【期刊论文】(附全文链接)
1. Ma S, Chen M, Dong Y, Yuan X, Skelton RE.(2024) Statics and dynamics of pulley-driven tensegrity structures with sliding cable modeling[J]. Applied Mathematical Modelling. ( JCR1区,中科院1区)
2. Ma S, Chen M, Zhang H, Skelton RE. (2023) Statics of integrated origami and tensegrity systems. International Journal of Solids and Structures, 279:112361.PDF(JCR1区,ZJUT100)
3. Ma S, Lu K, Chen M, R.E. Skelton (2023)Design and control analysis of a deployable clustered hyperbolic paraboloid cable net[J]. Engineering Structures, 279:115569.PDF (JCR1区,ZJUT100)
4. Ma, S, Chen, Y., Chen, M., & Skelton, R. E. (2023). Equilibrium and stiffness study of clustered tensegrity structures with the consideration of pulley sizes. [J]. Engineering Structures, 282: 115796. PDF(JCR1区,ZJUT100)
5. Dong Y, Yuan X, Ma S, Deng M, Dong S, Samy A. (2023)Automatic construction of tensegrity structures with complex surfaces based on circle packing. Composite Structures, 309:116667. PDF ( JCR1区,中科院1区)
6. Ma S, Chen M, Peng Z, Yuan X, Skelton RE. (2022)The equilibrium and form-finding of general tensegrity systems with rigid bodies[J]. Engineering Structures, 266:114618. PDF (JCR1区,ZJUT100)
7. Ma S., M. Chen and R.E. Skelton(2022), Dynamics and control of clustered tensegrity systems. Engineering Structures. 264: p. 114391. PDF ( JCR1区,ZJUT100)
8. Ma S, Chen M, & Skelton R E. (2022) Tensegrity system dynamics based on finite element method. Composite Structures,280:114838. PDF( JCR1区,中科院1区)
9. Ma S, Yuan X, Deng M, Yang L. (2022)Minimal Mass Design of a New Cable Truss in Two States[J]. Mechanics Research Communications,103995. PDF (JCR2区)
10.Ma, S., M. Chen and R.E. Skelton, (2022) TsgFEM: Tensegrity Finite Element Method. Journal of Open Source Software, 7(75): p. 3390.(开源软件)
11.马烁, 袁行飞, 杨柳. (2021). 预应力索杆结构模型相似理论及其验证. 建筑结构学报, 42(7), 9.(EI)
12.Ma, S., Chen, M., & Skelton, R. E. (2020). Design of a new tensegrity cantilever structure. Composite Structures, 112188. ( JCR1区,中科院1区)
13. Ma, S., Yuan, X.-F., & Samy, A. (2019) Shape optimization of a new tensegrity torus. Mechanics Research Communications, Volume 100(103396) .(JCR2区)
14.Ma, S., Yuan, X.-F., & Xie, S.-D. (2019). A New Genetic Algorithm-based Topology Optimization Method of Tensegrity Tori. KSCE Journal of Civil Engineering, 23(5), 2136–2147.(JCR3区)
15.Jiang, S.-H, Yuan, X.-F., & Ma, S. (2019). Redundancy theory and evaluation index of cable–strut system. Advances in Structural Engineering, 22(9), 2110-2123.(JCR3区)
16.Yuan, X.-F., Ma, S., & Jiang, S.-H. (2017). Form-finding of tensegrity structures based on the Levenberg–Marquardt method. Computers & Structures, 192, 171–180.(JCR1区,ZJUT100)
17.蒋淑慧, 袁行飞, 马烁. (2020)索杆体系冗余特性及评价指标研究[J]. 建筑结构学报, 41(03):132-139(EI)
18.袁行飞,艾科热木江·塞米,马烁. (2019)一致质量矩阵在有限质点法中的应用.华中科技大学学报,2019,47(11): 37-42.(EI)
19.谢胜达, 袁行飞, 马烁. (2019)基于小生境遗传算法的新型环形张拉整体结构拓扑优化. 空间结构,25(04): 35-42.
20.蒋淑慧,袁行飞,马烁. (2018)考虑冗余度的杆系结构构件重要性评价方法. 哈尔滨工业大学学报,50(12): 187-192.(EI)
【会议论文】
1. Ma S, Chen M, Peng Z, et al.; Statics of Tensegrity Systems with Arbitrary Rigid Bodies. IASS Annual Symposium 2022, China, Beijing, 2022
2. Ma S.; Chen M.; Skelton, R. E.; Deployment Analysis of A Clustered Tensegrity Hyperbolic Paraboloid Cable Net. IASS Annual Symposium 2022, China, Beijing, 2022
3. Ma S.; Chen M.; Yuan X.-F.; Skelton, R. E.; Design and analysis of deployable clustered tensegrity cable domes; IASS Annual Symposium 2020/21, UK, Guildford, 2021
4. Ma S.; Chen M.; Skelton, R. E.; Finite element analytical formulation for nonlinear tensegrity dynamics; ICCS23 - 23rd International Conference on Composite Structures & MECHCOMP6 - 6th International Conference on Mechanics of Composites, Porto, Portugal,2020
5. Ma, S., Yuan, X.-F. A New Deployable Tensegrity Torus. 60th Anniversary Symposium of the IASS, Barcelona, 2019
6. 马烁, 袁行飞. 环形张拉整体结构的优化设计,第三届全国空间结构博士生学术论坛,西安,2018
7. Ma, S., Peng, Z.-L. Yuan, X.-F. Numerical Form-finding of Generalized Tensegrity Structures, The 15th International Symposium on Structural Engineering, Hangzhou, 2018
8. Ma, S., Yuan, X.-F. Topology Optimization of cable domes based on genetic algorithm, 13th World Congress on Computational Mechanics, New York, 2018
【申请专利】
1. 袁行飞,蒋淑慧,丁锐,马烁. 一种定量评价空间铰接杆系结构构件重要性的方法,发明专利,ZL201610326844.4, 2019.12.06授权
2. 袁行飞,马烁,艾科热木江·塞米,谢胜达. 一种新型环形张拉整体结构,发明专利,ZL201910021688.4, 2020.08.07 授权
3. 袁行飞,马烁,刘宏创,艾科热木江·塞米. 一种新型可展环形张拉整体结构,发明专利, ZL201910446064.7, 2021.04.27 授权
4. 袁行飞,杨柳,马烁,张威加,邓满宇. 一种测量钢索长期蠕变的装置和方法. 发明专利, ZL202010110212.0 , 2021.08.06授权
5. 马烁,卢凯,袁行飞,周欣竹. 一种基于滑动索的可展马鞍形索网结构. 发明专利,ZL202110480685.4,2022.06.17授权
6. 马烁,卢凯,袁行飞,周欣竹,俞柯翀. 一种滑动索驱动的可展索穹顶结构. 发明专利,CN202110480685.4, 2021.07.27授权
7. 马烁,卢凯,周新竹.一种带刚体的正四面体张拉整体结构. 发明专利,申请号:2022108024441 申请日:2022.07.07 实质审查
【研究成果请详见】
· https://www.researchgate.net/profile/Ma-Shuo-2
· https://scholar.google.com/citations?user=8zPLxxgAAAAJ&hl=en