基本信息
姓名:卢帅丹
职称:副教授 硕士生导师
学位:工学博士
专业:金属材料工程
邮箱:lushuaidan@xatu.edu.cn
学习经历
2013年9月至2019年7月 东北大学 博士
2010年9月至2012年12月 昆明理工大学 硕士
2003年9月至2007年7月 昆明理工大学 学士
工作经历
2023年12月至今,bat365官网登录入口,副教授
2019年9月至2023年12月,bat365官网登录入口,讲师
招生信息
每年招收硕士研究生2名
教育教学
主讲课程:《特种表面制备方法》
研究方向
[1] 火炮身管延寿内涂层技术
[2] 高超声速飞行器热防护
学术兼职
《Corrosion Science》、《Journal of alloys and compounds》等期刊审稿人
科研项目
[1] 中央军委装备发展部-国防科技重点实验室基金,C/C复合材料***高熵合金涂层构建及其烧蚀机理研究,50万,主持
[2] 陕西省科技计划项目,稀土活性元素效应对难熔高熵合金高温氧化行为的影响,3万,主持
[3] 陕西省教育厅科研计划项目,Al含量对含硼难熔高熵合金组织和性能的调控研究,2万,主持
[4] 西安市未央区科技计划项目,C/C复合材料抗烧蚀高熵合金涂层,3万,主持
[5] 企业委托项目,高熵合金在飞行器高温燃气阀阀芯的应用,10万,主持
[6] 科技部国家重点研发计划项目,离子轰击条件下反应磁控沉积高熵合金氮化物薄膜技术研究与开发,100万元,参与(4/15)
[7] 陕西省军民融合发展项目,高超音速***涂层的关键技术研究,2023-01至2024-12,200万元,参与(2/12)
[8] 陕西省军民融合发展项目,高性能***涂层的关键技术研究,2022-01至2023-12,200万元,参与(6/12)
[9] 企业委托项目,高熵合金材料及涂层技术,200万,参与(5/6)
[10] 国家自然科学基金项目,微波低温造孔活化粒状赤泥制备新型多孔吸附材料的应用基础研究,53万,参与(3/5)
[11] 工信部科技成果转化项目,微波冶金反应器及其应用的关键技术,参与
荣誉奖励
[1] bat365官网登录入口优秀共产党员(2022年)
[2] bat365官网登录入口毕业设计(论文)优秀指导教师(2022年)
[3] 辽宁省2016届普通高等学校优秀毕业生
[4] 博士研究生国家奖学金(2014年度、2015年度)
发表论文
[1] Xueyang Zhou, Jian Chen, Rengen Ding, Haoyue Wu, Shuaidan Lu et al. Effect of Mn on microstructure and tensile properties of as-cast Al0.5CoFeNiC0.1 high-entropy alloy, Materials Science & Engineering, A, 2023, 873:144951.
[2] Xueyang Zhou, Jian Chen, Rengen Ding, Haoyue Wu, Shuaidan Lu et al. A novel coherent particles-reinforced FCC-based high-entropy superalloy with superior high-temperature compressive properties, Materials Science & Engineering, A, 2023, 872:144947.
[3] Wenting Shao, Shangkun Wu, Wei Yang, Jiahua He, Shuaidan Lu et al. Effect of modulation period on microstructure and mechanical properties of (AlSiTiVNbCr)N/(AlSiTiVNbCr)CN nano-multilayer films, Vacuum, 2023, 207:111660.
[4] Shuaidan Lu, Xiaoxiao Li, Xiaoyu Liang et al. Effect of Al content on the oxidation behavior of refractory high-entropy alloy AlMo0.5NbTa0.5TiZr at elevated temperatures, International Journal of Refractory Metals and Hard Materials, 2022, 105: 105812.
[5] Shuaidan Lu, Xiaoxiao Li, Xiaoyu Liang et al. Effect of Y additions on the oxidation behavior of vacuum arc melted refractory high-entropy alloy AlMo0.5NbTa0.5TiZr at elevated temperatures, Vacuum, 2022, 201: 111069.
[6] Shuaidan Lu, Xiaoxiao Li, Xiaoyu Liang et al. Effect of Ho Addition on the Glass-Forming Ability and Crystallization Behaviors of Zr54Cu29Al10Ni7 Bulk Metallic Glass, Materials, 2022, 15(7), 2516.
