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PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS WITH HIERARCHICAL STRUCTURE FOR NEW TECHNOLOGIES AND RELIABLE STRUCTURES 2019最新文献

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Effect of electron beam processing on structure of electroexplosion electroerosion-resistant ZnO-Ag coating 电子束处理对耐电爆电蚀ZnO-Ag镀层组织的影响
D. Romanov, S. V. Moskovskii, V. Gromov, Y. Ivanov, A. Semin
The structure, phase composition and properties of the composite electroexplosion coating of ZnO-Ag system subjected to the irradiation by the high intense electron beam have been studied for the first time. The combined processing including the electroexplosion spraying of the coating of ZnO-Ag system and its subsequent electron beam processing results in the formation of multilayer structure of the coating. By the methods of metallography, scanning and transmission electron microscopy, X-ray structural analysis the investigations into the phase and elemental composition, defect substructure of the coating and the transition layer between the coatings and copper electrical contact have been carried out. The electron beam melts and homogenizes the surface layer of the composite electroexplosion coating of ZnO-Ag system to the depth of 35–40 µm. The effect of the electron beam leads to the formation of the nanocrystalline phases of Ag, ZnO, Cu, CuZn, Ag5Zn8, Cu2O, Ag2O, Cu0.67Zn0.33, AgZn.The structure, phase composition and properties of the composite electroexplosion coating of ZnO-Ag system subjected to the irradiation by the high intense electron beam have been studied for the first time. The combined processing including the electroexplosion spraying of the coating of ZnO-Ag system and its subsequent electron beam processing results in the formation of multilayer structure of the coating. By the methods of metallography, scanning and transmission electron microscopy, X-ray structural analysis the investigations into the phase and elemental composition, defect substructure of the coating and the transition layer between the coatings and copper electrical contact have been carried out. The electron beam melts and homogenizes the surface layer of the composite electroexplosion coating of ZnO-Ag system to the depth of 35–40 µm. The effect of the electron beam leads to the formation of the nanocrystalline phases of Ag, ZnO, Cu, CuZn, Ag5Zn8, Cu2O, Ag2O, Cu0.67Zn0.33, AgZn.
本文首次研究了高强度电子束辐照下ZnO-Ag复合电爆炸涂层的结构、相组成和性能。通过对ZnO-Ag体系镀层进行电爆炸喷涂和随后的电子束处理,形成了镀层的多层结构。采用金相、扫描电镜、透射电镜、x射线结构分析等方法,对涂层的物相、元素组成、缺陷子结构以及涂层与铜电接点之间的过渡层进行了研究。电子束对ZnO-Ag复合电爆涂层的表层进行了35 ~ 40µm深度的熔化和均匀化。在电子束的作用下,形成了Ag、ZnO、Cu、CuZn、Ag5Zn8、Cu2O、Ag2O、Cu0.67Zn0.33、AgZn等纳米晶相。本文首次研究了高强度电子束辐照下ZnO-Ag复合电爆炸涂层的结构、相组成和性能。通过对ZnO-Ag体系镀层进行电爆炸喷涂和随后的电子束处理,形成了镀层的多层结构。采用金相、扫描电镜、透射电镜、x射线结构分析等方法,对涂层的物相、元素组成、缺陷子结构以及涂层与铜电接点之间的过渡层进行了研究。电子束对ZnO-Ag复合电爆涂层的表层进行了35 ~ 40µm深度的熔化和均匀化。在电子束的作用下,形成了Ag、ZnO、Cu、CuZn、Ag5Zn8、Cu2O、Ag2O、Cu0.67Zn0.33、AgZn等纳米晶相。
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引用次数: 0
Combined Rayleigh–Taylor–Kelvin–Helmholtz instability and its role in the formation of the surface relief of the coating/substrate 复合瑞利-泰勒-开尔文-亥姆霍兹不稳定性及其在涂层/基片表面起伏形成中的作用
V. Sarychev, S. Nevskii, A. Granovskii, S. Konovalov, V. Gromov
