欢迎访问山东大学材料学与工程学院

全东
发布日期:2021-06-01 作者: 浏览次数:

       

 

全东

出生年月

1986.08

 

 

博士研究生

专业技术职务

教授

聘任时间

2021.7(硕导、博导)

行政职务

 副所长

学术团体兼职

泰山学者青年专家;

中国复合材料学会会员;

Thin-Walled Structures客座编辑

入选山东省泰山学者青年专家、山东省海外优青、欧盟H2020玛丽-局里学者、山东大学齐鲁青年学者;担任国际知名SCI期刊Thin-Walled Structures(中科院1区)和Frontiers in Materials (中科院3区)客座编辑;主持国家自然科学基金面上项目、欧盟“地平线”2020计划项目、山东省优秀青年基金项目等纵向项目;承担“山东大学-中航和辉山东大学-中航和辉轻量化航空结构成型研究中心”、“山东大学-扬州辰冠高性能复合材料联合实验室”以及其他多项横向项目,研究经费累计900余万元;近5年,以第一/通讯作者发表SCI收录论文36篇(中科院1区论文20篇,2区论文10篇),第一作者论文被引用1000余次,撰写英文专著一章;研究成果在庞巴迪航空、空客和汉高等企业广泛应用。

1. 学习和工作经历

2021.05~至今,  11474蒙特卡罗 - 欢迎您,塑性成形与模具技术研究所,教授、齐鲁青年学者

2019.09-2021.05,荷兰代尔夫特理工大学,航空航天工程学院欧盟H2020玛丽-居里学者

2016.02-2019.08,爱尔兰都柏林大学,机械与材料工程学院,研究助理/博士后/高级研究员

2011.09-2016.06爱尔兰都柏林大学机械与材料工程学院博士

2009.09-2012.07,山东大学,11474蒙特卡罗,硕士

2. 研究领域介绍

学科专业:材料加工工程

研究方向:汽车、航空用结构性胶黏剂增韧技术和断裂行为研究,纤维增强复合材料的层间强韧化设计,纤维增强复合材料与异质材料的连接技术,热塑性/热固性纤维增强复合材料的成形制造工艺

3. 取得科研成果情况

 代表性科研论文:

1.Jiaming Liu, Dong Quan* The mix-mode fracture behaviour of aerospace composite joints co-cured by different forms of advanced thermoplastics, Composites Communications, 38 (2023) 101519 (中科院二区;IF= 7.685).

2.D. Quan et al. Co-curing bonding of carbon fibre/epoxy composite joints with excellent structure integrity using carbon fibre/PEEK tapes, Composites Science and Technology, 227 (2022) 109567 (中科院一区;IF= 9.879).

3.D. Quan et al. The development of high performance hybrid joints between epoxy composites and PEEK/PPS composites: The mode-II and mix mode-I/II fracture behaviour, Composite Structures 292 (2022) 115638 (中科院一区;IF= 6.603).

4.D. Quan* et al. On the fracture behaviour of aerospace-grade Polyether-ether-ketone composite-to-aluminium adhesive joints, Composites Communications 30 (2022) 101098 (中科院二区;IF= 7.685).

5.Dong Quan et al. On the mix-mode fracture of carbon fibre/epoxy composites interleaved with various thermoplastic veils, Composites Communications, 33 (2022)101230 (中科院二区;IF= 7.685).

6.D. Quan* et al. Recycled carbon fibre mats for interlayer toughening of carbon fibre/epoxy composites, Materials & Design 218 (2022) 110671中科院一区;IF= 9.417).

7.D. Quan* et al. Fatigue delamination behaviour of carbon fibre/epoxy composites interleaved with thermoplastic veils, Composite Structures 281 (2022) 114903 (中科院一区;IF= 6.603).

8.Dong Quan et al. Co-curing bonded composite joints by advanced thermoplastic films with excellent structural integrity and thermal resistance. International Journal of Adhesion and Adhesives 118 (2022) 103247 (中科院二区;IF=3.848).

