康建峰 讲师

学历学位：博士

导师类别：无

研究方向：增材制造医用植入物的功能化设计与评价

联系方式：kjfmg@sina.com

2007.09-2011.06 太原科技大学 机械设计制造及其自动化 学士
2011.09-2014.07 太原科技大学 机械工程(推免生) 硕士
2014.09-2019.09 西安交通大学 机械工程 博士
2019.10-2023.02 季华实验室 新型增材制造研究院

主持广东省自然科学基金面上项目、广东省粤佛联合青年基金项目，参与国家自然科学基金重点项目、国家重点研发计划、广东省重点研发计划项目等4项。

[1] Kang Jianfeng, Tian Yucong, Zheng Jibao, et al. Functional design and biomechanical evaluation of 3D printing PEEK flexible implant for chest wall reconstruction. Computer Methods and Programs in Biomedicine. 2022.
[2] Kang Jianfeng*, Zheng Jibao, Hui Yijun, et al. Analysis of Mechanical Properties and Anisotropy for PEEK/HA Composite Filament. Polymers. 2022.
[3] Kang Jianfeng, Dong Enchun, Li Xiangdong, et al. Topological Design and biomechanical Evaluation for 3D printed multi-segment artificial vertebral implants. Materials science and engineering C. 2021, 127.
[4] Kang Jianfeng, Zhang Jie, Zheng Jibao, et al. 3D-printed PEEK implant for mandibular defects repair - a new method. Journal of the Mechanical Behavior of Biomedical Materials. 2021, 116.
[5] Kang Jianfeng, Dong Enchun, Li Dichen, et al. Anisotropy characteristics of microstructures for bone substitutes and porous implants with application of additive manufacturing in orthopaedic, Material& Design, 2020, 191.
[6] Kang Jianfeng, Wang Ling, Yang Chuncheng, et al. Custom design and biomechanical analysis of 3D-printed PEEK rib prostheses. Biomech Model Mechanobiol, 2018, 17 (4): 1083-1092.
[7] 康建峰，王玲，孙畅宁，等. 面向3D打印可变模量金属假体的微结构设计. 机械工程学报, 2017, 53 (5).
[8] Wang Ling, Kang Jianfeng, Sun Changning, et al. Mapping porous microstructures to yield desired mechanical properties for application in 3D printed bone scaffolds and orthopaedic implants. Materials & Design, 2017, 133: 62-68. (学生一作)
[9] Wang Ling, Kang Jianfeng, Shi Lei, et al. Investigation into factors affecting the mechanical behaviours of a patient-specific vertebral body replacement. Journal of Engineering in Medicine, 2018, 232 (4): 378-387. (学生一作)
[10] Wang Jianmei, Kang Jianfeng, Zhang Yanjuan , et al. Viscosity monitoring and control on oil-film bearing lubrication with ferrofluids[J]. Tribology International, 2014, 75: 61-68. (学生一作)
[11] Wang Jianmei, Kang Jianfeng, Tang Liang, et al. Theoretical and experimental studies for wind turbine's shrink disk [J]. Journal of Mechanical Engineering Science, 2015, 229(2) 325-334. (学生一作)
[12] 李涤尘，杨春成，康建峰，等. 大尺寸个体化PEEK植入物精准设计与控性定制研究. 机械工程学报, 2018, 54(23), 121-125. (期刊封面)
[13] Sun Changning, Kang Jianfeng, Yang Chuncheng, et al. Additive manufactured polyether-ether-ketone implants for orthopaedic applications: a narrative review. Biomaterials Translational. 2022. 3.
[14] Sun Changning, Kang Jianfeng, Wang Ling*, et al. Stress-dependent Design and Optimization Methodology of Gradient Porous Implant and Application in Femoral Stem[J]. Computer Methods in Biomechanics and Biomedical Engineering, 2022.
[15] Zheng Jibao, Kang Jianfeng, Sun Changning, et al. Effects of printing path and material component on mechanical properties of 3D printed polyetheretherketone /hydroxyapatite composites. Journal of the Mechanical Behavior of Biomedical Materials. 2021.
[16] Zheng Jibao, Dong Enchun, Kang Jianfeng, Sun Changning, Liu Chaozong, Wang Ling, Li Dichen. Effects of Raster Angle and Material Components on Mechanical Properties of Polyether-Ether-Ketone/Calcium Silicate Scaffolds. Polymers. 2021, 13(15):2547.
[17] Dong Enchun, Shi Lei, Kang Jianfeng, et al. Biomechanical Characterization of Vertebral Body Replacement in situ: Effects of Different Fixation Strategies. Computer Methods and Programs in Biomedicine, 2020, 197.
[18] Zhang Chenguang, Wang Ling, Kang Jianfeng, et al. Bionic design and verification of 3D printed PEEK costal cartilage prosthesis. Journal of the Mechanical Behavior of Biomedical Materials, 2019.
[19] Sun Changning, Wang Ling, Kang Jianfeng, et al. Biomechanical Optimization of Elastic Modulus Distribution in Porous Femoral Stem for Artificial Hip Joints. Journal of Bionic Engineering, 2018, 15 (4): 693-702.

[1] 康建峰. 防宫腔粘连的可降解植入物及其制备方法. ZL 202211504616.3, 2022.
[2] 李涤尘, 康建峰, 王玲.一种鼻旁凹陷塑形用生物型假体. CN111544160B. 2021.
[3] 王玲,康建峰,庞小强,李涤尘,靳忠民,刘亚雄,贺健康,连芩,王满毅. 一种具有内生长功能的仿生人工髋关节. CN105105875B. 2018.
[4] 王玲,董恩纯,康建峰,李涤尘.一种拓扑优化人工椎体及其设计方法. CN110929379B. 2021.
[5] 王玲,孙畅宁,康建峰,李涤尘,靳忠民. 一种基于宿主骨应力环境的定制化假体优化设计方法. CN105740523B. 2018.
[6] 王玲,张童童,董恩纯,李涤尘,康建峰. 一种高度可调的自锁定椎间融合器装置. CN111265346B. 2021.
[7] 王玲,单存清,李涤尘,康建峰,曹毅,杨春成. 熔融沉积3D打印制备的聚醚醚酮变模量人工骨骼替代物及制备方法. CN108635084B. 2021.
[8] 王玲,孙畅宁,李涤尘,靳忠民,康建峰. 一种自适应后期稳定型股骨柄假体. CN106510903B. 2018.
[9] 王玲,孙畅宁,李涤尘,靳忠民,康建峰. 一种用于人工假体的中空缓冲结构. CN106491247B. 2017
[10] 王建梅,康建峰,张艳娟,张亚南,黄讯杰. 磁流体油膜轴承.CN103398100B. 2015
[11] 王建梅,康建峰,侯成,陶德峰,黄讯杰. 一种确定风电锁紧盘过盈量的方法. CN102155496B. 2013
[12] 王建梅,王尧,黄庆学,赵春江,康建峰.一种综合油膜轴承试验装置. CN102854013B. 2014.
[13] 王建梅,张艳娟,黄迅杰,康建峰,张亚南.一种磁流体油膜轴承. CN203743206U. 2014.
[14] 王建梅,陶德峰,康建峰,黄讯杰,侯成,孙建召. 一种校核风电锁紧盘强度的方法. CN102298656B. 2013.
[15] 王建梅,侯成,陶德峰,康建峰,黄迅杰. 一种确定锁紧盘内环与外环接触面尺寸的方法. CN102230502B. 2013
[16] 王建梅,薛亚文,康建峰,马立新,蔡敏. 具有止推作用的静-动压油膜轴承. CN202719025U. 2013.