25 April 2022, Volume 32 Issue 4

    

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Materials Science and Engineering
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  Effect of trace boron on grain refinement of commercially pure aluminum by Al-5Ti-1B

  FeiXIAO,Ming-xuWU,Yi-xiaoWANG,Wen-zheZHOU,Shu-binWANG,Dong-hongWANG,Guo-liangZHU,MichaelJIANG,DaSHU,Jia-weiMI,Bao-deSUN

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1061-1069. https://doi.org/10.1016/S1003-6326(22)65855-2

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  The effect of boron content on grain refinement of commercially pure aluminum by Al-5Ti-1B was quantitatively assessed. When the boron content is less than 0.03 wt.%, the refining performance of Al-5Ti-1B gradually is weakened as the boron content increases, which is attributed to the reaction of boron with the Al₃Ti interlayer on TiB₂ and the consumption of solute Ti. On the contrary, when the boron content exceeds 0.03 wt.%, the refining performance of Al-5Ti-1B gradually recovers with increasing boron content, which is related to the formation of primary AlB₂ particles that provide additional nucleant substrates.
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  Aging precipitation behavior and properties of Al-Zn-Mg-Cu-Zr-Er alloy at different quenching rates

  Yi-changWANG,Xiao-dongWU,LuYUE,Ming-xingGUO,Ling-feiCAO,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1070-1082. https://doi.org/10.1016/S1003-6326(22)65856-4

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  The effect of quenching rate on the aging precipitation behavior and properties of Al-Zn-Mg-Cu-Zr-Er alloy was investigated. The scanning electron microscopy, transmission electron microscopy, and atom probe tomography were used to study the characteristics of clusters and precipitates in the alloy. The quench-induced η phase and a large number of clusters are formed in the air-cooled alloy with the slowest cooling rate, which contributes to an increment of hardness by 24% (HV 26) compared with that of the water-quenched one. However, the aging hardening response speed and peak-aged hardness of the alloy increase with the increase of quenching rate. Meanwhile, the water-quenched alloy after peak aging also has the highest strength, elongation, and corrosion resistance, which is due to the high driving force and increased number density of aging precipitates, and the narrowed precipitate free zones.
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  Superplastic behavior of friction-stir welded Al-Mg-Sc-Zr alloy in ultrafine-grained condition

  I. VYSOTSKIY, K. KIM, S. MALOPHEYEV, S. MIRONOV, R. KAIBYSHEV

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1083-1095. https://doi.org/10.1016/S1003-6326(22)65857-6

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  The present work was undertaken to improve superplastic ductility of friction-stir welded joints of ultrafine-grained (UFG) Al-Mg-Sc-Zr alloy. In order to suppress the undesirable abnormal grain growth, which typically occurs in the heavily deformed base material, the UFG material was produced at elevated temperature. It was suggested that the new processing route could reduce dislocation density in the UFG structure and thus enhance its thermal stability. It was found, however, that the new approach resulted in a relatively high fraction of low-angle boundaries which, in turn, retarded grain-boundary sliding during subsequent superplastic tests. Therefore, despite the successful inhibition of the abnormal grain growth in the base-material zone, the superplastic deformation was still preferentially concentrated in the fully-recrystallized stir zone of the material. As a result, the maximal elongation-to-failure did not exceed 700%.
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  Effect of strain rate on microstructure and mechanical properties of spray-formed Al-Cu-Mg alloy

  TongSHEN,Cai-heFAN,Ze-yiHU,QinWU,Yu-mengNI,Yu-zhouCHEN

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1096-1104. https://doi.org/10.1016/S1003-6326(22)65879-5

