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13

2022

-

09

Preparation of copper/graphite composite powders by magnetic suspension impact grinding

School of Materials Science and Engineering, Shandong University of Technology Analysis and Testing Center, Shandong University of Technology School of Chemistry and Chemical Engineering, Shandong University of Technology Abstract: Copper/graphite composite powders were prepared by a new magnetic suspension impact grinding method. The effects of grinding time and graphite addition on the particle size, graphite defects and other microstructures of the composite powders were studied. The bonding state of copper and graphite was discussed, and the efficiency of magnetic suspension impact grinding and high-energy ball milling was analyzed. The results show that when the milling time is 3 h, the particle size of composite powder with 10% graphite addition is smaller and the degree of homogeneity is higher; The copper particles in the composite powder are face centered cubic nano particles with micro strain, part of carbon atoms in graphite are dissolved in the lattice gap of copper, and the surface of the particles is wrapped by a very thin graphite layer; Compared with high-energy ball milling, magnetic suspension impact grinding has higher grinding efficiency.

Author:

School of Materials Science and Engineering, Shandong University of Technology Analysis and Testing Center, Shandong University of Technology School of Chemistry and Chemical Engineering, Shandong University of Technology
Abstract: Copper/graphite composite powders were prepared by a new magnetic suspension impact grinding method. The effects of grinding time and graphite addition on the particle size, graphite defects and other microstructures of the composite powders were studied. The bonding state of copper and graphite was discussed, and the efficiency of magnetic suspension impact grinding and high-energy ball milling was analyzed. The results show that when the milling time is 3 h, the particle size of composite powder with 10% graphite addition is smaller and the degree of homogeneity is higher; The copper particles in the composite powder are face centered cubic nano particles with micro strain, part of carbon atoms in graphite are dissolved in the lattice gap of copper, and the surface of the particles is wrapped by a very thin graphite layer; Compared with high-energy ball milling, magnetic suspension impact grinding has higher grinding efficiency.

Key words:

School,Materials,Science,Shandong

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Other information

Preparation of copper/graphite composite powders by magnetic suspension impact grinding

2021-09-15

School of Materials Science and Engineering, Shandong University of Technology Analysis and Testing Center, Shandong University of Technology School of Chemistry and Chemical Engineering, Shandong University of Technology Abstract: Copper/graphite composite powders were prepared by a new magnetic suspension impact grinding method. The effects of grinding time and graphite addition on the particle size, graphite defects and other microstructures of the composite powders were studied. The bonding state of copper and graphite was discussed, and the efficiency of magnetic suspension impact grinding and high-energy ball milling was analyzed. The results show that when the milling time is 3 h, the particle size of composite powder with 10% graphite addition is smaller and the degree of homogeneity is higher; The copper particles in the composite powder are face centered cubic nano particles with micro strain, part of carbon atoms in graphite are dissolved in the lattice gap of copper, and the surface of the particles is wrapped by a very thin graphite layer; Compared with high-energy ball milling, magnetic suspension impact grinding has higher grinding efficiency.

Effect of Graphene Size and Distribution on Crack Growth of Graphene/Aluminum Matrix Composites

2021-09-15

Jiangsu Provincial Key Laboratory of Advanced Food Manufacturing Equipment and Technology, Jiangnan University National Laboratory of Computational Fluid Dynamics, China Aerodynamic Research and Development Center Jiangsu Special Equipment Safety Supervision and Inspection Institute Abstract: Aluminum matrix composites are one of the most important materials in the mechanical industry and aerospace engineering due to their light weight and high strength. Graphene is an ideal reinforcement for metal matrix composites due to its excellent mechanical properties and high specific surface area. However, the mechanism of the effect of graphene on crack growth in aluminum matrix composites is still unclear, This restricts the design and application of graphene in aluminum matrix composites. In this paper, the molecular dynamics simulation method is used to study the effect of graphene size and distribution on crack growth in aluminum matrix composites. The research results show that when graphene size l ≤ 3.35 nm, the sub cracks generated in the tensile process promote the crack growth. It is worth noting that this promotion effect weakens as the distance between graphene and the crack increases. When the graphene size l>3.35 nm, graphene blocks the crack growth and the slip of subcrack dislocations. In addition, the distribution and angle of graphene can effectively change the crack growth path. The results of this study are helpful to understand the role of graphene in the failure of its aluminum matrix composites, It provides a reference for the design of high-performance graphene/aluminum matrix composites

