone different periods of vanadizing time at 950 ℃ was measured. These depth values ( x ) and its corresponded time ( t ) were substituded into the experimental formula, i.e., x n=Kt (ln x=(1/n) ln K+(1/n) ln t ), and were processed by mono linear regression. It is found that x and t have the relationship of x 2=Kt . Addition of rare earth can promote reaction of the permeating agent, and increase vanadium potential of the agent. Rare earth, as a strong reductant, makes the oxide on the steel surface reduced, and thus activates the steel surface. Permeating of rare earth into steel and the VC layer intensifies the crystal fault density, and, together with its excellent chemical activation, makes carbon atoms diffuse easily. These functions of rare earth can decrease the diffusion activation energy of the carbon atoms, and therefore has catalytic effect on permeation.
文摘A novel process which can purify the organic solvents from their azeotropes with water is proposed. In this process,water can be drained off both from bottom and overhead of tower at the same time,and the organic solvent is concentrated in the tower and accumulated in the middle vessel at last. So the progress is time-shortened and energy-saving. The product purity is 99. 8% and the product yield is more than 99.5%. Simulation of liquid-liquid equilibrium (LLE) and the equipment operation data agree well with the experiment.
文摘利用实验室盐浴热处理炉,对15 mm GCr15风冷盘条进行盐浴等温热处理模拟试验,分析等温盐浴温度对盘条组织和网状碳化物的影响。结果表明:盐浴温度在525℃及以下进行等温冷却,盘条组织中存在马氏体,球化退火后网状碳化物不大于2.0级,抗拉强度1770~1920 MPa,断面收缩率1%~8%;盐浴温度在550℃以上进行等温冷却,盘条组织中无马氏体,且晶界渗碳体未成网状封闭,球化退火后网状碳化物不大于2.5级,抗拉强度1550~1710 MPa,断面收缩率25%~33%。盐浴等温冷却盘条的晶界渗碳体尺寸和网状碳化物级别均优于风冷盘条。
基金Funded by the National Natural Science Foundation of China (No.50675165)the National Key Technology R&D Program (No.2006BAF02A29)
文摘Vanadium pentoxide, borax, boron carbide and sodium fluoride were used to grow vanadium carbide coating on surface of Crl2 steel at 950℃ by TD process. The coating of vanadium carbide (VC) extended the serve-life period of Crl2 steel as punching die. Kinetics of vanadium carbide coating growth was brought forward and verified by comparison of the mathematical model with the experimental results. The thickness of coating was illustrated by SEM. The chemical constituent of coating and remnants were tested by X-ray diffraction (XRD) and X-ray energy dispersive spectroscopy (EDS). To increase the thickness, rare earth silicon powder (FeSiRe23) was added to the borax salt bath. The analysis of XRD revealed that FeSiRe23 increased the depth of vanadium car-bide coating as reducing agent and catalysis.