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  Transmission electron microscopy (TEM), X-ray diffraction (XRD), electron backscattered diffraction (EBSD), and tensile tests were used to study the effects of strain rates (0.1, 1 and 9.1 s^-1) on the microstructure and mechanical properties of spray-formed Al-Cu-Mg alloys during large-strain rolling at 420 °C. Results show that during hot rolling, the proportion of high-angle grain boundaries (HAGBs) and the degree of dynamic recrystallization (DRX) initially increase and then decrease, whereas the average grain size and dislocation density show the opposite trend with the increase of the strain rate. In addition, the number of S′ phases in the matrix decreases, and the grain boundary precipitates (GBPs) become coarser and more discontinuous as the strain rate increases. When the strain rate increases from 0.1 to 9.1 s^-1, the tensile strength of the alloy decreases from 492.45 to 427.63 MPa, whereas the elongation initially increases from 12.1% to 21.8% and then decreases to 17.7%.
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  Developing nacre-inspired laminate-reticular 2024Al/B₄C composites with high damage resistance by adjusting compositional wettability

  Yang WANG, Qiang LIU, Biao ZHANG, Hao-qian ZHANG, Yi-cheng JIN, Zhao-xin ZHONG, Jian YE, Yu-han REN, Feng YE, Wen WANG

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1105-1118. https://doi.org/10.1016/S1003-6326(22)65859-X

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  To address the issue that B₄C ceramics are difficult to be wetted by aluminum metals in the composites, TiB₂ was introduced via an in-situ reaction between TiH₂ and B₄C to regulate their wettability and interfacial bonding. By pressure infiltration of the molten alloy into the freeze-cast porous ceramic skeleton, the 2024Al/B₄C-TiB₂ composites with a laminate-reticular hierarchical structure were produced. Compared with 2024Al/B₄C composite, adding initial TiH₂ improved the flexural strength and valid fracture toughness from (484±27) to (665±30) MPa and (19.3±1.5) to (32.7±1.8) MPa·m^1/2, respectively. This exceptional damage resistance ability was derived from multiple extrinsic toughening mechanisms including uncracked-ligament bridging, crack branching, crack propagation and crack blunting, and more importantly, the fracture model transition from single to multiple crack propagation. This strategy opens a pathway for improving the wettability and interfacial bonding of Al/B₄C composites, and thus produces nacre-inspired materials with optimized damage tolerance.
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  Enhanced mechanical properties and formability of hot-rolled Mg-Zn-Mn alloy by Ca and Sm alloying

  Wen-xueFAN,YuBAI,Guang-yangLI,Xing-yangCHANG,HaiHAO,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1119-1132. https://doi.org/10.1016/S1003-6326(22)65860-6

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  In order to broaden the application of wrought Mg alloy sheets in the automotive industry, the influence of Ca and Sm alloying on the texture evolution, mechanical properties, and formability of a hot-rolled Mg-2Zn-0.2Mn alloy was investigated by OM, XRD, SEM, EBSD, tensile tests, and Erichsen test. The results showed that the average grain size and basal texture intensity of Mg-2Zn-0.2Mn alloys were remarkably decreased after Ca and Sm additions. 0.64 wt.% Ca or 0.48 wt.% Sm addition significantly increased the tensile strength, ductility and formability. Moreover, the synergetic addition of Sm and Ca improved the ductility and formability of Mg-2Zn-0.2Mn alloy, which was due to the change of Ca distribution and further reduction of the size of Ca-containing particles by Sm addition. The results provided a possibility of replacing RE elements with Ca and Sm in Mg alloys which bring about outstanding mechanical properties and formability.
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  Influence of chloride ion concentration on initial corrosion of AZ63 magnesium alloy

  BranimirN.Grgur,BranimirZ.Jugovi？,MilicaM.Gvozdenovi？

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1133-1143. https://doi.org/10.1016/S1003-6326(22)65861-8

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  The initial corrosion behavior of AZ63 magnesium alloy was investigated in 1, 3, 5 and 7 wt.% NaCl solutions by means of corrosion potential, linear polarization, electrochemical impedance spectroscopy, and polarization measurements, during exposure in the corrosion media. Results show that the increase in chloride concentration provokes an increase in the corrosion rate. Based on the obtained kinetics parameters the mechanisms of anodic dissolution and hydrogen evolution reactions were discussed, and kinetic models were proposed. It is concluded that anodic dissolution proceeds under Temkin conditions and hydrogen evolution reaction depends on the surface coverage of Mg(OH)₂ species.
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  Microstructures and mechanical properties of TC4/AZ91D bimetal prepared by solid-liquid compound casting combined with Zn/Al composite interlayer