Heilongjiang Provincial Department of Science and Technology urged and inspected the progress of the national science and technology support plan project "Development and typical application of high-purity graphite materials"

2021-09-15

In order to further promote the organization and implementation of the national science and technology support plan project "Development and Typical Application of High Purity Graphite Materials", understand the progress, achievements and problems of the project, and ensure the smooth implementation of the project, Guo Dachun, Deputy Director of Heilongjiang Provincial Department of Science and Technology, accompanied by relevant municipal leaders in charge, the person in charge of municipal science and technology bureaus, high-tech offices and other relevant comrades, The National Science and Technology Support Program "Development and Typical Application of High Purity Graphite Materials" was investigated on site, and the progress report of the project was heard. In Jixi City, Deputy Director General Guo Dachun, accompanied by Deputy Mayor Shao Guoqiang and other leaders of Jixi City, successively went to Hengshan District, Jidong County and Mashan District of Jixi City to inspect five enterprises participating in the project, including Aoyu Graphite Group Co., Ltd., Jixi Beiteri Graphite Industrial Park Co., Ltd., Jixi Fuxiang Graphite Co., Ltd., Jixi Puxiang New Materials Co., Ltd. and Jixi Puchen Graphite Co., Ltd, We also inspected other key graphite enterprises in Jixi City and listened to the reports of the responsible units and participating units of the second, third and fourth topics of the project. In Hegang City, Deputy Director General Guo Dachun, accompanied by Deputy Mayor Xu Ying of Hegang City and other leaders, successively went to Luobei County and Dongshan District of Jixi City to inspect four enterprises participating in the project, including Heilongjiang Baoquanling Agricultural Reclamation Yixiang Graphite Co., Ltd., Luobei Yunshan Graphite Mining Co., Ltd., Heilongjiang Xinshun Graphite Co., Ltd. and Heilongjiang Beidahuang Blackgold Graphite Co., Ltd, We listened to the progress reports of the project responsible units and participating units of the first project. Deputy Director Guo Dachun and his delegation coordinated and solved the problems of fund allocation and use, and poor coordination of some tasks during the project progress. Director Guo fully affirmed the progress of the project. He said that the project progress was much better and faster than expected, laying a good foundation for the successful completion of the task indicators of the project. He put forward five suggestions for the next step of work progress: first, further strengthen the talent training work, introduce and cultivate simultaneously, strengthen the training of innovative and entrepreneurial talents in the field of new graphite materials through multiple channels, and improve the talent to project Supporting capacity of enterprises and industries; Second, strengthen the construction of scientific and technological innovation platform. Encourage enterprises to build laboratories, engineering technology research centers and enterprise technology centers by themselves or jointly. At the same time, strengthen the construction of industrial environment and actively cultivate national high-tech industrialization bases; Third, strengthen strategic research, plan new projects, develop new products, and extend the industrial chain. According to the previous plan, strengthen strategic research, further plan new application fields and technical directions based on the project, and support the industrial chain with innovation chain. The fourth is to strengthen the cooperation between industry, university and research and plan new projects with new needs as the goal. During the organization and implementation of the project, new technology needs are constantly derived, industry university research cooperation is further strengthened, industrial technology needs are connected, new projects are planned, and sustainable development of industrial technology is promoted; Fifth, strengthen the association between departments and cities, focus on solving major problems in industrial development. Taking the project promotion as an opportunity, further strengthen the linkage between departments and cities, form a joint force, and jointly promote the provincial graphite new material industry to become bigger and stronger.

Development of Jixi Graphite Industry to Ensure Green Water and Green Mountains

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After the first heavy snow in winter, the Northern Kingdom is wrapped in snow. In the graphite mining mines in Mashan District, Jixi City, the abandoned mines in the past are being treated one by one and vegetation is being restored; The newly planted Pinus sylvestris var. mongolica and Hippophae rhamnoides in spring and autumn this year are green and full of life in the cotton like snow. In recent years, Jixi City has adhered to the principle of increasing investment in environmental protection and paying off historical debts.

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