曹博科研成果

综合介绍 General Introduction 主要研究方向：（1）相变材料（形状记忆合金、奥氏体不锈钢）的冲击载荷下的力学行为研究；（2）应力/应变诱发的马氏体相变无损测量法设计与开发；（3）智能材料变形行为与力学性能的研究；（4）铁系形状记忆合金性能优化；（5）增材制造机械（力学）超材料其结构的冲击动力学研究 个人相册 内容来自集群智慧云企服

教育教学

获奖信息 The winning information 2020年 广岛大学工学系优秀学生表彰2020年 日本汽车工程师学会研究奖2017年 广安博之研究奖励金2017年 广岛国际中心奖2016年 日本熊平奖学文化财团奖2016年 日本设计工学会武藤荣次优秀奖 内容来自集群智慧云企服 www.jiqunzhihui.net

荣誉获奖

社会兼职 Social Appointments 多个国际SCI期刊Materials & Design; Micromachines; Materials Science and Engineering: A; Polymers; Sustainability; Advanced Engineering Materials; Actuators 等审稿人中国航空学会会员中国力学学会会员

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科学研究

学术成果 Academic Achievements [1]   Bo Cao, Naeim Ghavidelnia, Olga Speck, Christoph Eberl, Flow charts as a method to transfer self-sealing from plant models into programmable materials and related challenges, Programmable Materials, Vol.1, pp.e12, 2023[2]  Qian Sun, Bo Cao, Takeshi Iwamoto*, Whole martensitic transformation process in Fe-Mn-Si-Cr shape memory alloy by improved characterization of volume resistivity, Journal of Materials Research and Technology, Vol.25, pp.2061-2074, 2023[3]   Naeim Ghavidelnia, Kaiyang Yin*, Bo Cao, Christoph Eberl, Curly beam with programmable bistability, Materials & Design, Vol.230, pp.111988, 2023[4]   Bo Cao*, Takeshi Iwamoto*, A strength prediction of joints made of Fe-SMA through strain monitoring during pre-processes including diameter expansion and tightening by heating, Engineering Fracture Mechanics,Vol.284, pp.109234, 2023[5]   Kaiyang Yin*, Bo Cao*, Juraj Todt,Florian Gutmann, Hasan Furkan Tunay, Antonina Roth, Frank Fischer, Nadira Grübel, Aron Pfaff, Georg C. Ganzenmüller, Jozef Keckes, Stefan Hiermaier, Christoph Eberl,Manufacturing size effect on the structural and mechanical properties of additively manufactured Ti-6Al-4V microbeams, Journal of Materials Science & Technology, Vol.149, pp.18-30, 2023[6]  Bo Cao*, Qian Sun, Takeshi Iwamoto*, Bending fracture strength of the pipe joint using iron-based shape memory alloy (Fe-SMA) subjected to different expansion methods at various deformation rates, Engineering Structures,Vol.267, pp.114669, 2022[7]  Bo Cao*, Qian Sun, Takeshi Iwamoto, Effect of deformation rate on the axial joint strength made of Fe-SMA, Journal of Constructional Steel Research, Vol.191, pp.107193, 2022[8]  Bo Cao, Shiguma Yoshida, Takeshi Iwamoto, Hang Thi Pham, Development of impact small punch test for investigating energy absorption, International Journal of Mechanical Sciences, Vol.208, pp.106675, 2021[9]  Qian Sun, Bo Cao*, Takeshi Iwamoto, Tao Suo, Effect of impact deformation on shape recovery behavior in Fe-Mn-Si shape memory alloy under shape memory training process with cyclic thermo-mechanical loading, Science China Technological Sciences, Vol.64, pp.1389-1400, 2021[10] Bo Cao, Takeshi Iwamoto, Pinaki Prasad Bhattacharjee, An experimental study on strain-induced martensitic transformation behavior in SUS304 austenitic stainless steel during higher strain rate deformation by continuous evaluation of relative magnetic permeability, Materials Science and Engineering: A, Vol.774, pp.138927, 2020[11] Bo Cao, Takeshi Iwamoto, An experimental investigation on rate dependency of thermomechanical and stress-induced martensitic transformation behavior in Fe-28Mn-6Si-5Cr shape memory alloy under compression, International Journal of Impact Engineering, Vol.132, pp.103284, 2019[12]  Bo Cao, Takeshi Iwamoto, An attempt to capture martensitic phase transition behavior in ferrous alloys during deformation at various speed, Journal of Japan Society for Design Engineering, Vol.54, No.12, pp.783, 2019, (in Japanese)[13]  Bo Cao, Takeshi Iwamoto, Comparison of stress-induced martensitic transformation under tension and compression in Fe-28Mn-6Si-5Cr shape memory alloy, EPJ Web of Conference, Vol.183, pp.02025-1-6, 2018[14]   Bo Cao, Takeshi Iwamoto, A new method to measure volume resistivity during tension for strain rate sensitivity in deformation and transformation behavior of Fe-28Mn-6Si-5Cr shape memory alloy, International Journal of Mechanical Sciences, Vol.146-147, pp.445-454, 2018[15]   Bo Cao, Takeshi Iwamoto, An experimental study on strain rate sensitivity of strain-induced martensitic transformation in SUS304 by real-time measurement of relative magnetic permeability, Steel research international, WILEY-VCH Verlag, Vol.88, No.12, pp.1700022, 2017[16]   Takeshi Iwamoto, Bo Cao, A review on experimental investigations of rate sensitivity of deformation behavior in Fe-based shape memory alloys, Chapter 3, Advances in Shape Memory Materials, Advanced Structured Materials, Springer International Publishing AG, pp. 31-42, 2017[17]  Bo Cao, Yutaro Moriyama, Kazuki Fujita, Takeshi Iwamoto, A measurement of volume resistivity in Fe-based shape memory alloy under tensile deformation and its evaluation of strain rate sensitivity, Key Engineering Materials, Trans Tech Publications, Switzerland, Vol. 725, pp. 72-76, 2016

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学术成果

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综合介绍