学习和工作经历

2014.09—2018.06    青岛科技大学  机械工程  工学学士

2018.09—2023.06    青岛科技大学  机械工程  工学博士

2023.08至今      鲁东大学交通学院    教师   

学术兼职

主持中科院二区《POLYMERS》特刊“Advances in Structure-Property   Relationship of Polymer Materials”，并担任客座编辑；担任《WEAR》、《POLYMER TESTING》、《JOURNAL OF APPLIED   POLYMER SCIENCE》、《POLYMER COMPOSITES》、《SUSTAINABILITY》、《LUBRICANTS》、《MATERIALS》等期刊的审稿专家，累计审稿50余篇。

参与科研项目情况

1.参与含XX-20螺压推进剂物料特性与安全压延压伸工艺匹配性研究，西安化学所军工项目（经费120万）；

2. 参与绿色轮胎构效关系及其纳米复合胶的绿色合成项目，山东省重大科技创新工程项目（经费500万）；

3. 参与短纤维定向取向增强抗撞、抗刺扎、耐磨军用轮胎的技术研究，山东省军民科技融合项目（经费180万）；

4. 参与基于复合益生菌群的垃圾渗滤液及其恶臭生物处理技术及应用项目，青岛市科技惠民项目（经费80万）；

5. 参与废塑料工业连续化分级裂解关键技术及应用项目，山东省自然科学基金重点项目（经费30万）；

6. 参与耐热油老化丁腈橡胶研究及性能优化项目，企业合作项目（经费50万）。

论文

[1]   Han DS, Wang KS, Yan G, Pan Y, Xue JX, Wang CS, et al. Effect of the ratio of   graphene oxide(GO) and multi-walled carbon nanotubes(MWCNTs) on metal   friction and wear during mixing. POLYMER TESTING. 2022;106, 107441；

[2]   Han DS, Pan Y, Li SM, Xu MH, Xiao XX, Hao XY, et al. Friction and wear of   Stellite 6B during sliding against rubber compound with varied carbon fiber   content. POLYMER TESTING. 2022;106,107470；

[3]   Han DS, Yan G, Wang CS,Influence of multi-walled carbon nanotubes (MWCNTs)   content on metal friction and wear in thermally cracked carbon black (CBp)   formulation system during mixing, POLYMER TESTING. 2022;113,107674；

[4]   Han DS, Wang Y, Wang CS, Liu HC,Influence of spraying perhydropolysilazane   coating on friction and wear of end-face metal during the mixing process,   POLYMER TESTING. 2022;115, 107743；

[5]   Zhu DL,Wang CS,Han DS*, Investigating the effect of different amounts of   basalt fiber (BF) during the mixing process on metal friction and wear,   POLYMER TESTING. 2022,115, 107750；

[6]   Han DS, Zhang SF, Pan Y, Wang CS. Simulation and experimental research on the   wear of synchronous quadruple rotor of an internal mixer during the mixing   process. Engineering Failure Analysis. 2022;139:106450；

[7]   Han DS, Li S, Xiao XX, Xu MH, Chen YH, Wang CS, et al. Effect of different   dosages of carbon nanotubes on the metal friction and metal wear in the   mixing process. POLYMER COMPOSITES. 2021;42(11):6051-64；

[8]   Han DS, Wang KS, Bian HG, Yan G, Wang CS. Effect of different amounts of   graphene on metal friction and wear during the mixing process. POLYMER   COMPOSITES. 2021;42(10):5075-89；

[9]   Han DS, Yan G, Li SM, Pan Y, Chen YH, Wang CS, et al. Study on mechanical   properties and antifriction of calcium powder filled rubber. POLYMER   COMPOSITES. 2022;43(2):874-88；

[10]   Han DS, Wang KS, Wang CS, Han WW. The Effect of Different Dosages of TESPT on   Metal Friction and Metal Wear in the Mixing Process. Polymers.   2022;14(12),2314；

[11]   Han DS, Chen YH, Pan Y, Wang CS, Zhang DW .Research on Friction and Wear   Properties of Rubber Composites by Adding Glass Fiber during Mixing.   Polymers. 2022;14(14),2849；

[12]   Han DS, Ma QY, Wang J, Chen H, Wang CS,Han WW .Effect of adding different   amounts of aramid fibers on metal friction and wear during mixing .Polymers.   2022; 14(14),2961；

[13]   Lin Wang ,Yi Pan ,Yihui Chen ,Jian Qiu ,Aihua Du ,Deshang Han* , Chuansheng   Wang ,Influence of the Synergistic Effect of Multi-Walled Carbon Nanotubes   and Carbon Fibers in the Rubber Matrix on the Friction and Wear of Metals   during the Mixing Process, Polymers. 2022; 14(18),3731；

[14]   Han DS, Zhang SF, Wang KS, Pan Y, Zhu DL, Wang CS, et al. A comparison of the   effects of traditional and wet mixing processes of rubber on metal friction   and wear. JOURNAL OF APPLIED POLYMER SCIENCE. 2021;138(31)；

[15]   Han DS, Pan Y, Xue JX, Yu BH, Yan G, Wang CS, et al. Effect of adding   different silane coupling agents on metal friction and wear in mixing   process. JOURNAL OF APPLIED POLYMER SCIENCE. 2021;138(47)；

[16]   Yan G, Han DS, Li WC, Qiu J, Jiang CJ, Li L, et al. Effect of pyrolysis   carbon black and carbon nanotubes on properties of natural rubber conductive   composites. JOURNAL OF APPLIED POLYMER SCIENCE. 2022;139(23)；

[17]   Yan G, Han DS, Li L,Effect of synergy between pyrolysis carbon black and   carbon nanofibers on composite properties. JOURNAL OF APPLIED POLYMER   SCIENCE. 2022;139(23)；

[18]   Wang KS, Han DS, Xiao XX,Wang LY, Niu Guangzhi, Zhang SF, Wang CS, Bian HG.   Influence of process parameters of a continuous final mixer on the properties   of carbon black/rubber composites. INTERNATIONAL POLYMER PROCESSING,   doi:10.1515/ipp-2022-4265；

[19]   Pan YR, Han DS, Zhu L, Zhang M, Bian HG, Wang CS, et al. Effect of Adding   MoDTC on the Properties of Carbon Black Rubber and the Friction and Wear of   Metal during Mixing Process. MATERIALS. 2020;13(5).

[20]   Wang KS, Liu HC, Chang TH, Han DS, Pan YR, Wang CS, et al. Numerical Optimization   Simulation of Synchronous Four-Wing Rotor. MATERIALS. 2020;13(23)。

专利

[1]   一种旋转式立体车库, 中国实用新型专利，CN202121572509.5，授权公告日：2022.01.04，发明人: 韩德上；严刚；

[2]   一种新型助力式楼梯搬运机，中国实用新型专利，CN202121573005.5，授权公告日：2022.02.22，发明人:韩德上；严刚；

[3]   一种电动汽车锂电池自动更换装置，中国实用新型专利，CN202121472902.7，授权公告日：2022.07.22，发明人: 韩德上；严刚；

[4]   一种新型轮胎断面切割机，中国实用新型专利，CN202121471890.6，授权公告日：2022.07.05，发明人：韩德上；严刚；