The paper reports on an undulating topography initiating on the interface “coating/substrate material” under heterogeneous plasma flows to be generated by an explosion of yttrium powder on the titanium base. We assumed that an undulating topography on the interface resulted from a combination of Rayleigh–Taylor and Kelvin–Helmholtz instabilities. A flow of an incompressible viscous two-dimensional fluid was considered in the field of bulk forces. The first layer made up of titanium or silumin is thought to be static, and the second one is accelerated perpendicular to the base material plane. A range of transversal velocities in the second layer was determined, varying 0 to 55 m/s for systems Ti-Y. Navier–Stocks equation and boundary conditions were stated for each layer. In a system Ti-Y Rayleigh–Taylor instability dominates at a transversal velocity of below 10 m/s, changing into Kelvin–Helmholtz instability at velocities above 10 m/s. The study highlights importance of the transversal velocity in yttrium layer for reasoning of undulating pattern formation on the interface “coating/base material” and distribution of yttrium particles in depth of the modified layer.The paper reports on an undulating topography initiating on the interface “coating/substrate material” under heterogeneous plasma flows to be generated by an explosion of yttrium powder on the titanium base. We assumed that an undulating topography on the interface resulted from a combination of Rayleigh–Taylor and Kelvin–Helmholtz instabilities. A flow of an incompressible viscous two-dimensional fluid was considered in the field of bulk forces. The first layer made up of titanium or silumin is thought to be static, and the second one is accelerated perpendicular to the base material plane. A range of transversal velocities in the second layer was determined, varying 0 to 55 m/s for systems Ti-Y. Navier–Stocks equation and boundary conditions were stated for each layer. In a system Ti-Y Rayleigh–Taylor instability dominates at a transversal velocity of below 10 m/s, changing into Kelvin–Helmholtz instability at velocities above 10 m/s. The study highlights importance of the transversal velocity in yttriu...
本文报道了在钛基上钇粉爆炸产生的非均匀等离子体流作用下,在“涂层/衬底材料”界面上产生的起伏形貌。我们假设界面上的起伏地形是由瑞利-泰勒不稳定性和开尔文-亥姆霍兹不稳定性共同作用的结果。在体力场中考虑不可压缩粘性二维流体的流动。第一层由钛或硅制成,被认为是静态的,第二层垂直于基材平面加速。确定了第二层的横向速度范围,系统Ti-Y的变化范围为0至55 m/s。给出了各层的Navier-Stocks方程和边界条件。在系统中,当横向速度低于10m /s时,Ti-Y瑞利-泰勒不稳定性占主导地位,当横向速度高于10m /s时,Ti-Y瑞利-泰勒不稳定性转变为开尔文-亥姆霍兹不稳定性。该研究强调了钇层中横向速度对“涂层/基材”界面上波动图案的形成和钇粒子在改性层深度分布的重要性。本文报道了在钛基上钇粉爆炸产生的非均匀等离子体流作用下,在“涂层/衬底材料”界面上产生的起伏形貌。我们假设界面上的起伏地形是由瑞利-泰勒不稳定性和开尔文-亥姆霍兹不稳定性共同作用的结果。在体力场中考虑不可压缩粘性二维流体的流动。第一层由钛或硅制成,被认为是静态的,第二层垂直于基材平面加速。确定了第二层的横向速度范围,系统Ti-Y的变化范围为0至55 m/s。给出了各层的Navier-Stocks方程和边界条件。在系统中,当横向速度低于10m /s时,Ti-Y瑞利-泰勒不稳定性占主导地位,当横向速度高于10m /s时,Ti-Y瑞利-泰勒不稳定性转变为开尔文-亥姆霍兹不稳定性。该研究强调了横向速度在流体力学中的重要性。
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引用次数: 3
Feedstock investigation based on SAE 316L steel bimodal powders and PLA/PMMA for injection molding: An experimental study 基于SAE 316L钢双峰粉末和PLA/PMMA注射成型的原料研究:实验研究
N. Toropkov, M. Lerner, E. Mironov
This work studies the new polymer feedstock for the metal injection molding (MIM) process. The proposed feedstock is based on the bimodal powders of steel grade SAE 316L, polymethyl methacrylate (PMMA) and polylactide (PLA). The impact of PMMA content on the molding characteristics, thermal debinding and sintering of samples obtained by pressure casting is thoroughly investigated. It is found that the sintering density of the molded samples increases with the raise of PMMA content. It is shown that implementing the bimodal powder based composites in MIM applications results in samples with sinter density as high as 98%.This work studies the new polymer feedstock for the metal injection molding (MIM) process. The proposed feedstock is based on the bimodal powders of steel grade SAE 316L, polymethyl methacrylate (PMMA) and polylactide (PLA). The impact of PMMA content on the molding characteristics, thermal debinding and sintering of samples obtained by pressure casting is thoroughly investigated. It is found that the sintering density of the molded samples increases with the raise of PMMA content. It is shown that implementing the bimodal powder based composites in MIM applications results in samples with sinter density as high as 98%.
