史宝会

姓名：史宝会

职称：研究员

联系电话：15316132269

电子邮箱：shibh@tiangong.edu.cn

【个人简介】

史宝会，研究员，博士生导师，纺织科学与工程学院复合材料研究院，2018-2020年美国特拉华大学复合材料中心访学。山东省“青创科技计划”创新团队带头人、山东省重点扶持区域引进急需人才。研究领域包括三维编织复合材料成型及多尺度损伤分析、3D打印纤维/含能复合材料技术及设备开发、功能复合材料。主持“十四五”国家科技重大专项课题2项、国家自然科学基金、山东省高等学校“青年创新”团队、山东省自然科学基金等省部级以上项目和企业横向项目20余项。在Advanced materials（封面文章）、Advanced Functional Materials、Matter、ACS Nano、Nano Letters、Composites Part B、Nano Energy、ACS Appl Mater Inter、Composites Science and Technology、International Journal of Mechanical Sciences、IJDM、Energy & Environmental materials等 SCI期刊发表论文多篇。入选山东省滨州市科技副总。当前担任《Prog Nat SCI-Mater》、《现代纺织技术》和《丝绸》等青年编委。

【研究方向】

课题组聚焦发展三维编织复合材料、3D打印复合材料和功能复合材料相关研究：

1. 三维编织（机织、编织和缝合）复合材料成型及多尺度损伤分析

2. 3D打印纤维/含能复合材料技术及设备开发

3. 功能/智能纤维复合材料

【研究成果】

[1] Wu YY, Huang SW, Wang R, Li ZW, Shi BH. Molecular oxidative/pyrolysis evolution and influence on short-beam shear damage performance of 3D braided composites[J]. Polymer Degradation and Stability, 2026.

 [2] H Zhang, YY Shang, N Li, X Hu, ZY Ye, XJ Zhang, LJ Qu, XD Song, Y He, K Fu, BH Shi. Dynamic Bond-Enhanced, Recyclable Polyurethane Elastomer with High Strength and Self-Healing Properties for Advanced 3D Printing[J]. Composites Part B: Engineering, 2025.

[3] M Hossen, Y Wang, BH Shi. Development of self-healing composite membranes with enhanced conductivity for wearable electronics[J]. Composites Part B: Engineering, 2025.

[4] JY G, YY Shang, H Zhang, JJ Li, YQ Wang, F Gao, ZY Ye, K Fu, XJ Zhang, LJ Qu, XQ Liu, BH Shi. A high-temperature resistant and sewable aromatic multi-scale fiber for rapid identification in fire rescue, Nano Lettes, 2025.

[5] JJ Li, BH Shi, H Liu, F Gao, XH Zheng, Y He, QY Pan, JJ Chen, XJ Zhang, LJ Qu, CJ Chen, YJ Zhao, YY Shang. Ultrastable and Robust Free-Standing COFs Fiber Composite Membrane Enabled by Hydrogen Bonding for Selective Chromium (VI) Adsorptions[J]. ACS Applied Materials & Interfaces, 2025.

 [6] S Park, BH Shi, MM Islam, Jl He, DH Sung, CY Zhang, Z Cao, YY Shang, L Liu, K Fu Universal Carbonizable Filaments for 3D Printing[J]. Advanced Functional Materials, 2024, 34(51): 2410164.

[7] Zhang CY, Shi BH, He JL, Zhou L, Park S, Doshi S, Shang YY, Deng KY, Marc Giordano M, Qi XJ, Cui S, Liu L, Ni CY, Fu K K. Carbon Additive Manufacturing with a Near‐Replica “Green to-Brown” Transformation[J]. Advanced Materials, 2023: 2208230.（期刊封面发表，封面：Adv. Mater. 38/2023）

[8] Wang LH, Shi BH, Zhao HT, Qi XJ, Chen JH, Li JJ, Shang YY, Fu K K, Zhang XJ, Tian MW, and Qu LJ, 3D-printed parahydrophobic functional textile with a hierarchical nanomicroscale structure[J]. ACS nano, 2022, 16(10): 16645-16654.

[9] Park S, Shi BH, Shang YY, Fu K. Structured electrode additive manufacturing for lithium-ion batteries[J]. Nano Letters, 2022, 22(23): 9462-9469.

[10]Ye XR, Shi BH, Li M, Fan Q, Qi XJ, Liu XH, Zhao SK, Jiang L, Zhang XJ, Fu K, Qu LJ, Tian MW. All-textile sensors for boxing punch force and velocity detection[J]. Nano Energy, 2022: 107114.  

[11]Shi BH, Shang YY, Zhang P, Cuadros AP, Qu J, Sun BZ, Gu BH, Chou TW, Fu K. Dynamic Capillary-Driven Additive Manufacturing of Continuous Carbon Fiber Composite[J]. Matter, 2020, 2(6): 1594–1604.  

[12] Shi BH, Shang YY, Pei Y, Pei SP, Wang LY, Heider D, Zhao Y, Zheng CL, Yang B, Yarlagadda S, Chou TW, Fu K. Low Tortuous, Highly Conductive, and High-Areal-Capacity Battery Electrodes Enabled by Through-thickness Aligned Carbon Fiber Framework[J]. Nano Letters, 2020, 20(7): 5504-5512.

[13]Shi BH, Shang YY, Zhang P, Liu SK, Huang SW, Sun BZ, Gu BH, Fu K. Rapid electrothermal-triggered flooded thermoset curing for scalable carbon/polymer composite manufacturing[J]. Composites Science and Technology, 2020, 200: 108409.

[14]Shang YY, Shi BH, Doshi SM, Chu TW, Qiu GX, Du AH, Zhao Y, Xu F, Thostenson ET, Fu K. Rapid Nanowelding of Carbon Coatings onto Glass Fibers by Electrothermal Shock[J]. ACS Applied Materials & Interfaces, 2020, 12(33): 37722-37731.  

[15] Shang YY, Chu TK, Shi BH, Kun Fu. Scalable synthesis of LiF-rich 3D architected Li metal anode via direct lithium-fluoropolymer pyrolysis to enable fast Li cycling, 2020, Energy & Environmental materials. Doi: 10.1002/eem2.12099.  

[16]Shi BH, Zhang M, Liu SK, Sun BZ, Gu BH. Multi-scale ageing mechanisms of 3D four directional and five directional braided composites’ impact fracture behaviors under thermo-oxidative environment[J]. International Journal of Mechanical Sciences, 2019, 155: 50–65.

[17] Shi BH, Liu SK, Siddique A, Du YC, Sun BZ, Gu BH. Impact fracture behaviors of three-dimensional braided composite U-notch beam subjected to three-point bending[J]. International Journal of Damage Mechanics, 2019, 28(3): 404–426.

[18]Shi BH, Liu SK, Siddique A, Zhang JJ, Gu BH, Sun BZ. Comparisons on impact fracture behavior between three-dimensional four directional and five directional braided composite materials[J]. International Journal of Damage Mechanics, 2019, 28(7): 990–1020.

 [19] Fu K, Shi BH. Method and system for dynamic capillary-driven additive manufacturing of continuous fiber composite: U.S. Patent Application 17/404,365[P]. 2021-2-17.