在国内外期刊发表研究论文75篇，申请发明专利7项，授权5项。

1.     Jia Lei,Wenguang Zhu,Lei Chen,Qiaoyan Sun,Lin Xiao,Jun Sun. Deformation behaviour and microstructural evolution during the hot compression of Ti-5AI4Zr8Mo7V alloy.Materials Today Communications . 23(2020) 10087.

2.     王文婷，李沛，寇文娟，孙巧艳，刘彬，肖林，孙军。时效温度对Ti1023和Ti5553合金微观组织与析出硬化的影响规律。稀有金属材料与工程，2020.5。

3.     Y. Yang, H. L. Zhang, Q. Sun, Q.-M. Hu, X. D. Ding, Y. Wang, L. Vitos, Ab initio study of the elastic properties of body-centered cubic Ti-Mo-based alloys, Computational Materials Science 172, 109320 (2020).

4.    Wenguang Zhu，JiaLei，Zhixin Zhang，Qiaoyan Sun，Wei Chen，Lin Xiao，JunSun. Microstructural dependence of strength and ductility in a novel high strength β titanium alloy with Bi-modal structure.Materials Science and Engineering:A Volume 762, 5 August 2019, 138086

5.    Wen guang ZHU, Pei LI, Xun SUN, Wei CHEN, Hua-lei ZHANG, Qiao-yan SUN, Bin LIU, Lin XIAO, Jun SUN.Precipitation response and hardening behaviors of Fe-modified Ti5553 alloy. Transactions of Nonferrous Metals Society of China.Volume 29, Issue 6, July 2019, Pages 1242-1251

6.   Zhu, W., Lei, J., Tan, C., Sun, Q., Chen, W., Xiao, L., et al. (2019). A novel high-strength β-Ti alloy with hierarchical distribution of α-phase: The superior combination of strength and ductility. Materials & Design, 168, 107640.

7.   Wen Guang Zhu，Wenjuan Kou ,changsheng Tan,Boyan Zhang,Wei Chen，Qiaoyan Sun.Face centered cubic substructure and improved tensile property in a novel β titanium alloy Ti–5Al–4Zr–10Mo–3Cr .Materials Science and Engineering: A Volume 771, 13 January 2020.

8.   Wenjuan Kou,Qiaoyan Sun,Lin Xiao,Jun Sun.Coupling effect of second phase and phase interface on deformation behaviours in microscale Ti-55531 pillars. Journal of Alloys and Compounds 820:153421

9.   Wenjuan Kou,Qiaoyan Sun, Lin Xiao, and Jun Sun. Plastic deformation-induced HCP-to-FCC phase transformation in submicron-scale pure titanium pillars.Metals & corrosion,2019

10.   KOU W, SUN Q, XIAO L, et al. Superior plasticity stability and excellent strength in Ti-55531 alloy micropillars via harmony slip in nanoscale α/β phases[J]. Scientific Reports, 2019,9(1).

11.   Chao Xin,Qiaoyan sun,and Jun Sun.Synergetic strengthenging of grain refinement and texture in gradient zircaloy-4 by surface mechanical rolling treatment. Journal of Materials Engineering and Perfomance,2019.

12.  Chao Xin,Dan Yang,Qianyan Sun.Thermal stability of nanogradient microstructure produced by surface mechanical rolling treatment in Zircaloy-4.Journal of Materials Science volume 55, pages4926–4939(2020).

13.  Xin Chao,Sun Qiaoyan, Xiao Lin,Sun Jun.Schmid factor maps for predicting slip and twinning behaviors in zirconium.Rare Metal Materials and Engineering，2019,48(8):2400-2405.

14.  李沛，高婷，寇文娟，孙巧艳，肖林，孙军。时效过程中ω相辅助α相形核及α相对Ti-1300合金力学性能的影响。中国有色金属学报，2019.05.09

15.  Pei Li,Xun Sun,Tianlong Zhang,Hualei Zhang ,Dong wang,Qiaoyan Sun, Lin Xiao and Jun Sun.Adaptive Volume Control in Titanium Alloy for High Temperature Performance.Materials12(23):3950.

16.  Pei Li,Qiaoyan Sun,Lin Xiao,Jun Sun.Tuning the morphology of Ti-5Al-5Mo-5V-3Cr-1Zr-alloy:From brittle to ductile fracture.Materials Sceience &Engineering A769(2020)138487

17.   Pei Li,Tianlong Zhang,Xun Sun,Hualei Zhang,Dong Wang,Qiaoyan Sun,Lin Xiao,Jun sun.Sedongdary hardening behavior in Ti alloy.Materials science &Engineering A 759(2019)640-647.

