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沈育才
阅读次数:发布时间:2021-03-28


基本信息

名:沈育才

别:

出生年月:19839

贯:浙江绍兴

称:学科教授

电子邮箱ycshen@njtech.edu.cn

办公地点:润德楼A223

学缘与工作经历

学士浙江理工大学

硕士英国伦敦大学

博士英国女王大学。

2012年起至今在万博体育bet 任教。

教学与科研简介

主要研究领域

研究方向为功能化高分子复合材料(导热/隔热、阻燃/防火等)、环境友好高分子材料及高分子先进制造技术。作为项目负责人主持国家自然科学基金面上项目和青年项目、国家博士后基金、江苏省自然科学基金和江苏省产学研合作前瞻性项目等国家和省级项目,及多项企业合作项目,参与建设南京市新型研发机构1个(环境友好高分子材料)。获江苏省“科技副总”、江苏省“苏北发展特聘专家”和南京市“中青年优秀人才”等称号。获聘中国复材学会导热材料专委会委员、中国塑协专家委员会专家、江苏省复材学会树脂基复材专委会委员、上海市塑料工程技术学会标准评审专家等。在英、法、加、意、澳等国际学术会议做多次报告,发表SCI论文30余篇,公开及授权发明专利10余项,参编国标1项。

承担本科生的“高分子物理”、研究生的“功能材料”等专业课程,参编出版《高分子材料》教材1部,以第一指导教师指导本科生获得2018年江苏省本科团队优秀毕业论文。

成果简介

高水平代表性论文(近五年)

(一)功能化高分子复合材料

[1] Efficient construction of boron nitride network in epoxy composites combining reaction-induced phase separation and three-roll milling, Composites Part B, 2020, 198: 108232.

[2] 2.Constructing a filler network for thermal conductivity enhancement in epoxy composites via reaction-induced phase separation, Composites Part A, 2018, 110:62-69.

[3] Enhanced residue stability and strength of epoxy-based coating for fire protection via ceramifiable strategy, Progress in Organic Coatings, 2021, 154: 106211.

[4] Improved self-supporting and ceramifiable properties of ceramifiable EPDM composites by adding aramid fiber, Polymers, 2020, 12: 1523.

[5] Three-dimensional cross-linking structures in ceramifiable EVA composites for improving self-supporting property and ceramifiable properties at high temperature, Polymer Degradation and Stability, 2019, 162: 94-101.

[6] Ceramifiable EVA/APP/SGF composites for improved ceramifiable properties, Polymer Degradation and Stability, 2018, 150: 140-147.

(二)环境友好高分子材料、高分子先进制造技术

[1] Thermoplastic starch based blends as a highly renewable filament for fused deposition modeling 3D printing, International Journal of Biological Macromolecules, 2022, 219: 175-184.

[2] Enhanced properties of starch based foams with modified starch/polyester blend as masterbatch, Journal of Applied Polymer Science, 2022, e52951.

[3] Enhanced oxygen barrier properties of poly(lactic acid) via oxygen scavenging strategy combining with uniaxial stretching, International Journal of Biological Macromolecules, 2021, 181: 521-527.

[4] Effects of chain extender and uniaxial stretching on the properties of PLA/PPC/mica composites, Polymers for Advanced Technologies, 2019, 30: 2436-2446.

[5] Improving oxygen barrier properties of PET composites via grafting hydroxy-terminated polybutadiene with nanosilica, Polymers for Advanced Technologies, 2020, 31: 2561-2568.

[6] The effect of temperature and strain rate on the deformation behaviour, structure development and properties of biaxially stretched PET-clay nanocomposites, Composites Science and Technology, 2011, 71: 758-764.

授权代表性发明专利

[1] 一种基于聚醚砜和氮化硼的高效制备导热环氧树脂的方法(ZL201410607027.7)

[2] 一种发泡型可瓷化聚烯烃复合材料及其制备方法 (ZL201910206695.1)

[3]一种可增韧咪唑类环氧树脂潜伏性固化剂及其制备方法ZL201910529377.9)

[4]一种兼具耐热和力学性能的聚乳酸复合材料(ZL201610578027.8)

[5]多级改性的热塑性淀粉母料及其在制备淀粉基生物降解薄膜中的应用ZL202010618285.0)


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