本文研究了金属注射成型(MIM)工艺的新型聚合物原料。提出的原料是基于钢级SAE 316L、聚甲基丙烯酸甲酯(PMMA)和聚乳酸(PLA)的双峰粉末。研究了PMMA含量对压铸模件成型性能、热脱脂和烧结性能的影响。结果表明,随着PMMA含量的增加,成型样品的烧结密度增大。结果表明,在MIM应用中实现双峰粉末基复合材料可获得烧结密度高达98%的样品。本文研究了金属注射成型(MIM)工艺的新型聚合物原料。提出的原料是基于钢级SAE 316L、聚甲基丙烯酸甲酯(PMMA)和聚乳酸(PLA)的双峰粉末。研究了PMMA含量对压铸模件成型性能、热脱脂和烧结性能的影响。结果表明,随着PMMA含量的增加,成型样品的烧结密度增大。结果表明,在MIM应用中实现双峰粉末基复合材料可获得烧结密度高达98%的样品。
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引用次数: 2
Effect of sphericity on the evaluation of the stress-strain state in the earth’s crust 球度对地壳应力-应变状态评价的影响
Y. Stefanov, R. Bakeev, V. Suvorov, E. Melnik
The effect of sphericity on the stress-strain state of the Earth’s crust was evaluated by adapting a numerical algorithm for the solution of a 2D boundary value problem using a calculation scheme constructed for the Cartesian coordinate system. The considered problem describes the stress-strain state of a three-layer block model of the Earth’s crust and upper mantle along the Tarim–Altai profile with a length of 2500 km and a depth of 90 km. The solutions obtained with regard to sphericity and for a rectangular region were compared. The calculation results showed a very weak effect of sphericity on the resulting surface topography and intracrustal boundaries. However, there was a significant difference in the values of the stress-strain state parameters, which reached 10% or more in separate zones.The effect of sphericity on the stress-strain state of the Earth’s crust was evaluated by adapting a numerical algorithm for the solution of a 2D boundary value problem using a calculation scheme constructed for the Cartesian coordinate system. The considered problem describes the stress-strain state of a three-layer block model of the Earth’s crust and upper mantle along the Tarim–Altai profile with a length of 2500 km and a depth of 90 km. The solutions obtained with regard to sphericity and for a rectangular region were compared. The calculation results showed a very weak effect of sphericity on the resulting surface topography and intracrustal boundaries. However, there was a significant difference in the values of the stress-strain state parameters, which reached 10% or more in separate zones.