18.  LIU S, SUN Q, WANG J, et al. Charge imbalance induced oxygen-adsorption enhances the gas-sensing properties of Al-doped SnO2 powders[J]. Journal of Physics and Chemistry of Solids, 2019,124:163-168.

19.  LIU S, SUN Q, WANG J, et al. How Cu doping improves the interfacial wettability between Ag and SnO2 of Ag/SnO2 contact material[J]. Journal of Alloys and Compounds, 2019,792:1248-1254.

20.  PAN Y, SUN Q, XIAO L, et al. Plastic deformation behavior and microscopic mechanism of metastable Ti-10V-2Fe-3Al alloy single crystal pillars orientated to <011>β in submicron scales Part I: Double size effects and martensitic transformation prediction[J]. Materials Science and Engineering: A, 2019,743:798-803.

21.  PAN Y, SUN Q, XIAO L, et al. Plastic deformation behavior and microscopic mechanism of metastable Ti-10V-2Fe-3Al alloy single crystal pillars orientated to <011>β in submicron scales Part II: Phase transformation dependence of size effect and deformation mechanism[J]. Materials Science and Engineering: A, 2019,743:804-810.

22.  Pan, Y., Wu, H., Wang, X., Sun, Q., Xiao, L., Ding, X., et al. (2019). Rotatable precipitates change the scale-free to scale dependent statistics in compressed Ti nano-pillars. Scientific Reports, 9(1).

23.  孙巧艳, 杜勇, 刘立斌,等. 高性能钛合金的关键“基因”及高通量实验与计算技术的应用[J]. 中国材料进展, 2018(4).

24. Changsheng Tan, Qiaoyan Sun, Lin Xiao, Yongqing Zhao, Jun Sun. Cyclic deformation and microcrack initiation behavior during 

      stress controlled high-cycle fatigue in a titanium alloy, Materials Science and Engineering A, 711C (2018) 212-222 

25. Changsheng Tan, Qiaoyan Sun, Lin Xiao, Yongqing Zhao, Jun Sun. Characterization of deformation in primary α phase and crack

      initiation  and propagation  of TC21 alloy using in situ SEM experiments, Materials Science and Engineering A, 725C (2018) 33-42 

26. Changsheng Tan, Qiaoyan Sun, Lin Xiao, Yongqing Zhao, Jun Sun. Comparison of fatigue crack initiation behavior in different 

      microstructures of TC21 titanium alloy, 12th International Fatigue Congress, MATEC Web of Conferences 165, 15006 (2018).

27. Qiaoyan Sun, Changsheng Tan, Lin Xiao, Jun Sun. Effect of size of alpha phases on cyclic deformation and fatigue crack initiation

      during fatigue of an alphabeta titanium alloy, 12th International Fatigue Congress, MATEC Web of Conferences 165, 04014 (2018). 

28.  Bingjie Zhang, Tao Yang, Mingda Huang, Dong Wang, Qiaoyan Sun, Yunzhi Wang, Jun Sun. Design of uniform nano α precipitates in a pre-deformed β-Ti alloy with high mechanical performance[J]. Journal of Materials Research and Technology, 2018

29.  Chao Xin, Qiaoyan Sun, Lin Xiao, Jun Sun. Biaxial fatigue property enhancement of gradient ultra-fine-grained Zircaloy-4 prepared by surface mechanical rolling treatment[J]. J Mater Sci, 2018(53): 12492.

30. Changsheng Tan, Qiaoyan Sun, Lin Xiao, Yongqing Zhao, Jun Sun. Slip transmission behavior across α/β interface and strength 

      prediction with a modified rule of mixtures in TC21 titanium alloy, Journal of Alloys and Compounds, 724 (2017) 112-120 

31.  辛超, 徐巍, 孙巧艳,等. 表面机械滚压对Zr-4合金组织和力学性能的影响[J]. 稀有金属材料与工程, 2017(7):1954-1960.

32.  宋静雯，谭长生，孙巧艳，肖林，赵永庆，孙军，等温淬火对TC21钛合金微观组织和力学性能的影响，稀有金属材料与工程，2017

33.  陈威, 姚姗姗, 刘若蕾,孙巧艳，肖林，孙军. Ti-10V-2Fe-3Al合金低温时效的相变行为及其对力学性能的影响[J]. 稀有金属材料与工程, 2016, 45(7):1726-1731.

