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个人简介

教育经历 2008.92013.6 山东大学材料加工博士 2004.92008.6 山东大学材料学学士 2001.92004.6 山东昌乐二学无 工作经历 2013.11至今 大连理工大学讲师

研究领域

主要从事载能束冶金及超纯净材料制备方面的研究工作,涉及的材料有镍基高温合金、太阳能级硅材料等。 具体研究方向如下: (1)光伏用太阳能级多晶硅的制备; (2)航空发动机用高温合金的制备;(3)高纯材料的载能束冶金技术

近期论文

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[1]Wu, Xiaowei.Surface damage and metal-catalyzed chemical etching investigation of multicrystalline silicon b...[J],太阳能,2022,207:609-617 [2]Qin, Shiqiang.SiC sedimentation and carbon migration in mc-Si by election beam melting with slow cooling patt...[J],MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING,2022,53:1-7 [3]李鹏廷.Preparation of silicon target material by adding Al-B master alloy in directional solidificatio...[A],17th IUMRS International Conference in Asia (IUMRS-ICA),2022,182(1) [4]Wang, Kai.Recycling of micron-sized Si powder waste from diamond wire cutting and its application in Li-i...[J],JOURNAL OF CLEANER PRODUCTION,2022,239 [5]李鹏廷.Recycling of silicon scraps by directional solidification coupled with alternating electromagne...[J],SOLAR ENERGY MATERIALS AND SOLAR CELLS,2022,211 [6]Qin, Shiqiang.Recycling of silicon scraps by SiC absorption with Al addition in multicrystalline silicon[J],MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING,2022,74:218-224 [7]姜大川.Recycling of silicon scraps from solar cell materials industry[A],The 3rd International Conference on Energy and Environment Research,2022 [8]Wang, Kai.Recycling Si waste cut from diamond wire into high performance porous Si@SiO2@C anodes for Li-ion...[J],JOURNAL OF HAZARDOUS MATERIALS,2022,407 [9]李鹏廷.Removal of Cu, Mn and Na in multicrystalline silicon by directional[J],真空,2022,115(5):108-112 [10]任世强.Removal of Cu, Mn and Na in multicrystalline silicon by directional solidification under low va...[J],真空,2022,115:108-112 [11]任世强.Removal of metal impurities by controlling columnar grain growth during directional solidificat...[J],APPLIED THERMAL ENGINEERING,2022,106:875-880 [12]Wang, Kai.Scalable 3D porous residual Al-doped Si/SiOx composites for high performance anodes: Coupling e...[J],ELECTROCHIMICA ACTA,2022,353 [13]石爽.Separation of boron from silicon by steam-added electron beam melting[J],SEPARATION AND PURIFICATION TECHNOLOGY,2022,215:242-248 [14]姜大川.Separation of SiC from Si by addition of Al with electromagnetic induction melting[J],JOURNAL OF ALLOYS AND COMPOUNDS,2022,835 [15]董伟.Metal micro-droplets deposition forming technology based on Pulsated Orifice Ejection Method[A],10th International Conference on Trends in Welding Research & 9th International Symposium of the Japan Welding Society,2022,1003-1006 [16]李鹏廷.Microstructure and resistivity of the silicon target material prepared by adding Al-B master al...[J],JOURNAL OF MATERIALS SCIENCE MATERIALS IN ELECTRONICS,2022,28(11):7922-7927 [17]Zhao, Longhai.Microsegregation behavior of Inconel 718 superalloy prepared by electron beam smelting layered ...[J],JOURNAL OF ALLOYS AND COMPOUNDS,2022,833 [18]庄辛鹏.Microsegregation of a new Ni-Co-based superalloy prepared through electron beam smelting and its ...[J],Journal of Materials Research and Technology,2022,9:5422-5430 [19]Zhuang, Xinpeng.Microsegregation of a new Ni-Co-based superalloy prepared through electron beam smelting and it...[J],Journal of Materials Research and Technology-JMR&T,2022,9(3):5422-5430 [20]李鹏廷.Microstructure and conversion efficiency of multicrystalline silicon ingot prepared by upgraded...[J],SOLAR ENERGY MATERIALS AND SOLAR CELLS,2022,186:50-56 [21]谭毅.Microstructure and deformation behavior of nickel based superalloy Inconel 740 prepared by elec...[J],MATERIALS CHARACTERIZATION,2022,114:267-276 [22]游小刚.Microstructure evolution of an Inconel 718 alloy prepared by electron beam smelting[J],MATERIALS CHARACTERIZATION,2022,173 [23]李鹏廷.Control the resistivity of silicon by adding co-doping of aluminum and boron in directional solid...[A],International Union of Materials Research Societies-The IUMRS Internatioanl Conference in Asia 2016,2022 [24]Wen, Shutao.Back diffusion of iron impurity during silicon purification by vacuum directional solidificatio...[J],真空,2022,119:270-275 [25]Qin, Shiqiang.Behavior of carbon in electron beam melted mc-silicon[J],真空,2022,121:207-211 [26]李鹏廷.Boron removal from silicon by slag refining using Na2O-SiO2in industrial applications[J],SEPARATION SCIENCE AND TECHNOLOGY,2022,1-6 [27]石爽.Kinetics of evaporation under vacuum in preparation of solar-grade silicon by electron beam mel...