  Jian-huaZHAO,Jing-jingSHANGGUAN,ChengGU,Bing-yanJIN,YuSHI

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1144-1158. https://doi.org/10.1016/S1003-6326(22)65862-X

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  To achieve Ti/Mg bimetallic composite with high strength and metallurgical bonding interface, Al interlayer and Zn/Al composite interlayer were used to prepare TC4/AZ91D bimetal composite with metallurgical bonding interface by solid-liquid compound casting, respectively. Al interlayer was prepared on the surface of TC4 alloy by hot dipping, and Zn/Al composite interlayer was prepared by electroplating process. The results suggested that the phases across the interface were AlTi and α(Al) + Mg₂₁(Al,Zn)₁₇ when Zn/Al composite interlayer was used. When Al interlayer was used as interlayer, AlMgTi ternary structure and Al₁₂Mg₁₇ + δ-Mg eutectic structure were the main phases at the interface. The shear strength of TC4/AZ91D bimetal with Zn/Al composite interlayer was much higher than that with pure Al interlayer, and the value of the shear strength was increased from 48.5 to 67.4 MPa. Thermodynamic models based on different compositions of the interface were established to explain the microstructure evolution of the interfacial zone.
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  Effect of duplex aging on microstructure and mechanical properties of near-β titanium alloy processed by isothermal multidirectional forging

  Chang-jiangZHANG,XiJIANG,Zhi-danLü,HongFENG,Shu-zhiZHANG,YingXU,MuhammadDilawerHAYAT,PengCAO

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1159-1168. https://doi.org/10.1016/S1003-6326(22)65863-1

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  The effects of sub-transus (α+β) annealing treatment (ST), followed by single aging (SA) or duplex aging (DA) on the microstructural evolution and mechanical properties of near-β Ti-4Al-1Sn-2Zr-5Mo-8V-2.5Cr (mass fraction, %) alloy were investigated using optical microscopy, scanning electron microscopy, and transmission electron microscopy. The results show that the finer secondary α phase precipitates in the alloy after DA than SA (e.g., 149 nm for SA and 69 nm for DA, both after ST at 720 °C). The main reason is that the pre-aging step (300 °C) in the DA process leads to the formation of intermediate ω phase nanoparticles, which assist in the nucleation of the acicular secondary α phase precipitates. In addition, the strength of the alloy after DA is higher than that of SA at the specific ST temperature. A good combination is achieved in the alloy subjected to ST at 750 °C, followed by DA (UTS: 1450 MPa, EL: 3.87%), which is due to the precipitation of nanoscale secondary α phase by DA. In conclusion, DA is a feasible process for this new near-β titanium alloy.
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  High-strength Ti-BN composites with core-shell structured matrix and network-woven structured TiB nanowires

  Li-qingHUANG,QunHUANG

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1169-1177. https://doi.org/10.1016/S1003-6326(22)65864-3

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  A novel architectural Ti composite composed of network-woven structured TiB nanowires in a core-shell structured Ti matrix was fabricated to improve the strength of Ti matrix composites (TMCs), where the shell consists of rich N solute atoms while the core is deficient of N solute atoms through spark plasma sintering of powder mixtures of Ti powder and BN nano-powder. The phase composition, morphology, element distribution, and mechanical properties of prepared samples were analyzed by X-ray diffraction (XRD), scanning electron microscope (SEM), electron probe microanalyzer (EPMA), and electronic universal material testing machine. The results indicate that the TMCs with designed architectures have been successfully achieved, and the as-prepared Ti-2BN (wt.%) composite exhibits an ultimate compressive strength of ~1.8 GPa with a strain-to-fracture of ~9%, while the Ti-1BN (wt.%) attains an ultimate compressive strength of ~1.6 GPa and a strain-to-fracture of ~20%. Moreover, the roles of the hybrid reinforcement structures in strengthening the Ti composites were discussed.
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  Phase equilibria in Ni-Ti-Ta ternary system

