1. 毕业设计(论文)的内容和要求
论文内容主要有:一、任务书的认真阅读二、参考文献的查阅,完成文献综述;三、英文文献的翻译;四、CAD图绘制;五、实验和有限元模拟;六、完成论文。
论文主要要求有:一、 毕业论文严格按照时间进度进行;二、 每周与导师交流3次,有问题及时解决;三、英文文献的翻译独立完成,不得使用翻译软件;四、CAD图绘制独立完成,不得拷贝其他人的CAD文件。
2. 参考文献
[1] Cheng X Y , Li S J , Murr L E , et al. Compression deformation behavior of Ti6Al4V alloy with cellular structures fabricated by electron beam melting[J]. Journal of the mechanical behavior of biomedical materials, 2012, 16(none). [2] Wang,Ying, Chen,Ji Min, Yuan,Yan Ping. Influence of the Unit Cell Geometrical Parameter to the Mechanical Properties of Ti6Al4V Open-Porous Scaffolds Manufactured by Selective Laser Melting[J]. Applied Mechanics Materials, 2016, 851:201-210. [3] Choy S Y , Sun C N , Leong K F , et al. Compressive properties of functionally graded lattice structures manufactured by selective laser melting[J]. Materials Design, 2017:S0264127517305890. [4] Mazur M , Leary M , Sun S , et al. Deformation and failure behaviour of Ti-6Al-4V lattice structures manufactured by selective laser melting (SLM)[J]. The International Journal of Advanced Manufacturing Technology, 2016, 84(5-8):1391-1411. [5] Hedayati R , Jedari Salami S , Li Y , et al. Semianalytical Geometry-Property Relationships for Some Generalized Classes of Pentamodelike Additively Manufactured Mechanical Metamaterials[J]. Physical Review Applied, 2019, 11(3). [6] Tancogne-Dejean, Thomas, Spierings, Adriaan B, Mohr, Dirk. Additively-manufactured metallic micro-lattice materials for high specific energy absorption under static and dynamic loading[J]. Acta Materialia, 116:14-28. [7] Neff C. Mechanical Properties of Laser-Sintered-Nylon Diamond Lattices[J]. 2015. [8] Li S J , Murr L E , Cheng X Y , et al. Compression fatigue behavior of Ti-6Al-4V mesh arrays fabricated by electron beam melting[J]. Acta Materialia, 2012, 60(3):793-802. [9] Epasto G , Palomba G , D'Andrea D , et al. Ti-6Al-4V ELI microlattice structures manufactured by electron beam melting: Effect of unit cell dimensions and morphology on mechanical behaviour[J]. Materials Science and Engineering: A, 2019, 753:31-41. [10] Pham M S , Liu C , Todd I , et al. Damage-tolerant architected materials inspired by crystal microstructure[J]. Nature, 2019, 565(7739):305-311. [11] Yan C , Hao L , Hussein A , et al. Advanced lightweight 316L stainless steel cellular lattice structures fabricated via selective laser melting[J]. Materials Design, 2014, 55:533-541.[12] Deshpande V S , Ashby M F , Fleck N A . Foam topology: bending versus stretching dominated architectures[J]. Acta Materialia, 2001, 49(6):1035-1040. [13] Pattanayak D K , Fukuda A , Matsushita T , et al. Bioactive Ti metal analogous to human cancellous bone: Fabrication by selective laser melting and chemical treatments[J]. Acta Biomaterialia, 2011, 7(3):1398-1406. [14] Xiao D M , Yang Y Q , Su X B , et al. Study on Cellular Structures as the Core Architectures of Parts Based on Selective Laser Melting[J]. Advanced Materials Research, 2012, 538-541:1904-1907. [15] 王海亮. 基于选择性激光熔化技术的Ti6Al4V多孔结构力学性能研究[D]. [16] 白利硕. 钛合金三维点阵结构制备和力学行为研究[D]. 北京交通大学, 2015.[17] 胡文波. 轻质点阵结构多尺度并发优化设计研究[D]. 大连理工大学, 2013. 请同学参考以上文献,继续独立查阅文献并补充。
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