主要论文:
[1] Ziqing Hao; Hongjun Ke; Na Li; Xiaoyu Wang; Jinming Li, Liu Liu*, A novel method for the characterization of through-thickness shear constitutive behavior of composites, Composites Science and Technology , 2023, 233:109919.
[2] Gaojian Wei; Ziqing Hao; Guangchang Chen; Hongjun Ke; Linlin Deng, Liu Liu*,Rapid assessment of out-of-plane nonlinear shear stress–strain response for thick-section composites using artificial neural networks and DIC, Composite Structures, 2023, 310:116770.
[3]Jinming Li; George Kardomateas; Liu Liu*, Vibration analysis of thick-section sandwich structures in thermal environments, International Journal of Mechanical Sciences, 2023, 241:107937.
[4]Ziqing Hao, Guangchang Chen, Hongjun Ke, Linlin Deng, Liu Liu*,Characterization of out-of-plane tensile stress–strain behavior for GFRP composite materials at elevated temperatures, Composite Structures, 2022, 290:115477.
[5]数字图像相关技术在复合材料本构参数识别中的应用,北京, 冶金出版社, 30万字, 2021.
[6]Linlin Deng; Ziqing Hao; Lei Zhang; Liu Liu*, Experimental and numerical investigation of progressive damage and failure behavior for 2.5D woven alumina fiber/silica matrix composites under a complex in-plane stress state, Composite Structures, 2021, 270(2021):114032.
[7] Ziqing Hao; Xiaohui Ji; Linlin Deng; Hongjun Ke; Liu Liu*, Measurement of multiple mechanical properties for polymer composites using digital image correlation at elevated temperatures, Materials &Design, 2021, 198(2021):109349.
[8]陆毛须;姬晓慧;郝自清;张磊;刘刘*, 复杂面内应力状态下平面编织高铝纤维增强氧化铝基复合材料强度及疲劳寿命预测方法,复合材料学报, 2021,38(0):1-15.
[9]贺体人;刘刘*;徐吉峰,数字图像相关方法辅助的IM7/8552碳纤维/环氧树脂复合材料单向带层合板沿厚度方向非线性本构参数识别,复合材料学报, 2021,38(1):177-185.
[10]Jin-ming Li; Banghua Zhao; Hao Cheng; George Kardomateas; Liu Liu*, Nonlinear dynamic response of a sandwich structure with flexible core in thermal environments, Journal of Sandwich Structures and Materials, 2020, DOI: 10.1177/1099636220930981.
[11]刘刘,姬晓慧,郝自清,曲宏亮,贺体人, 数字图像相关技术在多孔气凝胶基复合材料弹性力学常数识别中的应用, 北京理工大学学报, 2020, 40(10):1033-1042.
[12]Xiao-hui Ji, Zi-qing Hao, Li-jun Su, Ti-ren He, Liu Liu*,Characterizing the constitutive response of plain-woven fibre reinforced aerogel matrix composites using digital image correlation, Composite Structures, 2020, 234(15), 111652.
[13]Liu Liu*;Jinming Li; G Kardomateas, Nonlinear vibration of a composite plate to harmonic excitation with initial geometric imperfection in thermal environments, Composite Structures, 2019, 209:401-423.
[14] Liu Liu*; Jian Ren; Ti-Ren He; George Kardomateas, Nonlinear dynamic response of acoustically excited and thermally loaded composite plates resting on elastic foundations, International Journal of Solids and Structures, 2018, 148-149:44-66.
[15]Tiren He;Liu Liu*,Andrew Makeev. Uncertainty analysis in composite material properties characterization using digital image correlation and finite element model updating, Composite Structures, 2018, 184:337-351.
[16]Tiren He;Liu Liu*;Andrew Makeev;Brian Shonkwiler. Characterization of stress–strain behavior of composites using digital image correlation and finite element analysis, Composite Structures, 2016, 140:84-93.
[17] Liu Liu*; Bing-Yang Lv; Yong-Shan Li. Dynamic response of acoustically excited plates resting on elastic foundations in thermal environments, Composite Structures, 2016, 156(15):35-46.
[18] Liu Liu*; Bing-Yang Lv; Tiren He. The stochastic dynamic snap-through response of thermally buckled composite panels, Composite Structures, 2015, 131(1):344-355.
[19]Paige Carpentier; Andrew Makeev; Liu Liu*; Brian Shonkwiler. An Improved Short-Beam Method for Measuring Multiple Constitutive Properties for Composites, Journal of Testing and Evaluation, 2015, 44(1):1-14.