  Cui-pingWANG,PengYANG,Yu-huiLIANG,Shui-yuanYANG,Jia-jiaHAN,YongLU,Xing-junLIU,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1178-1187. https://doi.org/10.1016/S1003-6326(22)65865-5

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  Phase diagrams of two isothermal sections of the Ni-Ti-Ta ternary system at 1000 and 1200 °C in a full composition range were determined by X-ray diffraction and electron probe microanalysis. The experimental results indicated a ternary compound τ phase with low solid solubility and composition ranges of (16.3-22.4) at.% Ta, (15.9-24.1) at.% Ti and (58.5-60.0) at.% Ni at 1000 °C. The two terminal solid solutions (bcc-(Ta) and β-Ti) formed a continuous solid solution at 1000 and 1200 °C. A certain amount of Ti can dissolve into Ni-Ta intermetallic compounds near the Ni-Ta side, with the highest value of 21.9 at.% observed in the Ni₂Ta compound at 1000 °C.
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  Grain size effect on cyclic deformation behavior and springback prediction of Ni-based superalloy foil

  Wei-lin HE, Bao MENG, Bing-yi SONG, Min WAN

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1188-1204. https://doi.org/10.1016/S1003-6326(22)65866-7

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  In order to clarify the influence of grain size on cyclic deformation response of superalloy sheets and springback behavior, cyclic loading-unloading and shearing tests were performed on the superalloy foils with 0.2 mm in thickness and diverse grain sizes. The results show that, the decline ratio of elastic modulus is weakened with increasing grain size, and the Bauschinger effect becomes evident with decreasing grain size. Meanwhile, U-bending test results determine that the springback is diminished with increasing grain size. The Chaboche, Anisotropic Nonlinear Kinematic (ANK) and Yoshida-Uemori (Y-U) models were utilized to fit the shear stress-strain curves of specimens. It is found that Y-U model is sufficient of predicting the springback. However, the prediction accuracy is degraded with increasing grain size.
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  Evolution of Goss texture in thin-walled copper tube at different heat treatment temperatures

  Song-weiWANG,Hong-wuSONG,YanCHEN,QiYU,Shi-hongZHANG

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1205-1216. https://doi.org/10.1016/S1003-6326(22)65867-9

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  The evolution of microstructure, textures, and mechanical properties of thin-walled copper tube during heat treatment was investigated using EBSD technique and tensile test. The results show that the initial deformation textures of pre-drawn thin-walled copper tube are mainly composed of Copper and Y components, while with the increase of temperatures, the textures are transformed into a strong Goss texture gradually. The high-resolution microstructural characterizations indicate that the new Goss recrystallized grains nucleate and grow up within the deformed Copper grains and Y grains in different mechanisms, respectively. The tensile strength of the thin-walled copper tube decreases gradually with the increase of the temperature, while the elongation increases first and then decreases sharply due to the action of grain sizes and texture components.
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  Effect of graphene on microstructure and properties of Gr/CuCr10 composites

  Jin-fengLENG,Qing-boZHOU,Zhan-zhiLI,Yun-fanDONG,Chang-pengXIA

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1217-1225. https://doi.org/10.1016/S1003-6326(22)65868-0

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  Gr/CuCr10 alloys with graphene contents of 0.1 wt.%, 0.3 wt.%, 0.5 wt.%, and 0.7 wt.% were prepared by a hot pressing sintering process. Compared with CuCr10 alloy, the relative density of CuCr10 composite with 0.3 wt.% addition of graphene remained constant, while the electrical conductivity increased from 62.2% (IACS) to 69.5% (IACS). The main reason for the increased electrical conductivity is that the addition of graphene leads to the size reduction of Cr phase and thus reduces the scattering of electrons. In addition, Brinell’s hardness of 0.3 wt.% Gr/CuCr10 composite increased from HB 91.8 to HB 99.6 compared with that of CuCr10 alloy. The graphene was mainly distributed at the interface of Cu and Cr. A nano-Cr₂₃C₆ phase, which has been observed through HRTEM, is the main reason for the wettability enhancement at the interface of Cu and Cr, thus improving the hardness of the material.
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  Influence of Cu content on microstructure, grain orientation and mechanical properties of Sn-xCu lead-free solders