[J],MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING,2022,96:53-58 [28]李毅.The denitrification behavior during electron beam smelting of FGH4096 alloy[J],VACUUM,2022,189 [29]李鹏廷.The influence of macro crystal morphology on the removal rate of metal impurities in the silicon ...[A],第十届海峡两岸工程材料研讨会,2022 [30]游小刚.The evaporation behavior of alloy elements during electron beam smelting of Inconel 718 alloy[J],VACUUM,2022,169 [31]Wen, Shutao.Determination and controlling of crystal growth rate during silicon purification by directional...[J],真空,2022,125:75-80 [32]李鹏廷.Distribution of Phosphorus in n-Type Multicrystalline Silicon Produced by Directional Solidific...[J],IEEE Journal of Photovoltaics,2022,8(6):1486-1493 [33]李鹏廷.Distributions of substitutional and interstitial impurities in silicon ingot with different gra...[J],MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING,2022,67:1-7 [34]Sun, Jianming.Effect of Al3+ and Al2O3 co-modification on electrochemical characteristics of the 5-V cathode ...[J],IONICS,2022,26(8):3725-3736 [35]李鹏廷.Effect of alternating magnetic field on the removal of metal impurities in silicon ingot by dir...[J],JOURNAL OF CRYSTAL GROWTH,2022,437:14-19 [36]You, Q..Effects of electron beam smelting on removal of inclusions in nickel-based superalloys[A],13th International Conference on Electron Beam Technologies, EBT 2018,2022,1089(1) [37]谭毅.Effect of Solution Heat Treatment on the Microstructure and Hardness of theTi-48Al-2Cr-2Nb Alloy ...[J],JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE,2022 [38]李佳艳.Effect of the anisotropy of etching surface morphology on light-trapping and photovoltaic conve...[J],太阳能,2022,202:190-197 [39]Wang, Kai.Effects of Co-Doped B and Al on the Improvement of Electrical Properties of Ga and P Contaminat...[J],JOURNAL OF ELECTRONIC MATERIALS,2022,49(4):2429-2435 [40]李鹏廷.Effect of melt flow rate and S/L interface on the P horizontal distribution in silicon[J],VACUUM,2022,190 [41]崔弘扬.Effect of melt superheat treatment on solidification behavior and microstructure of new Ni-Co bas...[J],JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T,2022,15:4970-4980 [42]Wu, Xiaowei.Effect of Microstructures With Different Depth-to-Width Ratios on Surface Reflectance and Si So...[J],IEEE Journal of Photovoltaics,2022,10(5):1270-1276 [43]Zhuang, Xinpeng.Effect of Si on the Solidification Segregation Behavior of a New Ni-Co-Based Superalloy[J],ADVANCED ENGINEERING MATERIALS,2022 [44]游小刚.Effects of solution heat treatment on the microstructure and hardness of Inconel 740 superalloy...[J],JOURNAL OF ALLOYS AND COMPOUNDS,2022,638:239-248 [45]姜大川.Electromagnetic separation of silicon carbide inclusions with aluminum penetration in silicon b...[J],JOURNAL OF CLEANER PRODUCTION,2022,145:45-49 [46]石爽.Energy efficiency improvement in electron beam purification of silicon by using graphite lining[J],能源,2022,185:102-110 [47]姜大川.Formation mechanism of hollow silicon ingot induced by fountain effect[J],RENEWABLE ENERGY,2022,77:463-466 [48]Njuguna, Benson Kihono.Grain refinement of primary silicon in hypereutectic Al-Si alloys by different P-containing compo...[J],CHINA FOUNDRY,2022,18(1):37-44 [49]李鹏廷.Improving the purity of multicrystalline silicon by using directional solidification method[A],8th International Conference on Manufacturing Science and Technology, ICMST 2017,2022,911 MSF:51-55 [50]Zhao, Longhai.Homogenization behavior of IN 718 superalloy prepared by electron beam layered solidification tec...[J],JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T,2022,13:1567-1575 [51]Zhuang, Xinpeng.High temperature oxidation behavior and mechanism of a new Ni-Co-based superalloy[J],VACUUM,2022,189 [52]石爽.Kinetics of volatile impurity removal from silicon by electron beam melting for photovoltaic ap...[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2022,19(41):28424-28433 [53]游小刚.Intermediate temperature creep and deformation behavior of a nickel-based superalloy prepared b...[J],SCRIPTA MATERIALIA,2022,187:395-401 [54]王孟磊.温度梯度对多晶硅感应熔炼除杂效果的影响[J],太阳能学报,2022,40(3) [55]谭毅.多晶硅冶金制造技术进展及产业化实践[A],第十四届中国光伏大会暨2014中国国际光伏展览会,2022,185-185 [56]杨金祥.多晶硅定向凝固过程中温度对凝固速率的影响[J],材料导报,2022,33(z1):28-32 [57]谭毅.多晶硅铸锭中碳氮氧杂质特性的研究进展[J],材料导报A,2022,29:15-20 [58]谭毅.太阳能级硅中轻质元素(C,N,O)研究进展[J],材料工程,2022,2:112-118

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