教授
博士生导师
硕士生导师
主要任职:无
性别:男
出生日期:1961-09-15
毕业院校:山东大学(原山东工业大学)
学历:研究生(博士)毕业
学位:博士
在职信息:在职
所在单位:材料科学与工程学院
入职时间:1993-09-01
职务:教授
办公地点:山东大学 千佛山校区西配楼三层
访问量:
最后更新时间:..
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[1]
高通.
Dispersing nano–AlN particles cluster by designing Al–Si–AlN/Mg diffusion couples and the preparation of AlN/Mg–Al composite.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,
138347,
2019.
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[2]
高通.
Design of Al based composites reinforced with in–situ Al2O3, AlB2 and Al13Fe4 particles.
COMPOSITES COMMUNICATIONS,
101629,
2023.
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[3]
高通.
Design and fabrication of a (6.4γ–Al2O3 + 18Al13Fe4)/Al (wt.%) composite utilizing fine grain strengthening and dispersion strengthening at elevated temperatures.
215,
2022.
-
[4]
赵凯.
Interface precipitation and corrosion mechanisms in a model Al-Zn-Mg-Cu alloy strengthened by TiC particles.
CORROSION SCIENCE,
110533,
2022.
-
[5]
张冬青.
Microstructure evolution and enhanced mechanical properties in Al-Mn alloy reinforced by B-doped TiC particles.
Materials & Design,
2022.
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[6]
杨化冰.
A new insight into heterogeneous nucleation mechanism of Al by non-stoichiometric TiCx.
Acta Materialia,
117977,
2022.
-
[7]
李道秀.
An anti Si/Zr-poisoning strategy of Al grain refinement by the evolving effect of doped complex.
Acta Materialia,
2023.
-
[8]
谢可伟.
Improvement of high-temperature strength of 6061 Al matrix composite reinforced by dual-phased nano-AlN and submicron-Al2O3 particles.
transactions of nonferrous metals society of china,
2022.
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[9]
赵梓渊.
Enhancement of the strength-ductility synergy of Al-Si-Mg alloys via C-doped TiB2 particles.
Materials letters,
2022.
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[10]
阎汐睿.
Microstructure evolution, mechanical properties and strengthening mechanisms in the hot extruded Si3N4 particle reinforced Al–Cu–Mg composite.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,
143516,
2022.
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[11]
马霞.
Influence mechanisms of Cu or Fe on the microstructures and tensile properties at 350°C of network AlNp reinforced Al composites.
JOURNAL OF ALLOYS AND COMPOUNDS ,
740,
452-460,
2018.
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[12]
赵清汝.
The synergistic effect of Al-B-C master alloy to improve conductivity and strength of 1070 alloy.
JOURNAL OF ALLOYS AND COMPOUNDS ,
639,
478-482,
2015.
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[13]
崔晓丽.
Effects of grain refinement and boron treatment on electrical conductivity and mechanical properties of AA1070 aluminum.
Materials and design,
86,
397-403,
2015.
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[14]
赵永峰.
Identification of novel dual-scale Al3BC particles in Al based composites.
Materials and design,
93,
283-290,
2016.
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[15]
韩广.
Phase control and formation mechanism of Al-Mn(-Fe) intermetallic particles in Mg-Al-based alloys with FeCl3 addition or melt superheating.
Acta Materialia,
114,
54-66,
2016.
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[16]
Xu, Yijiang.
Growth kinetics of primary Si particles in hypereutectic Al-Si alloys under the influence of P inoculation: Experiments and modelling.
JOURNAL OF ALLOYS AND COMPOUNDS ,
854,
2021.
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[17]
高通.
Modification of primary and eutectic phases in Al-33.2Cu and Al-20Mg(2)Si alloys by nano-treating.
MATERIALS LETTERS Journal,
286,
2021.
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[18]
任蕾.
A novel core-shell TiCx particle by modifying TiCx with B element and the preparation of the (TiCx + AlN)/Al composite.
JOURNAL OF ALLOYS AND COMPOUNDS ,
894,
2022.
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[19]
秦敬玉.
Different evolution behaviors of NAl4 and PAl4 clusters in liquid Al-N and Al-P alloys.
计算材料科学,
196,
2021.
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[20]
孟凡超.
Influence of evolution of heat-resistant phases on elevated temperature strengthening mechanism and deformation behavior in Al-Si multicomponent alloys.
Current Applied Physics,
2022.
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