  KannachaiKANLAYASIRI,NiwatMOOKAM

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1226-1241. https://doi.org/10.1016/S1003-6326(22)65869-2

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  The effect of Cu content on the microstructure, grain orientation and mechanical properties of Sn-xCu (x=0-4.0 wt.%) lead-free solder was studied. Results showed that added Cu induced the formation of intermetallic phases. Only the ηCu₆Sn₅ and ε-Cu₃Sn phases were present in the β-Sn matrix. For all contents, the strongly preferred orientation of the β-Sn phase was formed on the {001} plane. In Sn doped with 1.0 wt.% Cu, the η-Cu₆Sn₅ phase exhibited the preferred orientation of {0001} plane, whereas doping with 3.0 or 4.0 wt.% Cu transformed the preferred orientation to the {010} plane. In addition, only the {0001} and planes were present in the ε-Cu₃Sn phase. The high Cu contents contributed to an increased number of low-angle boundaries, high residual strain, tensile strength and microhardness.
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  Relaxor ferroelectric and dielectric properties of (1-x)Ba(Zr_0.1Ti_0.9)O₃-xBa(Mg_1/3Ta_2/3)O₃ ceramics

  JesseNiiOkaiAMU-DARKO,ChenZHANG,ShahidHUSSAIN,SamuelLeumasOTOO,MichaelFreduahAGYEMANG

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1242-1252. https://doi.org/10.1016/S1003-6326(22)65870-9

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  The environmentally-friendly (1-x)Ba(Zr_0.1Ti_0.9)O₃-xBa(Mg_1/3Ta_2/3)O₃ (x=0, 0.02, 0.04, 0.06, 0.08) relaxor ferroelectric ceramics were prepared by the conventional solid-state method and sintered in air at 1400 °C for 2 h. SEM and XRD analyses were utilized to study the surface morphologies and the crystalline structures, respectively. The effects of Ba(Mg_1/3Ta_2/3)O₃ on the phase transformation, dielectric and ferroelectric properties of Ba(Zr_0.1Ti_0.9)O₃ ceramics were also investigated. It is found that the average grain size of (1-x)Ba(Zr_0.1Ti_0.9)O₃-xBa(Mg_1/3Ta_2/3)O₃ (BZT-BMT) perovskite single-phase ceramics decreases as the content of Ba(Mg_1/3Ta_2/3)O₃ (BMT) increases. The relaxor ferroelectric behavior with diffuse phase transition and well-defined frequency dispersion of dielectric maximum temperature is found for the ceramic with increasing x values. 0.98BZT-0.02BMT ceramic shows very good dielectric properties with the relative permittivity and the dielectric loss, measured at 100 kHz as 6034 and 0.01399 respectively at room temperature. Both remnant polarization and coercive field decreased with increasing BMT content, indicating a transition from the ferroelectric phase to the paraelectric phase at room temperature.
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  Hierarchical porous Co₃O₄ spheres fabricated by modified solvothermal method as anode material in Li-ion batteries

  YanFENG,Cai-yuCAO,JingZENG,Ri-chuWANG,Chao-qunPENG,Xiao-fengWANG,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1253-1260. https://doi.org/10.1016/S1003-6326(22)65871-0

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  Hierarchical porous Co₃O₄ spheres were synthesized by a solvothermal method followed by high-temperature calcination. XRD, SEM, TEM and electrochemical tests were used to study the structure and performance of the hierarchical porous Co₃O₄ spheres. The results show that the Co₃O₄ synthesized at a calcination temperature of 700 °C (Co₃O₄-700) is micro-sized spheres (1-2 μm) consisting of plentiful nanoparticles (50-200 nm) and numerous pores (~100 nm). Due to its numerous porous morphology, the Co₃O₄-700 anode exhibits the highest cycling performance with excellent reversible discharge and charge specific capacities of 745 and 755 mA·h/g at the current density of 100 mA/g after 100 charge-discharge cycles, respectively.
Mining, Minerals Processing and Metallurgical Engineering
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  Microscale deformation behavior of sandstone mineral particles based on XCT scanning