[7] Shuaidan Lu, Xiaoxiao Li, Xiaoyu Liang et al. Effect of V and Ti on the Oxidation Resistance of WMoTaNb Refractory High-Entropy Alloy at High Temperatures, Metals, 2022, 12(1), 41.
[8] Shuaidan Lu, Shuchen Sun, Xiaoxiao Huang et al. The effect of yttrium addition on the air oxidation behavior of Zr-Cu-Ni-Al bulk metallic glasses at 400-500 °C. Corrosion Science, 2018, 137: 53-61.
[9] Shuaidan Lu, Shuchen Sun, Kuanhe Li et al. The effect of Y addition on the crystallization behavior of Zr-Cu-Ni-Al bulk metallic glasses. Journal of alloys and compounds, 2019, 799: 501-512.
[10] Shuaidan Lu, Shuchen Sun, Xiaoxiao Huang et al. Optimization of recovering cerium from the waste polishing powder using response surface methodology. Green Processing and Synthesis, 2017, 6 (2): 217-224.
[11] Shuaidan Lu, Shuchen Sun, Xiaoxiao Huang et al. Deposition behavior of TiB2 by microwave heating chemical vapor deposition (CVD). Green Processing and Synthesis, 2015, 4(3): 203-208.
[12] Shuaidan Lu, Shuchen Sun, Xiaoxiao Huang et al. Glass-forming ability and mechanical properties of a Zr52.8Cu29.1Ni7.3Al9.8Y1 bulk metallic glass prepared by hereditary process. Green Processing and Synthesis, 2016, 5(1):65-70.
[13] Shuaidan Lu, Shaohua Ju, C. Srinivasakannan et al. Dechlorination mechanism of CuCl residue from zinc hydrometallurgy by microwave roasting. High Temperature Materials and Processes, 2015, 34(2): 147-154.
[14] Shuaidan Lu, Yi Xia, Changyuan Huang et al. Removing chlorine of CuCl residue from zinc hydrometallurgy by microwave roasting. Journal of Central South University, 2014, 21(4): 1290-1295.
[15] Shuaidan Lu, Shuchen Sun, C. Srinivasakannan et al. Optimization of Microwave Roasting for Dechlorination of CuCl Residue from Zinc Hydrometallurgy. Journal of Microwave Power and Electromagnetic Energy, 2014, 48(1): 61-70.
[16] Shaohua Ju, Shuaidan Lu, Jinhui Peng et al. Removal of cadmium from aqueous solutions using red mud granulated with cement. Transactions of Nonferrous Metals Society of China, 2012, 22: 3140-3146.
[17] Shuaidan Lu, Shaohua Ju, Jinhui Peng et al. New process for the granulation of red mud and assessment of its physical properties. TMS Annual Meeting & Exhibition: T.T. Chen Honorary , 2012, 501-507.
[18] Shuaidan Lu, L. T. Q. Xuan, Shaohua Ju et al. Removal of methylene blue from aqueous solutions using a novel granular red mud (GRM) mixed with cement. TMS Annual Meeting: Alumina and Bauxite, 2013.
[19] Shuaidan Lu, Shaohua Ju, Changyuan Huang et al. The contrastive studies of microwave and conventional roasting CuCl residue from zinc hydrometallurgy. TMS Annual Meeting: Characterization of Minerals, Metals and Materials, 2013.
[20] Shuaidan Lu. Process optimization of removing chlorine of zinc dross using microwave roasting. TMS Annual Meeting: Characterization of Minerals, Metals and Materials, 2014.
授权发明专利
[1] 具有导电耐蚀涂层的燃料电池金属极板及其制备方法,(CN114540752B)
[2] 一种锆基非晶合金的遗传制备方法,(CN103924170B)
[3] 一种微波加热的化学气相沉积设备,(CN105088194B)
[4] 一种使用稀土元素改善铝硅合金表面裂纹的方法,(CN104894416B)
[5] 一种从电弧炉制得二硼化钛中反浮选脱碳的方法,(CN105080727B)
[6] 一种微波连续焙烧处理湿法炼锌含氯铜渣的方法,(CN102839279B)