The potassium-feldspar can be decomposed using the KOH as additive via hydrothermal synthesis methods, which can destroy the structure of the potassium-feldspar and turns its K+ into water soluble potash resources and...The potassium-feldspar can be decomposed using the KOH as additive via hydrothermal synthesis methods, which can destroy the structure of the potassium-feldspar and turns its K+ into water soluble potash resources and make its silica component utilized. The potassium-feldspar from Inner Mogolia was decomposed after iron removing and hydrothermal processes successively. The results showed(Table 1) that the iron could be removed up to 98.56% after the treatment of 90℃ for 2 hours with 5.8mol/L density of HCL solution. It is seen from the Table 1that the content of iron significantly decreased while the content of SiO2, Al2O3, K2O increase. The treated sample was used to be decomposed by hydrothermal method in KOH solution. The results showed that the dissolution rate of SiO2 could be up to 64.73% after the hydrothermal treatment of 260 ℃ for 2 hours with 1.2 mol/L density of KOH(Fig 1). The solid product is mailnly kalsilite phase.展开更多
Mica glass-ceramics were prepared by pressureless sintering with a phlogopite and various additives as raw materials. The effects of CaF2 content, Li2O content, ZrO2 content, and sintering temperature on the microstru...Mica glass-ceramics were prepared by pressureless sintering with a phlogopite and various additives as raw materials. The effects of CaF2 content, Li2O content, ZrO2 content, and sintering temperature on the microstructure and mechanical properties of the mica glass-ceramics were investigated by X-ray diffraction, scanning electron microscopy, and mechanical testing, respectively. The results show that the additive of ZrO2 has the best reinforcing effect on the flexural strength of the mica glass-ceramics. The smaller powder particles and the larger forming pressure result in the larger bulk density of the mica glass-ceramics samples. The main crystallite phases of samples with ZrO2 as additive were phlogopite and quartz with sintering temperature lower than 1120 ℃. The crystal phase of glass ceramics appeared fiberform and cross arranges with good lap. The highest value of flexural strength, 63.7 MPa, was shown on sample with 10wt% ZrO2 as additive and sintering temperature of 1120 ℃.展开更多
For the purpose of increasing the dispersion of anatase titanium dioxide(A-TiO2)in organic matrix, the surface organic modification of A-TiO2 with the modifier of sodium stearate and sodium oleate, respectively, was s...For the purpose of increasing the dispersion of anatase titanium dioxide(A-TiO2)in organic matrix, the surface organic modification of A-TiO2 with the modifier of sodium stearate and sodium oleate, respectively, was studied. The process condition of modification was optimized, the performance of modified A-TiO2 was characterized and the mechanism between modifier and A-TiO2 was analyzed. The main contents and results are as展开更多
Reactive Materials(RMs),a new material with structural and energy release characteristics under shockinduced chemical reactions,are promising in extensive applications in national defense and military fields.They can ...Reactive Materials(RMs),a new material with structural and energy release characteristics under shockinduced chemical reactions,are promising in extensive applications in national defense and military fields.They can increase the lethality of warheads due to their dual functionality.This paper focuses on the energy release characteristics of RM casings prepared by alloy melting and casting process under explosive loading.Explosion experiments of RM and conventional 2A12 aluminum alloy casings were conducted in free field to capture the explosive fireballs,temperature distribution,peak overpressure of the air shock wave and the fracture morphology of fragments of reactive material(RM)warhead casings by using high-speed camera,infrared thermal imager temperature and peak overpressure testing and scanning electron microscope.Results showed that an increase of both the fireball temperature and air shock wave were observed in all RM casings compared to conventional 2A12 aluminum ally casings.The RM casings can improve the peak overpressure of the air shock wave under explosion loading,though the results are different with different charge ratios.According to the energy release characteristics of the RM,increasing the thickness of RM casings will increase the peak overpressure of the near-field air shock wave,while reducing the thickness will increase the peak overpressure of the far-field air shock wave.展开更多