[20]J. W.Holmes*; Liu Liu; Bent F. Sørensen; Søren Wahlgren. Experimental approach for mixed-mode fatigue delamination crack growth with large-scale bridging in polymer composites, Journal of Composite Materials, 2014, 45(25):3111-3128.
[21] Liu Liu*; Qiong Guo; Tiren He. Thermal-Acoustic Fatigue of a Multilayer Thermal Protection System in Combined Extreme Environments, Advances in Mechanical Engineering, 2014. doi:10.1155/2014/176891.
[22]C.W. Lee; Liu Liu*; J. W. Holmes. Development of a fatigue crack growth testing apparatus and its application to thin titanium foil, Fatigue & Fracture of Engineering Materials & Structures, 2013, 36:1187-1198.
[23] L.Liu; N.S.Husseini; C.J.Torbet; W.-K.Lee; R.Clarke; J.W.Jones; T.M.Pollock. In situ synchrotron X-ray imaging of high-cycle fatigue crack propagation in single-crystal nickel-base alloys, Acta Materialia, 2011, 59(13): 5103-5115.
部分科研项目:
1、 军科委,基础加强计划重点基础研究项目子课题,xxxx三维本构关系及损伤容限快速分析方法,2019.12~2024.12,300万,在研,主持。
2、北京空天技术研究所,国家重大专项子课题,xxxx基元件动强度评价方法深化研究,2020.9~2022.12,30万,在研,主持
3、北京空天技术研究所,新体系防隔热一体化材料力学性能预示模型研究,2022.12~2023.12,40万,在研,主持
4、中国航发北京航空材料研究院,陶瓷基复合材料高温及其损伤表征试验技术开发,2022.10~2024.10,30万元,在研,主持
5、国家自然科学基金委员会,“叶企孙”科学基金,可重复使用轻质热防护材料失效机理及其评价方法研究,2023.1~2026.12,259万,参与,个人承担经费:65万元,在研
6、航天特种材料及工艺技术研究所,复合材料高温力学性能表征,2020.1~至今,110万元,在研,主持
7、北京强度环境研究所,隔热瓦-应变垫典型结构元件的力学特性及疲劳分析,2022.10~2022.12,35万元,已结题,主持
8、北京空天技术研究所,国家重大专项子课题,xxxx基元件动强度评价方法研究,2019.9~2020.8,50万,已结题,主持
9、可靠性与环境工程技术国防重点实验室,开放课题项目,热防护系统结构复杂载荷作用下动响应分析方法研究,2019.1~2020.12,22万元,已结题,主持
10、北京空天技术研究所,国家重大专项子课题,xxxxxx评定方法及热结构损伤容限分析方法研究,2018.9~2019.8,45万,已结题,主持
11、北京空天技术研究所,国家重大专项子课题,xxxxx性能测试及损伤本构研究,2017.9~2018.8,75万,已结题,主持
12、国家自然科学基金委员会,面上项目,各向异性复合材料三维非线性本构行为的实验研究,2015.1~2018.12,86万元,已结题,主持
13、 国家自然科学基金委员会,青年科学基金项目,高超声速飞行器热防护系统金属蜂窝结构高温耐久性问题研究,2011.01~2013.12,25万元,已结题,主持
14、北京空天技术研究所,整体式TPS结构以及舱段结构热环境下结构动力学分析计算与试验,2017.1~2020.12,40万元,已结题,主持
15、科技工程中心,国家重大专项,xxxxx动力学分析方法研究,2011.1~2016.12,780万,参与,个人承担经费:138万元,已结题
专利情况:
已授权专利:
1、发明专利,一种用于测量复合材料面外拉伸力学性能的装置及方法,专利号:2021107982843
2、发明专利,一种用于复合材料层合板高温压缩力学性能测试的夹具,专利号:2019106550525
3、实用新型专利,一种用于材料高温力学性能测试的高温加热炉装置,专利号:2019212409154
4、实用新型专利,一种力学性能测试装置及设备,专利号:2019223287451
5、实用新型专利,一种厚截面复合材料面外剪切力学性能测试装置,专利号:2020201890961
公开实审专利:
1、发明专利,一种用于材料高温力学性能测试的高温加热炉装置,专利号:2019107105488
2、发明专利,一种力学性能测试装置、设备及方法,专利号:2019113374693
3、发明专利,一种厚截面复合材料面外剪切力学性能测试装置及方法,专利号202010105209X
4、发明专利,一种用于测量复合材料面外拉伸力学性能的装置及方法,专利号:2021107982843