采用二维边值问题的数值解法,在直角坐标系下构造计算格式,研究了球度对地壳应力-应变状态的影响。所考虑的问题描述了沿塔里木-阿尔泰剖面长度为2500 km、深度为90 km的地壳和上地幔三层块体模型的应力-应变状态。对球度解和矩形区域解进行了比较。计算结果表明,球度对表面形貌和地壳内部边界的影响非常微弱。然而,应力-应变状态参数值存在显著差异,在个别区域达到10%以上。采用二维边值问题的数值解法,在直角坐标系下构造计算格式,研究了球度对地壳应力-应变状态的影响。所考虑的问题描述了沿塔里木-阿尔泰剖面长度为2500 km、深度为90 km的地壳和上地幔三层块体模型的应力-应变状态。对球度解和矩形区域解进行了比较。计算结果表明,球度对表面形貌和地壳内部边界的影响非常微弱。然而,应力-应变状态参数值存在显著差异,在个别区域达到10%以上。
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引用次数: 0
Numerical analysis of the grain morphology and texture in 316L steel produced by selective laser melting 选择性激光熔化316L钢晶粒形貌和织构的数值分析
O. Zinovieva, A. Zinoviev
For tailoring the mechanical properties of additively manufactured parts, we first need to understand and predict additively manufactured microstructures. The present paper aims at in-depth analysis of a three-dimensional (3D) grain structure and texture of 316L austenitic stainless steel produced by powder bed based additive manufacturing (AM). For this purpose, we adopt a 3D framework combining the finite difference (FD) thermal model and modified cellular automata (CA) approach for grain structure prediction. The 3D CAFD model is first validated against the experimental findings on 316L steel produced by selective laser melting. The specimen manufactured by applying a bi-directional scanning strategy is shown to exhibit a strong {110}〈001〉 Goss texture. Multiple re-melting of the bulk material with scanning backward and forward at least once is supposed to result in a tendency of large columnar grains to align with the build direction. The texture strength is shown to increase with the increasing build height, following the exponential trend, as well as the grain size in the transverse and scanning directions.For tailoring the mechanical properties of additively manufactured parts, we first need to understand and predict additively manufactured microstructures. The present paper aims at in-depth analysis of a three-dimensional (3D) grain structure and texture of 316L austenitic stainless steel produced by powder bed based additive manufacturing (AM). For this purpose, we adopt a 3D framework combining the finite difference (FD) thermal model and modified cellular automata (CA) approach for grain structure prediction. The 3D CAFD model is first validated against the experimental findings on 316L steel produced by selective laser melting. The specimen manufactured by applying a bi-directional scanning strategy is shown to exhibit a strong {110}〈001〉 Goss texture. Multiple re-melting of the bulk material with scanning backward and forward at least once is supposed to result in a tendency of large columnar grains to align with the build direction. The texture strength is shown to increase with the increasing build...
为了定制增材制造零件的力学性能,我们首先需要了解和预测增材制造的微观组织。本文旨在深入分析基于粉末床增材制造(AM)的316L奥氏体不锈钢的三维(3D)晶粒组织和织构。为此,我们采用了一种结合有限差分(FD)热模型和修正元胞自动机(CA)方法的三维框架来进行颗粒结构预测。首先对316L钢的选择性激光熔化实验结果进行了三维CAFD模型的验证。采用双向扫描策略制备的试样显示出强烈的{110}< 001 >高斯织构。通过至少一次前后扫描对块状材料进行多次重熔,应该会导致大柱状颗粒倾向于与构建方向对齐。织构强度随织构高度的增加呈指数增长趋势,横向和扫描方向的晶粒尺寸也呈指数增长趋势。为了定制增材制造零件的力学性能,我们首先需要了解和预测增材制造的微观组织。本文旨在深入分析基于粉末床增材制造(AM)的316L奥氏体不锈钢的三维(3D)晶粒组织和织构。为此,我们采用了一种结合有限差分(FD)热模型和修正元胞自动机(CA)方法的三维框架来进行颗粒结构预测。首先对316L钢的选择性激光熔化实验结果进行了三维CAFD模型的验证。采用双向扫描策略制备的试样显示出强烈的{110}< 001 >高斯织构。通过至少一次前后扫描对块状材料进行多次重熔,应该会导致大柱状颗粒倾向于与构建方向对齐。织构强度随着织构的增加而增加。
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引用次数: 3
Interrelation between the grain boundary energy and the packing density in α-Fe α-Fe中晶界能与堆积密度的关系
A. Bakulin, S. Kulkova
Using ab initio approach interrelations between the grain boundary energy, the atomic packing density in the interface plane and the magnetic states of atoms was studied for and symmetrical tilt grain boundaries in α- Fe. In the latter case three variants of Σ5(210) GB was studied. It is shown that a decrease of the grain boundary energy is correlated with an increase of the packing density and a decrease of deviation of the magnetic moment of Fe atoms from bulk value. Additionally, the peculiarities of the interatomic interaction near GB plane are discussed.Using ab initio approach interrelations between the grain boundary energy, the atomic packing density in the interface plane and the magnetic states of atoms was studied for and symmetrical tilt grain boundaries in α- Fe. In the latter case three variants of Σ5(210) GB was studied. It is shown that a decrease of the grain boundary energy is correlated with an increase of the packing density and a decrease of deviation of the magnetic moment of Fe atoms from bulk value. Additionally, the peculiarities of the interatomic interaction near GB plane are discussed.