9.D. Quan et al. Mode-II fracture behaviour of aerospace-grade carbon fibre/epoxy composites interleaved with thermoplastic veils, Composites Science and Technology 191 (2020) 108065. (中科院一区;IF= 9.879).

10.D. Quan* et al. Significantly enhanced structural integrity of adhesively bonded PPS and PEEK composite joints by rapidly UV-irradiating the substrates, Composites Science and Technology 199 (2020) 108358 (中科院一区;IF= 9.879).

11.D. Quan et al. Improving the electrical conductivity and fracture toughness of carbon fibre/epoxy composites by interleaving MWCNT-doped thermoplastic veils, Composites Science and Technology 182 (2019) 107775 (中科院一区;IF= 9.879).

12.D. Quan et al. Effect of interlaying UV-irradiated PEEK fibres on the mechanical, impact and fracture response of aerospace-grade carbon fibre/epoxy composites, Composites Part B: Engineering 191 (2020) 107923 (中科院一区;IF= 11.322).

13.D. Quan* et al. Rapid surface activation of carbon fibre reinforced PEEK and PPS composites by high-power UV-irradiation for the adhesive joining of dissimilar materials, Composites Part A: Applied Science and Manufacturing 137 (2020) 105976. (中科院一区;IF= 9.463).

14.D. Quan et al. Interlaminar fracture toughness of aerospace-grade carbon fibre reinforced plastics interleaved with thermoplastic veils, Composites Part A: Applied Science and Manufacturing 128 (2020) 105642 (中科院一区;IF= 9.463).

15.D. Quan et al. Enhancing mode-I and mode-II fracture toughness of epoxy and carbon fibre reinforced epoxy composites using multi-walled carbon nanotubes, Materials & Design 143 (2018) 81-92 (中科院一区;IF= 9.417).

16.D. Quan* et al. The influence of interlayer/epoxy adhesion on the mode-I and mode-II fracture response of carbon fibre/epoxy composites interleaved with thermoplastic veils, Materials & Design 192 (2020) 108781(中科院一区;IF= 9.417).

17.D. Quan et al. Fracture behaviour of carbon fibre/epoxy composites interleaved by MWCNT- and graphene nanoplatelet-doped thermoplastic veils, Composite Structures 235 (2020) 111767 (中科院一区;IF= 6.603).

18.D. Quan et al. Interlaminar fracture toughness of CFRPs interleaved with stainless steel fibres, Composite Structures 210 (2019) 49-56 (中科院一区;IF= 6.603).

19.D. Quan et al. The enhancement of adhesively-bonded aerospace-grade composite joints using steel fibres, Composite Structures 198 (2018) 11-18 (中科院一区;IF= 6.603).

20.D. Quan* et al. Co-cure joining of epoxy composites with rapidly UV-irradiated PEEK and PPS composites to achieve high structural integrity, Composite Structures 251 (2020) 112595 (中科院一区;IF= 6.603).

21.D. Quan* et al. Enhancing the fracture toughness of carbon fibre/epoxy composites by interleaving hybrid meltable/non-meltable thermoplastic veils, Composite Structures 252 (2020) 112699 (中科院一区;IF= 6.603).

22.D. Quan et al. Effect of core-shell rubber (CSR) nano-particles on mechanical properties and fracture toughness of an epoxy polymer. Polymer 66 (0) (2015) 16-28 (中科院二区;IF= 4.432).

23.D. Quan et al. The intrinsic fracture property of a rubber-modified epoxy adhesive: geometrical transferability, Engineering Fracture Mechanics, 203 (2018) 240-249. (中科院二区;IF= 4.898).

24.D. Quan et al. Fracture behaviour of epoxy adhesive joints modified with core-shell rubber nanoparticles. Engineering Fracture Mechanics 182 (2017) 566-576. (中科院二区;IF= 4.898).