Hexagonal porous Nb2O5 was synthesized for the first time via a facile solid-state reaction.The structure and electrochemical properties have been optimized through tuning heating temperature.X-ray diffraction results...Hexagonal porous Nb2O5 was synthesized for the first time via a facile solid-state reaction.The structure and electrochemical properties have been optimized through tuning heating temperature.X-ray diffraction results indicate that pseudo hexagonal Nb2O5(TT-Nb2O5)and orthorhombic Nb2O5 have been synthesized at different temperatures.Hexagonal sheet and porous structure of Nb2O5 were characterized by scanning electron microscopy and N2-adsorption-desorption isotherms.The as-prepared TT-Nb2O5(heated at 600℃)shows the best performance with a remarkable charge capacity of 178 mA∙h/g at 0.2C,which is higher than that of T-Nb2O5.Even at 20℃,TT-Nb2O5 offers unprecedented rate capability up to 86 mA∙h/g.The high rate capacity is due to pseudocapacitive Li+intercalation mechanism of TT-Nb2O5.The reported results demonstrate that Nb2O5 with good crystal structure and high specific surface area is a powerful composite design for high-rate and safe anode materials.展开更多
The boron mud is solid waste from a borax factory in Liaoning province, China. The main chemical compositions of the boron mud powder are MgO 43.36%, SiO2 25.99%, Fe2O3 5.55% (shown in Table 1), and its mineral phases...The boron mud is solid waste from a borax factory in Liaoning province, China. The main chemical compositions of the boron mud powder are MgO 43.36%, SiO2 25.99%, Fe2O3 5.55% (shown in Table 1), and its mineral phases are mainly forsterite, magnesite and phlogopite.展开更多
The application of K-rich nephline syenite ores would produce some tailings, which will cause many disadvantages such as more land occupation. In this research, an process was obtained to extract rare earth from the K...The application of K-rich nephline syenite ores would produce some tailings, which will cause many disadvantages such as more land occupation. In this research, an process was obtained to extract rare earth from the K-rich nephline syenite tailings of Gejiu, Yunnan province, China. This tailings mainly composed of K-feldspar, biotite, magnetite, andradite, nepheline and 0.1% rare earth. The chemical compositions are shown in Table 1.展开更多
Agricultural potassium sulphate is one of the most important non-chloride potash, which is the main fertilizer of avoid chlorine crop. Soluble potassium resource is bare in China, while insoluble potassium resource wi...Agricultural potassium sulphate is one of the most important non-chloride potash, which is the main fertilizer of avoid chlorine crop. Soluble potassium resource is bare in China, while insoluble potassium resource with the main mineral of microcline is extremely abundant. The microcline powder used is collected from Mountain Changling, Luonan county of Shaanxi Province. The chemical analysis results showed that the main chemical components of the powder are SiO2, Al2O3 and K2O, the K2O content is up to 13.56% (shown in table 1).展开更多
Montmorillonites (MMT) was modified with nonionic surfactant Trion X-100 (OP-10) and anionic surfactants sodium stearate (SSTA) and sodium dodecyl benzene sulfonate (SDBS) respectively. In this study, the effects of a...Montmorillonites (MMT) was modified with nonionic surfactant Trion X-100 (OP-10) and anionic surfactants sodium stearate (SSTA) and sodium dodecyl benzene sulfonate (SDBS) respectively. In this study, the effects of anionic surfactant types and MMT types on modification montmorillonite were investigated. XRD analysis results showed that SSTA/OP-10/MMT and SDBS/OP-10/MMT were successfully obtained. The basal spacing of SSTA/OP-10/MMT reached 5.07nm and the SSTA intercalation reaction was relatively stable. Different types of MMT (Xinjiang natural sodium montmorillonite(MMT-1), Jianping sodium montmorillonite (MMT-2) and artificial sodium montmorillonite(MMT-3)) were modified with SSTA/OP-10. XRD test results showed that MMT-1, MMT-2 and MMT-3 can be modified by SSTA/OP-10. Anion-nonionic organic montmorillonite (SSTA/OP-10/MMT-1, SSTA/OP-10/MMT-2 and SSTA/OP-10/MMT-3 were successfully obtained respectively. The higher expansion capacity was found to be beneficial to organic modification.展开更多
Nepheline syenite is an important potassium-rich rock resource. Nepheline syenite powder was decomposed successfully by hydrothermal reaction using NaOH additive. Hydroxycancrinite (Na8(Al6Si6O24)(OH)2·2H2O ) sol...Nepheline syenite is an important potassium-rich rock resource. Nepheline syenite powder was decomposed successfully by hydrothermal reaction using NaOH additive. Hydroxycancrinite (Na8(Al6Si6O24)(OH)2·2H2O ) solid and (K,Na)2SiO3 solution was obtained as a result of the hydrothermal reaction.展开更多