34.  Wei Chen, Jinyu Zhang, Cao Shuo, Yan Pan, Mingda Huang, Qingmiao Hu, Qiaoyan Sun, Lin Xiao, Jun Sun. Strong deformation anisotropies of ω -precipitates and strengthening mechanisms in Ti-10V-2Fe-3Al alloy micropillars: Precipitates shearing vs precipitates disordering[J]. Acta Materialia, 2016, 117:68-80.

35.  Changsheng Tan, Xiangli Li, Qiaoyan Sun, Lin Xiao, Yongqing Zhao , Jun Sun. Effect of  -phase morphology on low-cycle fatigue behavior of TC21 alloy. International Journal of Fatigue. 75 (2015) 1–9.

36.  Yan-fei YIN, Wei XU, Qiao-yan SUN, Lin XIAO, Jun SUN. Deformation and fracture behavior of commercially pure titanium with gradient nano-to-micron-grained surface layer. Trans. Nonferrous Met. Soc. China 25(2015) 738−747

37.  Junqiang Ren, Qiaoyan Sun, Lin Xiao , Xiangdong Ding, Jun Sun. Phase transformation behavior in titanium single-crystal nanopillars under [0001] orientation tension: A molecular dynamics simulation. Computational Materials Science 92 (2014) 8–12

38.  Junqiang Ren, Qiaoyan Sun, Lin Xiao , Xiangdong Ding, Jun Sun. Size-dependent of compression yield strength and deformation mechanism in titanium single –crystal nanopillars orientated [0001] and [11-20]. Materials Science & Engineering A, Vol.A615 (2014) 22–28.

39.  Qi Wang, Yanfei Yin, Qiaoyan Sun, Lin Xiao and Jun Sun. Gradient Nano Microstructure and Its Formation Mechanism in Pure Titanium Produced by Surface Rolling Treatment. Journal of Materials Research.Vol.29, No.4, 2014: 569-577

40.  陈珊堃，李国君，王家，孙巧艳，肖林，孙军.反复轧制过程中 TA1纯钛板的组织演化及强化机制. 钛工业进展. Vol.31,No.2,(2014)15-20

41.  Junqiang Ren , Qiaoyan Sun, Lin Xiao , Xiangdong Ding,Jun Sun. Molecular dynamics simulations of the size effect of titanium single-crystal nanopillars orientated for double prismatic slips, Philosophical Magazine Letters, Vol. 93, No. 10, 2013，583–590,

42.  Qiaoyan Sun*, Yanling Xu, Lin Xiao, Jun Sun, Peng Ge. The Effect of oxygen on menchanical  properties and deformation modes of Ti-2Al-xO  alloys at Different Temperatures. 12^th World Conference of Titanium, 2012:1187-1190

43.  Wei Chen, Qiaoyan Sun, Lin Xiao, Jun Sun, Deformation-induced grain refinement and amorphization in Ti-10V-2Fe-3Al alloy.Metallurgical and Materials Transactions A, 2012, 43: 316-326.

44.  Wei Chen, Qiaoyan Sun, Lin Xiao, Jun Sun, Thermal stability of bulk nanocrystalline Ti-10V-2Fe-3Al alloy, Materials Science and Engineering A, 2012, 536: 223-230.

45.  Wei Chen, Qiaoyan Sun, Lin Xiao, Jun Sun, Effect of the initial grain size on grain refinement in Ti-2Al-2.5Zr alloy subjected to muti-impact process. Materials Science and Engineering A, 2012, 554: 86-94.

46.  Wei Chen, Qiaoyan Sun, Lin Xiao, Jun Sun, Effect of aging temperature on microstructure and mechanical behavior of aged Ti-10V-2Fe-3Al alloy with prestrain, Proceedings of the 12^th World Conference of Titanium, 2012:1223-1226.

47.  Q.Y. Sun, Q. Guo, Xi.Yao, L. Xiao, Julia R. Greer, J. Sun*. Size Effects in Strength and Plasticity of Single Crystalline Titanium Micro-pillars with Prismatic Slip Orientation. Scripta Materialia, 2011, 65:473-476

48.  陈威，孙巧艳，肖林，孙军，葛鹏.时效工艺对Ti1023合金微观组织和力学性能的影响.稀有金属材料与工程, 2011, 40(4):708-713.

