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Crushing Mechanism of Spherical Tungsten Alloy Fragments Penetrate Thick Steel Plate Target
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作者 WAN Mingming BAI Rong +3 位作者 SHANG Zaifei WANG Yanli LIANG Jiayi LI Xue 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS CSCD 2023年第2期445-450,共6页
Against protection requirements for high-speed fragments on the ground weapons,we carried out the research work of crushing mechanism at different impact speeds ofφ8.7 mm spherical tungsten alloy,the penetration to 6... Against protection requirements for high-speed fragments on the ground weapons,we carried out the research work of crushing mechanism at different impact speeds ofφ8.7 mm spherical tungsten alloy,the penetration to 603 armor steel was completed by 20 mm ballistic gun,and the ANSYS/LS-DYNA software was used to complete the numerical calculation of the penetration.We find that there are different crushing mechanisms of spherical tungsten alloy with different speeds and low speed,the crushing mechanism of fragment is mainly controlled by overall plastic deformation,shearing stripping,and squeezing at a high pressure and a high speed.The crushing mechanism will have a spallation phenomenon in addition to the crushing mechanism under high pressure. 展开更多
关键词 spherical tungsten alloy experimental research numerical simulation crushing mechanism high pressure affected zone spallation zone
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Magnetic Properties of FeSiBC Amorphous Alloy Powder Cores Using Mechanical-crushed Powder 被引量:1
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作者 Chun-bo HUANG Tian-cheng LIU +3 位作者 Xiang-yue WANG Cao-wei LU De-ren LI Zhi-chao LU 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2014年第11期1055-1058,共4页
The FeSiBC amorphous powder cores were fabricated using powders of the FeSiBC amorphous ribbons which were mechanically crushed for a short time, and the relationship between magnetic properties and powder particle si... The FeSiBC amorphous powder cores were fabricated using powders of the FeSiBC amorphous ribbons which were mechanically crushed for a short time, and the relationship between magnetic properties and powder particle sizes was evaluated. The saturation magnetization Bs of the amorphous Fe82Si2B15C1 alloy was 1.62 T, which provided a superior dc-bias property for the powder cores. Meanwhile, a stable permeability up to high frequency range over 10 MHz and the low core loss of 400 kW/ma at f=50 kHz and Bm =0.1 T were obtained. These excellent high-frequency magnetic properties of the FeSiBC amorphous powder cores could be attributed to the effective electrical insulation between the FeSiBC amorphous powders made by mechanical crushing. 展开更多
关键词 amorphous powder core mechanical crushing dc-bias property high frequency property
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Interaction between Weibull parameters and mechanical strength reliability of industrial-scale water gas shift catalysts 被引量:2
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作者 Mozhgan Zakeri Abdolreza Samimi +1 位作者 Mahdi Shafiee Afarani Alireza Salehirad 《Particuology》 SCIE EI CAS CSCD 2017年第3期160-166,共7页
A fundamental step in the production of an industrial catalyst is its crushing strength assessment. Limited literature exists in which the strength reliability of supported catalysts is investigated from production to... A fundamental step in the production of an industrial catalyst is its crushing strength assessment. Limited literature exists in which the strength reliability of supported catalysts is investigated from production to their application in a reactor. In this work, cylindrical supports were prepared by pelletizing high poros- ity γ-alumina powder, and Cu-Znf/γ-Al2O3 catalysts were prepared by impregnation of the pelletized γ-alumina supports with an aqueous solution of copper and zinc nitrates. The support-forming variables, such as binder concentration, compaction pressure, calcination temperature, and drying procedure were investigated. The Weibull method was used to analyze the crushing strength data of the supports, and the fresh and used catalysts before and after the low-temperature water gas shift reaction. Support formation at a 50 wt% binder concentration, 1148 MPa compaction pressure, 500 ℃ calcination temperature, and rapid drying (100 ℃, 8 h) led to the maximum support mechanical reliability. The most reliable catalyst with respect to simultaneous appropriate catalytic performance and mechanical strength was prepared from a support with the lowest mean crushing strength (26.25 MPa). This work illustrates the impor- tance of the Weibull modulus as a useful mechanical reliability index in manufacturing a supported solid catalyst. 展开更多
关键词 Pelletizing crushing strength Weibull modulus Industrial catalyst Mechanical strength reliability
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Magnetic Properties of Nanocrystalline Powder Cores Fabricated by Mechanically Crushed Powders
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作者 Chun-bo HUANG Tian-cheng LIU +3 位作者 Xiang-yue WANG Cao-wei LU De-ren LI Zhi-chao LU 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2015年第1期67-71,共5页
Fe73. 5 Cu1 Nb3 Si15.5B7 nanocrystalline powder cores with different particle sizes ranging from 10 to 125 9m were fabricated by cold-pressing techniques. The cores exhibited increased core loss P cv and decreased ini... Fe73. 5 Cu1 Nb3 Si15.5B7 nanocrystalline powder cores with different particle sizes ranging from 10 to 125 9m were fabricated by cold-pressing techniques. The cores exhibited increased core loss P cv and decreased initial permea- bility μi with addition of fine powders below 50 μm in size, and the content should be less than 40 mass%. It was thought to be closely related to the high coercive force H c due to the stresses generated during the crushing process and high demagnetization fields of small powders. Furthermore, modifying the alloy compositions by adding defined amount of Ni could improve the soft magnetic properties, including superior characteristics of permeability under high direct current (DC) bias field and comparable low core loss at high frequency. 展开更多
关键词 nanocrystalline powder core mechanical crush particle size DC bias
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