材料基因组计划旨在变革材料传统研发模式,从而缩短材料研发周期并降低其研发成本.主要从航空材料领域对材料基因组技术需求的角度,对材料基因组技术的具体内涵进行阐述与讨论.提出发展材料基因组技术需要建设的主要内容包括高通量计算、高通量实验、以及材料信息学与数据库平台.在发展方向上,提出发展材料信息学与数据库、集成计算材料设计、材料虚拟工艺、材料虚拟服役四方面技术与能力.
参考文献
| [1] | Julie A. Christodoulou.Integrated Computational Materials Engineering and Materials Genome Initiative: Accelerating Materials Innovation[J].Advanced Materials & Processes,20133(3):28-31. |
| [2] | G.B. Olson.Genomic materials design: The ferrous frontier[J].Acta materialia,20133(3):771-781. |
| [3] | G.B. Olson;C.J. Kuehmann.Materials genomics: From CALPHAD to flight[J].Scripta materialia,2014:25-30. |
| [4] | Daniel G. Backman;Daniel Y. Wei;Deborah D. Whitis.ICME at GE: Accelerating the Insertion of New Materials and Processes[J].JOM,200611(11):36-41. |
| [5] | Guevenc, O.;Roters, F.;Hickel, T.;Bambach, M..ICME for Crashworthiness of TWIP Steels: From Ab Initio to the Crash Performance[J].JOM,20151(1):120-128. |
| [6] | Jitesh H. Panchal;Surya R. Kalidindi;David L. McDowell.Key computational modeling issues in Integrated Computational Materials Engineering[J].Computer-Aided Design,20131(1):4-25. |
| [7] | 刘梓葵.关于材料基因组的基本观点及展望[J].科学通报,2013(35):3618-3622. |
| [8] | Curtarolo, S.;Setyawan, W.;Wang, S.;Xue, J.;Yang, K.;Taylor, R.H.;Nelson, L.J.;Hart, G.L.W.;Sanvito, S.;Buongiorno-Nardelli, M.;Mingo, N.;Levy, O..AFLOWLIB.ORG: A distributed materials properties repository from high-throughput ab initio calculations[J].Computational Materials Science,2012:227-235. |
| [9] | 王曦;汪小我;王立坤;冯智星;张学工.新一代高通量RNA测序数据的处理与分析[J].生物化学与生物物理进展,2010(8):834-846. |
| [10] | 滕晓坤;肖华胜.基因芯片与高通量DNA测序技术前景分析[J].中国科学C辑,2008(10):891-899. |
| [11] | 杜冠华.创新药物研究与高通量筛选[J].中国新药杂志,2001(8):561-565. |
| [12] | 王卓;杨小渝;郑宇飞;雍岐龙;苏航;杨才福.材料基因组框架下的材料集成设计及信息平台初探[J].科学通报,2013(35):3733-3742. |
| [13] | Stefano Curtarolo;Gus L.W. Hart;Marco Buongiorno Nardelli.The high-throughput highway to computational materials design[J].Nature materials,20133(3):191-201. |
| [14] | Spencer PJ.A brief history of CALPHAD[J].Calphad: Computer Coupling of Phase Diagrams and Thermochemistry,20081(1):1-8. |
| [15] | 苏航,柴峰,王卓,潘涛,杨才福.CALPHAD热力学计算及其在钢铁新产品研发中的应用[C].2010中国材料研讨会论文集,2010:1-10. |
| [16] | 王绍青;叶恒强.晶体材料基因组问题第一原理计算研究[J].科学通报,2013(35):3623-3632. |
| [17] | Andersson JO.;Helander T.;Hoglund LH.;Shi PF.;Sundman B..THERMO-CALC & DICTRA, computational tools for materials science[J].Calphad: Computer Coupling of Phase Diagrams and Thermochemistry,20022(2):273-312. |
| [18] | Borgenstam A.;Engstrom A..DICTRA, a Tool for Simulation of Diffusional Transformations in Alloys[J].Journal of Phase Equilibria,20003(3):269-280. |
| [19] | Furrer, D.U..Application of phase-field modeling to industrial materials and manufacturing processes[J].Current opinion in solid state & materials science,20113(3):134-140. |
| [20] | 赵继成.材料基因组计划中的高通量实验方法[J].科学通报,2013(35):3647-3655. |
| [21] | X -D. Miang.COMBINATORIAL MATERIALS SYNTHESIS AND SCREENING An integrated Materials Chip Approach to Discovery and Optimization of Functional Materials[J].Annual review of materials research,19990(0):149-171. |
| [22] | Rajan K.Combinatorial materials sciences: Experimental strategies for accelerated knowledge discovery[J].Annual review of materials research,20080(0):299-322. |
| [23] | 高琛.发现和优化新材料的集成材料芯片方法[J].物理,1999(11):675. |
| [24] | 罗岚;徐政;许业文;刘庆峰;刘茜.物理气相法制备材料芯片的发展[J].材料导报,2004(2):69-71,64. |
| [25] | 刘茜;陈伟;刘庆峰;归林华;朱丽慧;王利.组合材料芯片技术应用最新进展--新型合金材料的快速发现和优选[J].科技导报,2007(23):64-68. |
| [26] | 朱丽慧;朱硕金;刘茜;刘庆峰;王利.组合材料芯片技术及其在金属材料研究中的应用[J].机械工程材料,2008(1):1-4. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%