用从头算方法研究了α- Fe中对称倾斜晶界的晶界能、界面面原子堆积密度与原子磁态之间的相互关系。在后一种情况下,研究了Σ5(210) GB的三种变体。结果表明,晶界能的降低与堆积密度的增加和铁原子磁矩与体值偏差的减小有关。此外,讨论了GB平面附近原子间相互作用的特性。用从头算方法研究了α- Fe中对称倾斜晶界的晶界能、界面面原子堆积密度与原子磁态之间的相互关系。在后一种情况下,研究了Σ5(210) GB的三种变体。结果表明,晶界能的降低与堆积密度的增加和铁原子磁矩与体值偏差的减小有关。此外,讨论了GB平面附近原子间相互作用的特性。
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引用次数: 2
Formation of surface layers from highly entropic materials with shape memory effect 具有形状记忆效应的高熵材料形成表面层
Z. Blednova, P. Rusinov
To expand the practical use of high-entropy and material with shape memory effect (SME), we have developed a technology to form functionally oriented surface layers with five and six-component powder compositions CoCuTiZrHf, NiCoTiZrHf, NiCuTiZrHf, ZrCuNiCoTi, TiNiZrHfCoCu. The coatings were deposited under conditions of high-energy effects, including mechanical activation of the applied material, high-velocity oxygen-fuel spraying in a chamber with argon, followed by thermomechanical treatment in a single technological cycle on the patented equipment. Electron-microscopic and X-ray diffraction studies have shown that the obtained coatings correspond to SME materials with a grain size of 80–400 nm. In accordance with energy criterion, we have predicted the cyclic durability of steel samples with a surface layer made of multicomponent SME materials. We took into account the energy intensity of the coating material and the structural factor. The energy intensity of the alloy is determined by the thermodynamic characteristics and the state diagram of the systems. The structural factor is based on the analysis of the structural-phase state by the method of multifractal parametrization taking into account homogeneity, fractal dimensionality, adaptability.To expand the practical use of high-entropy and material with shape memory effect (SME), we have developed a technology to form functionally oriented surface layers with five and six-component powder compositions CoCuTiZrHf, NiCoTiZrHf, NiCuTiZrHf, ZrCuNiCoTi, TiNiZrHfCoCu. The coatings were deposited under conditions of high-energy effects, including mechanical activation of the applied material, high-velocity oxygen-fuel spraying in a chamber with argon, followed by thermomechanical treatment in a single technological cycle on the patented equipment. Electron-microscopic and X-ray diffraction studies have shown that the obtained coatings correspond to SME materials with a grain size of 80–400 nm. In accordance with energy criterion, we have predicted the cyclic durability of steel samples with a surface layer made of multicomponent SME materials. We took into account the energy intensity of the coating material and the structural factor. The energy intensity of the alloy is determined by the thermodynam...
