个人简介
夏磊,男,中共党员,副教授。2010年毕业于天津工业大学。主要从事规模化纳微米纤维的制备及改性研究。近年来主持或参与国家级、省部级和横向合作项目10余项,发表论文20余篇,授权发明专利5项。获省部级科技进步一等奖1项,二等奖一项。
研究方向:
闪蒸纺纳微纤维无纺布制备及性能研究
离心纺纳米纤维制备与应用
教学课程:
《非织造粘合剂与助剂》
《非织造实验》
《非织造认知实习》
获奖情况:
中国纺织工业联合会科技进步一等奖(2015)
天津市科技进步二等奖(2016)
发表文章:
1.Xia Lei, Ju Jing-ge, Xu Wei. Preparation and characterization of hollow Fe2O3 ultra-fine fibers by centrifugal spinning, Materials & Design, 2016(96):439~445.
2. Xia Lei, Xi Peng, Cheng BoWen, High efficiency fabrication of ultrahigh molecular weight polyethylene submicron filaments/sheets by flash-spinning, Journal of Polymer Engineering, 2016(36):97~102.
3. Xu Wei, Xia Lei, Ju, Jing-ge, Xi Peng, Cheng Bowen, Liang Yuxia. Preparation and low-temperature gas-sensing properties of SnO2 ultra-fine fibers fabricated by a centrifugal spinning process,Journal of Sol-Gel Science and Technology, 2016(78):353~364.
4. Lian Yu-Xia, Xia Lei, Differences of integral-type operators from weighted Bergman spaces to Bloch spaces of the unit ball, Complex Variables and Elliptic Equations, 2016(61):388~404.
5. Xu Wei, Xia Lei, Zhou Xinghai, Xi Peng, Cheng Bowen, Liang Yu-xia,Hollow carbon microfibres fabricated using coaxial centrifugal spinning,Micro & Nano Letters,2016(11):74~76
6. Xu Wei, Xia Lei, Xi Peng, Cheng Bowen. Influence of spinning and pre-oxidation conditions on PAN-based carbon nanofibers fabricated by centrifugal spinning, Journal of Textile Research, 2016(37):7-12.
7. LeiXia, Peng Xi, Bowen Cheng, A comparative study of UHMWPE fibers prepared by flash-spinning and gel-spinning, Materials Letters, 2015(147):79~81.
8. LeiXia, Synthesis, characterization, and luminescence properties of a multi-benzoic acid rare earth complex applied to fluorescence nanometer and micrometer fiber,Journal of Donghua University, 2014(31):240~243.
9. Lei Xia, Peng Xi, Bowen Cheng, Study of Irradiation Hydrophilic Modification of polypropylene Meltblown Nonwovens, Advanced Materials Research, 2013(627):348~352.
10. Lei Xia, Peng Xi, Bowen Cheng, The Influence of Acrylic Acid Irradiation Grafting to the Hydrophilicity of Polypropylene Spunbonded Nonwovens, Advanced Materials Research,2013(627):125~129.