The decomposition of K-Feldspar is significant to the development and utilization of K-feldspar as potassium resources. Potassium feldspar powder was decomposed successfully by hydrothermal method using CaO additive. ...The decomposition of K-Feldspar is significant to the development and utilization of K-feldspar as potassium resources. Potassium feldspar powder was decomposed successfully by hydrothermal method using CaO additive. Tobermorite solid and KOH solution were obtained as a result of the hydrothermal decomposition.展开更多
基金Project supported by National Key Technologies Research and Development Program for 11th Five-year Plan(No. 2006BAD10B04)China Geological Survey Project(No. 12120113087700)
文摘The potassium-feldspar can be decomposed using the KOH as additive via hydrothermal synthesis methods, which can destroy the structure of the potassium-feldspar and turns its K+ into water soluble potash resources and make its silica component utilized. The potassium-feldspar from Inner Mogolia was decomposed after iron removing and hydrothermal processes successively. The results showed(Table 1) that the iron could be removed up to 98.56% after the treatment of 90℃ for 2 hours with 5.8mol/L density of HCL solution. It is seen from the Table 1that the content of iron significantly decreased while the content of SiO2, Al2O3, K2O increase. The treated sample was used to be decomposed by hydrothermal method in KOH solution. The results showed that the dissolution rate of SiO2 could be up to 64.73% after the hydrothermal treatment of 260 ℃ for 2 hours with 1.2 mol/L density of KOH(Fig 1). The solid product is mailnly kalsilite phase.
文摘Mica glass-ceramics were prepared by pressureless sintering with a phlogopite and various additives as raw materials. The effects of CaF2 content, Li2O content, ZrO2 content, and sintering temperature on the microstructure and mechanical properties of the mica glass-ceramics were investigated by X-ray diffraction, scanning electron microscopy, and mechanical testing, respectively. The results show that the additive of ZrO2 has the best reinforcing effect on the flexural strength of the mica glass-ceramics. The smaller powder particles and the larger forming pressure result in the larger bulk density of the mica glass-ceramics samples. The main crystallite phases of samples with ZrO2 as additive were phlogopite and quartz with sintering temperature lower than 1120 ℃. The crystal phase of glass ceramics appeared fiberform and cross arranges with good lap. The highest value of flexural strength, 63.7 MPa, was shown on sample with 10wt% ZrO2 as additive and sintering temperature of 1120 ℃.
文摘For the purpose of increasing the dispersion of anatase titanium dioxide(A-TiO2)in organic matrix, the surface organic modification of A-TiO2 with the modifier of sodium stearate and sodium oleate, respectively, was studied. The process condition of modification was optimized, the performance of modified A-TiO2 was characterized and the mechanism between modifier and A-TiO2 was analyzed. The main contents and results are as
基金the Fundamental Research Funds for the Central Universities(No.30920021108)Open Foundation of Hypervelocity Impact Research Center of CARDC(20200106).
文摘Reactive Materials(RMs),a new material with structural and energy release characteristics under shockinduced chemical reactions,are promising in extensive applications in national defense and military fields.They can increase the lethality of warheads due to their dual functionality.This paper focuses on the energy release characteristics of RM casings prepared by alloy melting and casting process under explosive loading.Explosion experiments of RM and conventional 2A12 aluminum alloy casings were conducted in free field to capture the explosive fireballs,temperature distribution,peak overpressure of the air shock wave and the fracture morphology of fragments of reactive material(RM)warhead casings by using high-speed camera,infrared thermal imager temperature and peak overpressure testing and scanning electron microscope.Results showed that an increase of both the fireball temperature and air shock wave were observed in all RM casings compared to conventional 2A12 aluminum ally casings.The RM casings can improve the peak overpressure of the air shock wave under explosion loading,though the results are different with different charge ratios.According to the energy release characteristics of the RM,increasing the thickness of RM casings will increase the peak overpressure of the near-field air shock wave,while reducing the thickness will increase the peak overpressure of the far-field air shock wave.