为了扩大具有形状记忆效应(SME)的高熵材料的实际应用,我们开发了一种用五组分和六组分粉末成分CoCuTiZrHf, NiCoTiZrHf, NiCuTiZrHf, ZrCuNiCoTi, TiNiZrHfCoCu形成功能取向表面层的技术。涂层是在高能条件下沉积的,包括应用材料的机械活化,在氩气室中高速氧燃料喷涂,然后在专利设备上进行单一工艺循环的热处理。电子显微镜和x射线衍射研究表明,所获得的涂层符合晶粒尺寸为80-400 nm的SME材料。根据能量准则,对表层由多组分SME材料构成的钢试件进行了循环耐久性预测。我们考虑了涂层材料的能量强度和结构因素。合金的能量强度由系统的热力学特性和状态图决定。结构因子是在考虑均匀性、分形维数、适应性等因素的基础上,采用多重分形参数化方法对结构相状态进行分析。为了扩大具有形状记忆效应(SME)的高熵材料的实际应用,我们开发了一种用五组分和六组分粉末成分CoCuTiZrHf, NiCoTiZrHf, NiCuTiZrHf, ZrCuNiCoTi, TiNiZrHfCoCu形成功能取向表面层的技术。涂层是在高能条件下沉积的,包括应用材料的机械活化,在氩气室中高速氧燃料喷涂,然后在专利设备上进行单一工艺循环的热处理。电子显微镜和x射线衍射研究表明,所获得的涂层符合晶粒尺寸为80-400 nm的SME材料。根据能量准则,对表层由多组分SME材料构成的钢试件进行了循环耐久性预测。我们考虑了涂层材料的能量强度和结构因素。合金的能量强度由热力学决定。
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引用次数: 6
Propagation of longitudinal and rod waves in cylinders from polycrystalline and single-crystal materials under dynamic loading 动态载荷作用下多晶和单晶材料柱体中纵波和棒波的传播
M. Krivosheina, E. Tuch
The paper presents the results of numerical calculations of dynamic loading of thin cylindrical targets with a ratio of cylinder heights to its diameter 1 : 1 and 5 : 1. The propagation of elastic waves in cylinders with different ratios of heights to the radius of the VZhM8 single-crystal nickel alloy with cubic symmetry of properties in order to determine the propagation velocities of rod waves in the [001], [011] and [111] directions was simulated in this paper. The problem of loading of a target from VZhM8 by a steel projectile with a starting velocity was carried out by the finite element method in a three-dimensional formulation.
本文给出了圆柱高径比为1:1和5:1的薄圆柱靶动载荷的数值计算结果。为了确定棒状波在[001]、[011]和[111]方向上的传播速度,本文模拟了具有立方对称性质的VZhM8单晶镍合金的弹性波在不同高度与半径之比的圆柱体中的传播。采用三维有限元方法,对具有起始速度的钢弹对VZhM8靶体的装填问题进行了分析。
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引用次数: 0
Obtaining of heteromodulus ZrC-based composite materials, their structure and properties 异模zrc基复合材料的制备及其结构和性能
Y. Mirovoy, A. Burlachenko, S. Buyakova
The article is devoted to the impact of carbon additives on densification and mechanical properties of ZrC/C hetero-modulus composites. In case of addition of small amount of carbon to ZrC residual porosity decreases, whereas higher carbon content leads to more than 3vol.% increase in residual porosity. Moreover, increase in carbon content in ZrC/C composites enhance oughness of sintered materials. For example, КIC = 4.3 MPa×m1/2 for ZrC and КIC = 7 MPa×m1/2. for 3 vol.% C. For 15 vol.% of C, toughness is the lowest and equals 5.3 MPa×m1/2. The extrapolation of the dependence of toughness on the non-porous state of materials is КIC0 = 13.2 MPa×m1/2.The article is devoted to the impact of carbon additives on densification and mechanical properties of ZrC/C hetero-modulus composites. In case of addition of small amount of carbon to ZrC residual porosity decreases, whereas higher carbon content leads to more than 3vol.% increase in residual porosity. Moreover, increase in carbon content in ZrC/C composites enhance oughness of sintered materials. For example, КIC = 4.3 MPa×m1/2 for ZrC and КIC = 7 MPa×m1/2. for 3 vol.% C. For 15 vol.% of C, toughness is the lowest and equals 5.3 MPa×m1/2. The extrapolation of the dependence of toughness on the non-porous state of materials is КIC0 = 13.2 MPa×m1/2.