49.  Wei Chen, Qiaoyan Sun, Lin Xiao, Jun Sun, Deformation-induced microstructure refinement in primary alpha phase-containing Ti-10V-2Fe-3Al alloy, Materials Science and Engineering A 527(2010), 7225-7234.(Sci: 664XQ)

50.  Wei Chen, Zhenya Song, Qiaoyan Sun, Lin Xiao, Wenbo She, Jun Sun, Peng Ge, Effect of solution treatment temperature on trigger stress for stress induced martensitic transformation in Ti-10V-2Fe-3Al alloy, Journal of Solid Mechanics and Materials Engineering, 4 (2010) 1296-1305.

51.  Z.Y. Song, Q.Y. Sun, L. Xiao, L. Liu, J. Sun. (2010): Effect of prestrain and aging treatment on microstructures and tensile properties of Ti–10Mo–8V–1Fe–3.5Al Alloy, Materials Science and Engineering A, 527,2010:691–698（Sci：548RL）

52.  H. Wang, Q.Y. Sun, L. Xiao, J. Sun, P. Ge. Low-cycle fatigue behavior and deformation substructure of Ti-2Al-2.5Zr alloy at 298 and 673K. Materials Science and Engineering A，2010, 527(15), 3493-3500. (Sci :597LF)

53.  王航，孙巧艳，肖林，孙军. Ti-2Al-2.5Zr合金的高温低周疲劳行为. 材料研究学报, 2010，24（4），165-168.(EI:20102312987952)

54.  陈威，孙巧艳,肖林，佘文博，孙军，葛鹏, 应变速率对Ti-10V-2Fe-3Al合金应力诱发马氏体行为的影响. 中国有色金属学报，2010，20（11）2124－2129。

55.  陈威，孙巧艳，肖林，孙军，葛鹏,时效工艺对Ti1023合金微观组织和力学性能的影响. 稀有金属材料与工程,（正在出版）20.宋振亚，孙巧艳，肖林，孙军，葛鹏. 预变形对TB3合金时效析出行为及其力学性能的影响. 稀有金属材料与工程, 2010, 5: 791.

56.  Z. Y. Song, Q. Y. Sun, L. Xiao, L. Liu, et al., The influence of cold prior deformation on precipitation of alpha phase and variation of hardness in Ti-10Mo-8V-1Fe-3.5Al during aging treatment, Journal of Materials Research, 2009,24(2):452(Sci:460SO)

57.  H. WANG, Y.L. XU, Q.Y. SUN, L. XIAO, and J. SUN .Effect of Grain Size and Testing Temperature on Low Cycle Fatigue Behavior and Plastic Deformation Mode of Ti-2Al-2.5Zr. Metallurgical and Materials Transaction A. 40A，2009：2631.（Sci: 501XA）

58.  X Yao, Q Y Sun, L Xiao, J Sun. Effect of Ti₂Cu precipitates on mechanical behavior of Ti-2.5Cu alloy subjected to different heat treatments. Journal of Alloys and Compounds. 484 (2009)：196 (Sci: 513PK)

59.  W. Chen, Z.Y. Song, L. Xiao, Q.Y. Sun, and J. Sun .Effect of prestrain on microstructure and mechanical behavior of aged Ti-10V-2Fe-3Al alloy. Journal of Materials Research. Vol. 24, No. 9, 2009：2899(Sci 491NH)

60.  王航,徐燕灵,孙巧艳,肖林,孙军. 细晶Ti-2Al-2.5Zr合金室温和低温低周疲劳行为及其微观结构研究. 金属学报. Vol.45,(2009):434(Sci: 436QS)

61.  王航，徐燕灵，孙巧艳，肖林，孙军，葛鹏. 温度和氧含量对Ti-2Al合金拉伸力学行为和断裂方式的耦合影响.稀有金属材料与工程. 2010 39（9）1545－1549

62.  Q.Y.Sun, Z.T. Yu , R.H. Zhu. Dynamic fracture toughness of Ti–2.5Cu alloy strengthened with nano-scale particles at room and low temperatures. Materials Science and Engineering A 483–484 (2008)131 (Sci: 303WH)(EI: 20081611201870)