基金Projects(51974137,51774150)supported by the National Natural Science Foundation of ChinaProject(2020M671361)supported by China Postdoctoral Science Foundation。
文摘Hexagonal porous Nb2O5 was synthesized for the first time via a facile solid-state reaction.The structure and electrochemical properties have been optimized through tuning heating temperature.X-ray diffraction results indicate that pseudo hexagonal Nb2O5(TT-Nb2O5)and orthorhombic Nb2O5 have been synthesized at different temperatures.Hexagonal sheet and porous structure of Nb2O5 were characterized by scanning electron microscopy and N2-adsorption-desorption isotherms.The as-prepared TT-Nb2O5(heated at 600℃)shows the best performance with a remarkable charge capacity of 178 mA∙h/g at 0.2C,which is higher than that of T-Nb2O5.Even at 20℃,TT-Nb2O5 offers unprecedented rate capability up to 86 mA∙h/g.The high rate capacity is due to pseudocapacitive Li+intercalation mechanism of TT-Nb2O5.The reported results demonstrate that Nb2O5 with good crystal structure and high specific surface area is a powerful composite design for high-rate and safe anode materials.
文摘The boron mud is solid waste from a borax factory in Liaoning province, China. The main chemical compositions of the boron mud powder are MgO 43.36%, SiO2 25.99%, Fe2O3 5.55% (shown in Table 1), and its mineral phases are mainly forsterite, magnesite and phlogopite.
文摘The application of K-rich nephline syenite ores would produce some tailings, which will cause many disadvantages such as more land occupation. In this research, an process was obtained to extract rare earth from the K-rich nephline syenite tailings of Gejiu, Yunnan province, China. This tailings mainly composed of K-feldspar, biotite, magnetite, andradite, nepheline and 0.1% rare earth. The chemical compositions are shown in Table 1.
基金Project supported by National Key Technologies Research and Development Program for 11th Five-year Plan (No. 2006 BAD10B04)China Geological Survey Project (No. 12120113087700)
文摘Agricultural potassium sulphate is one of the most important non-chloride potash, which is the main fertilizer of avoid chlorine crop. Soluble potassium resource is bare in China, while insoluble potassium resource with the main mineral of microcline is extremely abundant. The microcline powder used is collected from Mountain Changling, Luonan county of Shaanxi Province. The chemical analysis results showed that the main chemical components of the powder are SiO2, Al2O3 and K2O, the K2O content is up to 13.56% (shown in table 1).
文摘Montmorillonites (MMT) was modified with nonionic surfactant Trion X-100 (OP-10) and anionic surfactants sodium stearate (SSTA) and sodium dodecyl benzene sulfonate (SDBS) respectively. In this study, the effects of anionic surfactant types and MMT types on modification montmorillonite were investigated. XRD analysis results showed that SSTA/OP-10/MMT and SDBS/OP-10/MMT were successfully obtained. The basal spacing of SSTA/OP-10/MMT reached 5.07nm and the SSTA intercalation reaction was relatively stable. Different types of MMT (Xinjiang natural sodium montmorillonite(MMT-1), Jianping sodium montmorillonite (MMT-2) and artificial sodium montmorillonite(MMT-3)) were modified with SSTA/OP-10. XRD test results showed that MMT-1, MMT-2 and MMT-3 can be modified by SSTA/OP-10. Anion-nonionic organic montmorillonite (SSTA/OP-10/MMT-1, SSTA/OP-10/MMT-2 and SSTA/OP-10/MMT-3 were successfully obtained respectively. The higher expansion capacity was found to be beneficial to organic modification.
基金Project supported by National Key Technologies Research and Development Program for 11th Five-year Plan (No. 2006 BAD10B04)China Geological Survey Project (No. 12120113087700)
文摘Nepheline syenite is an important potassium-rich rock resource. Nepheline syenite powder was decomposed successfully by hydrothermal reaction using NaOH additive. Hydroxycancrinite (Na8(Al6Si6O24)(OH)2·2H2O ) solid and (K,Na)2SiO3 solution was obtained as a result of the hydrothermal reaction.
基金Project supported by National Key Technologies Research and Development Program for 11th Five-year Plan (No. 2006 BAD10B04)China Geological Survey Project (No. 12120113087700)
文摘The decomposition of K-Feldspar is significant to the development and utilization of K-feldspar as potassium resources. Potassium feldspar powder was decomposed successfully by hydrothermal method using CaO additive. Tobermorite solid and KOH solution were obtained as a result of the hydrothermal decomposition.