研究了碳添加剂对ZrC/C异模复合材料致密化和力学性能的影响。添加少量碳的ZrC残余孔隙率减小,添加高碳的ZrC残余孔隙率大于3vol。残余孔隙度增加%。此外,增加ZrC/C复合材料中碳的含量可以提高烧结材料的粗糙度。例如:ZrC为КIC = 4.3 MPa×m1/2, КIC = 7 MPa×m1/2。当C含量为3%时,韧性最低,为5.3 MPa×m1/2。外推韧性与材料无孔状态的依赖关系为КIC0 = 13.2 MPa×m1/2。研究了碳添加剂对ZrC/C异模复合材料致密化和力学性能的影响。添加少量碳的ZrC残余孔隙率减小,添加高碳的ZrC残余孔隙率大于3vol。残余孔隙度增加%。此外,增加ZrC/C复合材料中碳的含量可以提高烧结材料的粗糙度。例如:ZrC为КIC = 4.3 MPa×m1/2, КIC = 7 MPa×m1/2。当C含量为3%时,韧性最低,为5.3 MPa×m1/2。外推韧性与材料无孔状态的依赖关系为КIC0 = 13.2 MPa×m1/2。
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引用次数: 1
Microstructure and mechanical properties of the aluminum-zirconium tungstate composite 钨酸铝锆复合材料的显微组织和力学性能
A. Kulkov, R. Balokhonov, V. Romanova, V. Shadrin, S. O. Kasparyan
Deformation and fracture of particle-reinforced aluminum-zirconium tungstate metal-matrix composite are experimentally and numerically investigated. The composite material was fabricated using pure aluminum ACD-6 and ZrW2O8 powders mixed in proportions 90% and 10%, respectively. Mechanical tests on compression of the composite specimens were carried out, and the microstructure was investigated before and after the tests. Numerical simulation of the composite deformation was performed in two dimensional formulation of the dynamic boundary-value problem. Experimentally observed microstructure is included in calculations in an explicit form. Plastic strain localization and fracture in the matrix and particles were studied.Deformation and fracture of particle-reinforced aluminum-zirconium tungstate metal-matrix composite are experimentally and numerically investigated. The composite material was fabricated using pure aluminum ACD-6 and ZrW2O8 powders mixed in proportions 90% and 10%, respectively. Mechanical tests on compression of the composite specimens were carried out, and the microstructure was investigated before and after the tests. Numerical simulation of the composite deformation was performed in two dimensional formulation of the dynamic boundary-value problem. Experimentally observed microstructure is included in calculations in an explicit form. Plastic strain localization and fracture in the matrix and particles were studied.
对颗粒增强钨酸铝锆金属基复合材料的变形和断裂进行了实验和数值研究。采用纯铝ACD-6和ZrW2O8粉末分别以90%和10%的比例混合制备复合材料。对复合材料试样进行了压缩力学试验,并对试验前后的微观结构进行了研究。采用动态边值问题的二维形式对复合变形进行了数值模拟。实验观察到的微观结构以显式形式包含在计算中。研究了基体和颗粒中的塑性应变局部化和断裂。对颗粒增强钨酸铝锆金属基复合材料的变形和断裂进行了实验和数值研究。采用纯铝ACD-6和ZrW2O8粉末分别以90%和10%的比例混合制备复合材料。对复合材料试样进行了压缩力学试验,并对试验前后的微观结构进行了研究。采用动态边值问题的二维形式对复合变形进行了数值模拟。实验观察到的微观结构以显式形式包含在计算中。研究了基体和颗粒中的塑性应变局部化和断裂。
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PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED MATERIALS WITH HIERARCHICAL STRUCTURE FOR NEW TECHNOLOGIES AND RELIABLE STRUCTURES 2019
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