63.  孙巧艳，肖林，孙军，葛鹏，Sn, Nb, Mo等元素对钛合金微观组织和力学性能的影响，稀有金属材料与工程，2008，37（增刊3）：658

64.  王航，孙巧艳，肖林，孙军，不同晶粒尺寸Ti-2Al-2.5Zr低周疲劳变形行为，稀有金属材料与工程，2008，37（增刊3）：725

65.  宋振亚，孙巧艳，肖林，刘力，王航，陈威，孙军，葛鹏，弹性压应力对TB3合金α相时效析出行为的影响，稀有金属材料与工程，2008，37（增刊3）：700姚希，孙巧艳，肖林，孙军，固溶时效双重处理强化Ti-2.5Cu合金力学行为，稀有金属材料与工程，2008，37（增刊3）：713

66.  Sun Qiaoyan, Lin Xiao, Jun Sun.Impact toughness of Titanium Alloys with Different strengthening methods. Key Engineering Materials. Vols.353-358,2007:433-437(Sci: BHD07, Ei: 20074710927022)

67.  Q Y Sun, R H Zhu, Z T.Yu, H C Gu. Mechanical Behavior and Deformation modes of commercially pure titanium under impact tensile Load. Practical Metallography. Vol.43, 2006:629-636（Sci: 130QJ）

68.  Q.Y.Sun,  Z.T. Yu,  R.H. Zhu,  H.C.Gu . Mechanical Behavior and Deformation Mechanisms of Ti-2.5Cu Alloy Reinforced by Nano-scale Precipitates at 293K and 77K. Materials Science and Engineering A,Vol.364, No1-2,2004:159-165（光盘版Sci收录源期刊）

69.  Q.Y.Sun,  Z.T. Yu,  R.H. Zhu,  H.C.Gu . Mechanical Behavior and Deformation Mechanisms of Ti-2.5Cu Alloy Reinforced by Nano-scale Precipitates at 293K and 77K. Materials Science and Engineering A,Vol.364, No1-2,2004:159-165

70.  SUN Qiao-yan ,  ZHU Rui-hua,  GU Hai-cheng. Microstructure and properties of submicron-scale TiC particle reinforced titanium matrix composites by shock wave consolidation.  Transactions of Nonferrous Metals Society of China, Vol.14, No.3,2004:537-542

71.  Q.Y.Sun, X.P.Song, H.C.Gu. Twinning Induced Plasticity in Commercially Pure Titanium at Cryogenic Temperature. Transaction of Nonferrous Metals Society of China, Vol.11, No.1,2001: 132-134

72.  Q.Y. Sun, X.P.Song, H.C.Gu. Cyclic Deformation Behavior of Commercially Pure Titanium at Cryogenic Temperature. International Journal of Fatigue, Vol.23, 2001:187-191

73.  Q.Y. Sun, H.C. Gu. Tensile and Low-cycle Fatigue Behavior of Commercially and Ti-5Al-2.5Sn Alloy at 293K and 77K. Materials Science and Engineering A, Vol.316, 2001: 80-86

74.  Q.Y. Sun,  R.H.Zhu,  H. C. Gu . Monotonic and Cyclic Behavior of Ti-2.5Cu Alloy at Room Temperature (293K) and 77K. Materials Letters, Vol.54(2-3) 2002:164-168

75.  Q.Y.Sun, S.J.Song, R.H.Zhu, H.C.Gu. Toughening of Titanium Alloys by Twinning and Martensite Transformation. Journal of Materials Science, Vol.37, 2002:2543-2547

申请专利情况   

1. 孙军，陈威，孙巧艳，宋振亚，肖林，余倩，姚希，张德红，张临财. 一种加工微米/亚微米块体试样的方法. 授权号: ZL200810017630.4.

2. 肖林，陈威，孙巧艳，孙军.小能量多次冲击技术制备块体纳米材料的方法.授权号: ZL201010286615.7.

3. 孙巧艳，宋振亚，孙军，肖林，刘力，陈威.一种提高冷成型beta钛合金时效后塑性的热处理工艺.授权号: ZL200810232780.7.

4. 肖林、王启、尹雁飞、孙巧艳、孙军等.一种对金属表面进行梯度纳米化的方法。申请号：201310185394.8

5. 孙巧艳，寇文娟，黄明达，陈威，肖林.一种利用聚焦离子束制备大尺寸透射样品的加工方法. 授权号：ZL 2016 1 0165230.2

6. 孙巧艳，朱文光，肖林.一种超高强度Ti-Al -Zr-Mo-Cr系β钛合金及其热处理工艺.申请号：201710891987.4

7. 孙巧艳，朱文光，肖林，唐可，孙军.一种高强高塑性Ti-Al-Zr-Mo-V系β钛合金及其热处理工艺，授权号：ZL 2017 2017 1 0892027.X