  Ya-guangQIN,De-shengGU,Jian-huaHU,Dong-jieYANG,Shao-weiMA,XinBAI,Chun-diFENG

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1261-1276. https://doi.org/10.1016/S1003-6326(22)65872-2

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  This work aimed to quantify the physical and mechanical behavior of three-dimensional microstructures in rocks under uniaxial compression. A high-precision in situ XCT (X-ray transmission computed tomography) technology was applied to investigating the behavior of mineral grains in sandstone: the movement, the rotation deformation, and the principal strains between fault zone and non-fault zone. The results indicate that after unloading, the shear strain of mineral grains is periodic in the radial direction, the strain of mineral grains in the fracture zone is about 30 times of the macro strain of the specimen, which is about 5 times in the non-fracture zone, and the shear strain near the fault zone is larger than the compressive strain, and there is the shear stress concentration feature.
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  Effects of organic acids on heavy metal release or immobilization in contaminated soil

  Wen-binYAO,LeiHUANG,Zhi-huiYANG,Fei-pingZHAO,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1277-1289. https://doi.org/10.1016/S1003-6326(22)65873-4

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  In order to explicit the environmental activity of heavy metals affected by different organic acids in soil, a batch incubation experiment was explored to investigate the influence of high relative molecular mass organic acid (HMWOA) (humic acid and fulvic acid) and low relative molecular mass organic acid (LMWOA) (threonic acid and oxalic acid) on the release or immobilization of Pb, Cu and Cd in soils. Results showed that LMWOA, especially threonic acid, had a good performance in the release of Pb, Cu and Cd from soils, and decrease in the fractions of HOAc-extractable, reducible and oxidable Pb, Cu and Cd. Conversely, HMWOA, especially humic acid, decreased the release of Pb, Cu and Cd, while it increased the fractions of HOAc-extractable, reducible and oxidable Pb, Cu and Cd, indicating that HMWOA can immobilize heavy metals. The release of Pb, Cu and Cd caused by LMWOA was attributed to the dissociation of soil organic matter and amorphous iron oxides since the total organic carbon and the water-soluble iron increased. The immobilization of Pb, Cu and Cd by HMWOA was attributed to the adsorption onto HMWOA followed by amorphous iron since HMWOA resulted in a significant decrease of zeta potential and an increase of amorphous iron oxide. It can be concluded that LMWOA has a potential application in soil washing remediation, while HMWOA can be used in the immobilization remediation for heavy metals contaminated soils.
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  φ-pH diagrams and kinetics of V₂O₃ prepared by solution-phase hydrogen reduction

  Yi-boHU,Yi-minZHANG,Nan-nanXUE,Peng-chengHU,Liu-hongZHANG,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1290-1300. https://doi.org/10.1016/S1003-6326(22)65874-6

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  Solution-phase hydrogen reduction (SpHR) was introduced into V₂O₃ preparation to overcome disadvantages of traditional reduction roasting, which include a long process, high energy consumption, and generation of pollution. The research mainly focuses on φ-pH diagrams and kinetics of SpHR. Thermodynamic analysis of φ-pH diagrams for the V-H₂O system demonstrates that V₂O₃ preparation via SpHR requires a high temperature, a high vanadium concentration, and sufficient hydrogen in acidic solution. Kinetic analyses show that the activation energy of V₂O₃ preparation via SpHR is 38.0679 kJ/mol, indicating that the reduction is controlled by a combination of interfacial chemical reaction and internal diffusion. Effects of H₂ partial pressure (slope K=0.05246) on the reaction rate is not as significant as the vanadium concentration (K=1.58872). V₂O₃ crystals with a purity of 99.59% and a vanadium precipitation rate of 99.83% were obtained under the following conditions: pH=5-6, c(V₂O₅)=0.5 mol/L, p(H₂)=4 MPa, m(PdCl₂)=10 mg, T=250 °C, and t=2.5 h.
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  Optimization of process parameters and kinetic modelling for leaching of copper from oxidized copper ore in nitric acid solutions