25.D. Quan et al. Fracture behaviour of a nano-modified structural epoxy adhesive: bond gap effects and fracture damage zone. International Journal of Adhesion and Adhesives 77 (2017) 138-150 (中科院二区;IF=3.848).

26.D. Quan et al. Mechanical and fracture properties of epoxy adhesives modified with graphene nanoplatelets and rubber particles. International Journal of Adhesion and Adhesives, 81 (2018) 21-29 (中科院二区;IF=3.848).

27.D. Quan et al. Carbon nanotubes and core-shell rubber nanoparticles modified structural epoxy adhesives, Journal of Materials Science 52 (2017) 4493-4508 (中科三区;IF= 4.682).

28.D. Quan et al. Synergistic toughening and electrical functionalization of an epoxy using MWCNTs and silane-/plasma-activated basalt fibres, Journal of Applied Polymer Science 138 (2021) 49605 (中科院三区;IF=3.057).

29.D. Quan et al. Interaction of Toughening Mechanisms in Ternary Nanocomposites. Polymer Composites 39 (2018) 3482-3496 (中科院三区;IF=3.531).

30.D. Quan et al. Damage behaviour of nano-modified epoxy adhesives subject to high stress constraint. The Journal of Adhesion 94 (2018) 387-405 (中科院三区;IF=2.917).

31.Gennaro Scarselli, D. Quan* et al. Adhesion Improvement of ThermoplasticsBased Composites by Atmospheric Plasma and UV Treatments. Applied Composite Materials 28 (2021) 71-89. (中科院三区;IF=2.368).

32.D. Quan et al. The curing behaviour and thermo-mechanical properties of core-shell rubber (CSR) modified epoxy nanocomposites. Polymers and Polymer Composites 27 (2019) 168-175 (中科院四区;IF=1.841).

4. 承担科研项目情况

1)国家自然科学基金面上项目,2024-2027,主持

2)山东省泰山学者青年专家项目,2023-2026,主持

3)山东省自然科学基金优秀青年基金(海外),2022-2025,主持

4)山东大学齐鲁青年学者项目(一层次),2021-2026,主持

5)山东大学-中航和辉轻量化航空结构成型研究中心,2023-2026,主持

6)山东大学-扬州辰冠高性能复合材料联合实验室,2023-2026,主持

7)欧盟地平线2020计划玛丽-居里学者项目,2019-2021,主持

8)爱尔兰复合材料研究中心核心科研项目(爱尔兰贸易与科技局),2016-2019,主研

9)企业科技合作项目,贝卡尔特(比利时),2014-2015,主研

10)企业科技合作项目,庞巴迪宇航(英国),2014-2015,主研

5. 学生培养

致有兴趣加入同学们

本课题组的研究工作以工程应用为导向,在实验研究的基础上,探索其中的理论基础和科学本质,并最终为国民工业各个领域的轻量化需求提供技术支持和理论依据。课题组为你提供一个有爱、宽松自由的学习和科研环境,从而最大限度的挖掘你的科研潜力和想象力,同时,我们也要求你拥有积极乐观、努力拼搏和认真勤恳的科研和生活态度。相信通过我们的共同努力,你会得到系统的科研培训,获得自己满意的科研成果,课题组也会与你一起成长

此外,课题组与爱尔兰都柏林大学、英国帝国理工学院、荷兰代尔夫特理工大学、瑞士洛桑联邦理工、西北工业大学、哈尔滨工业大学、南京航空航天大学等国内外相关领域研究团队建立了良好合作关系,可为研究生提供多层次的国际国内交流、深造机会。

目前,课题组拟招收硕士研究生2-3名,博士研究生1-2名。

我们期待你的加入!

联系方式

15589929580

联系地址

济南市经十路17923号11474蒙特卡罗 - 欢迎您

电子邮箱

quandong@sdu.edu.cn







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