  MehmetKayraTANAYDIN,ZümraBak？c？TANAYDIN,NizamettinDEMIRKIRAN

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1301-1313. https://doi.org/10.1016/S1003-6326(22)65875-8

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  The leaching behavior of Tunceli malachite mineral was investigated in nitric acid solutions by two steps to evaluate the effect of various experimental parameters. In the first step, the optimal conditions for the leaching process were determined, while in the second step, a kinetic evaluation for the process was performed. In the optimization experiments, the concentration of nitric acid, temperature, stirring speed, and solid-to-liquid ratio were selected as the independent variables, and the central composite design method (CCD) was applied to the experimental data. At the end of the experiments, the optimal values for the concentration of nitric acid, temperature, solid-to-liquid ratio and stirring speed were determined to be 0.5 mol/L, 50 °C, 0.004 g/mL and 500 r/min, respectively. Under the optimal conditions, the leaching rate was found to be 99% for 120 min of reaction time. In the kinetic evaluation tests, the effects of the concentration of nitric acid, temperature, stirring speed, solid-to-liquid ratio and particle size on the leaching rate of copper from malachite were investigated. In these tests, it was determined that the leaching rate increased with the increase in the temperature, acid concentration and stirring speed, and with the decrease in the particle size and solid-to-liquid ratio. In consequence of the kinetic analysis, it was observed that the leaching kinetics followed the mixed kinetic model, and a mathematical model for the leaching process was introduced. The activation energy for this process was calculated to be 36.23 kJ/mol.
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  Enhancement of CaMoO₄ calcine decomposition and recovery of calcium resource by HCl cycle leaching

  LiZENG,ManWANG,ChaoXIAO,Sheng-xiWU,Gui-qingZHANG,Wen-juanGUAN,Qing-gangLI,Zuo-yingCAO,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1314-1324. https://doi.org/10.1016/S1003-6326(22)65876-X

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  The thermodynamic equilibrium diagrams of CaMoO₄-CaSO₄-H₂SO₄-H₂O, CaMoO₄-HCl-H₂O and CaSO₄-CaCl₂-HCl-H₂O systems at 298 K were established. The calculation results demonstrated that HCl displays a much higher solubility of CaSO₄ than H₂SO₄. The leaching mechanism of Mo from CaMoO₄ calcine was systematically investigated from the perspective of the micro particle properties variation. HCl exhibits an excellent leaching performance for Mo from CaMoO₄ calcine due to the elimination of surface coating and the dissolution of a mass of Mo embedded in CaSO₄ matrix. Excellent Mo leaching efficiency of 99.7% was achieved under the optimal conditions of decomposing CaMoO₄ calcine by 2.4 mol/L HCl with a liquid/solid ratio of 10:1 at 50 °C for 60 min. Based on the experimental results, a highly efficient and green cycle leaching process of molybdenum from molybdenite was proposed, which eliminated surface coating and physical entraining, and converted most of the calcium from CaMoO₄ calcine into high purity gypsum by-product.
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  Enhancement of leaching of cobalt and lithium from spent lithium-ion batteries by mechanochemical process

  Li-liQU,Ya-qunHE,Yuan-pengFU,Wei-ningXIE,Cui-lingYE,Qi-changLU,Jin-longLI,Jia-haoLI,Zhi-boPANG

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1325-1335. https://doi.org/10.1016/S1003-6326(22)65877-1

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  A mechanochemical method with SiO₂ as the grinding aid was used to enhance the leaching efficiencies of Co and Li from spent lithium batteries (LIBs). Experiment results show that the optimal leaching efficiencies of 94.91% for Co and 97.22% for Li were obtained under the parameters of SiO₂/LiCoO₂ mass ratio of 1:1, grinding speed of 500 r/min and grinding time of 30 min in citric acid. Characterization results indicate that the surficial properties of LiCoO₂ were changed after mechanochemical grinding treatment due to the newly generated surfaces on LiCoO_2. Meanwhile, the incompletely coordinated atomic structure and defective lattice structure lead to the activation of LiCoO₂. The reduction effect of carbon black on Co³⁺ under the action of mechanical forces increases its leaching efficiencies in the citric acid solution. The proposed process was found efficiently to recover Co and Li from LiCoO₂.
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  Chromatographic separation and recovery of Zn(II) and Cu(II) from high-chlorine raffinate of germanium chlorination distillation

  Ye-hui-ziWU,Kang-genZHOU,WeiCHEN,Qing-yuanLEI,Er-junZHANG,Yu-yaoCHENG,YangJIANG,Chang-hongPENG,JunJIANG,Xue-kaiZHANG,

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1336-1350. https://doi.org/10.1016/S1003-6326(22)65878-3

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  An anion-exchange-based chromatographic separation approach was developed to selectively recover zinc and copper from the high-chlorine raffinate generated in the process of germanium chlorination distillation using 717 resins based on the coordination difference between Zn²⁺/Cu²⁺ and Cl^-. The theoretical calculation and spectroscopic analyses suggested that the coordination between Zn²⁺ and Cl^- is much stronger than that between Cu²⁺ and Cl^-, and the Cl^- concentration significantly affects Zn(II) and Cu(II) species. The factors involving Cl^- concentration, resin dosage, shaking speed, and temperature were investigated to determine the optimal condition, and the maximum separation factor of Zn/Cu reached as high as 479.2. The results of the adsorption isotherms, adsorption kinetics, SEM, FTIR, and XPS analyses indicated that the process followed the monolayer uniform chemisorption. Through the continuous adsorption experiments, Zn(II) and Cu(II) in the high-chlorine raffinate were separately recovered, allowing the reuse of residual waste acid and germanium.
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  Preparation of low-oxygen-containing Ti-48Al-2Cr-2Nb alloy powder by direct reduction of oxides

  Xue-yiGUO,Zhao-wangDONG,YangXIA,Pei-dongLIU,Han-ningLIU,Qing-huaTIAN

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1351-1361. https://doi.org/10.1016/S1003-6326(22)65858-8

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  A high-purity Ti-48Al-2Nb-2Cr alloy powder with an oxygen content as low as 0.0572 wt.% and a particle size of <150 μm was produced from a mixture of TiO₂, Al₂O₃, Nb₂O₅, and Cr₂O₃ powders through reduction with magnesium and deoxidation with calcium. The phase and composition of the products were analyzed. The final product mainly included γ-TiAl and minor α₂-Ti₃Al phases, and Ti, Al, Cr, and Nb were homogenously distributed in the powder with a mole ratio of 49.73:43.51:2.05:1.98. The reduction and deoxidation mechanisms were investigated by thermodynamic modeling using the HSC Chemistry software and Pandat software based on the Ti alloy database.
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  Spillovers among China’s precious and industrial metals markets: Evidence from higher moments and jumps

  CaiYANG,Xiao-jieLEI,Bai-shengSHI

  Transactions of Nonferrous Metals Society of China. 2022, 32(4): 1362-1384. https://doi.org/10.1016/S1003-6326(22)65880-1

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  This study reveals the time-varying spillover effects of higher moments (realized volatility, realized skewness and realized kurtosis) and jumps between China’s precious metals and industrial metals markets. Using 5-min high-frequency data from May 10, 2012 to October 21, 2021, the dynamic effects of spillovers are uncovered using the time-frequency domain spillover index framework. The results show that the system connectedness weakens as the moment order gets higher whereas the total jumps connectedness is the smallest, and the spillovers of all estimators are more evident in the short term. The overall information spillovers are time-varying and influenced by major market events. Specifically, for realized volatility, copper is the largest net transmitter and silver is always a net transmitter, while zinc is the largest net receiver. For realized skewness, copper is the largest net transmitter and silver is always a net transmitter, while lead is the largest net receiver. For realized kurtosis and jumps, copper is the largest net transmitter, while aluminum is the largest net receiver. Overall, copper and silver play dominant roles in China’s precious and industrial metals markets system.