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Hao Gu,Cheng-chuang Li,Chang-hao Dai,Dong-xu Chen,Hong-wei Yang,Guang-bin Cheng(School of Chemistry and Chemical Engineering,Nanjing University of Science and Technology).Divalent nitrogen-rich cationic salts with great gas production capacities[J].Defence Technology,2023,第4期
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Fu-xiang Qiao1,Jing-ping Shi1,2,Xiao-bo Qu1,2,Yong-xi Lyu1,2(School of Automation,Northwestern Polytechnical University;Shaanxi Province Key Laboratory of Flight Control and Simulation Technology).Hardware-in-loop adaptive neural control for a tiltable V-tail morphing aircraft[J].Defence Technology,2023,第4期
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Bhargav Appasani1,Avireni Srinivasulu2,Cristian Ravariu3(Department of Electronics Engineering,Kalinga Institute of Industrial Technology;epartment of Electronics Engineering,K R Mangalam University;Department of Electronic Devices,Circuits and Architectures,Polytechnic University of Bucharest).A high Q terahertz metamaterial absorber using concentric elliptical ring resonators for harmful gas sensing applications[J].Defence Technology,2023,第4期
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Hongxu Wang,Dakshitha Weerasinghe,Paul J.Hazell,Damith Mohotti,Evgeny V.Morozov,Juan P.Escobedo-Diaz(School of Engineering and Information Technology,The University of New South Wales,Canberra,ACT).Ballistic impact response of flexible and rigid UHMWPE textile composites:Experiments and simulations[J].Defence Technology,2023,第4期
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Yong Kou1,Yi Wang2,Jun Zhang3,Kai-ge Guo4,Xiao-lan Song1(School of Environment and Safety Engineering,North University of China;School of Materials Science and Engineering,North University of China,Taiyuan;School of Ordance Engineering,Naval University of Engineering;School of Chemical Engineering,Nanjing University of Science and Technology).Iron/aluminum nanocomposites prepared by one-step reduction method and their effects on thermal decomposition of AP and AN[J].Defence Technology,2023,第4期
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Wojciech Przyby?1,Adam Januszko1,Norbert Radek2,Marcin Szczepaniak1,Krzysztof A.Bogdanowicz1,Ireneusz Plebankiewicz1,Bogus?awa Szczodrowska1,Robert Mazurczuk1(Military Institute of Engineer Technology;Kielce University of Technology,Faculty of Mechatronics and Mechanical Engineering).Microwave absorption properties of carbonyl iron-based paint coatings for military applications[J].Defence Technology,2023,第4期
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Bidong Wu1,Jinqiang Zhou1,Yunyan Guo1,Rui Zhu1,Dong Wang2,Chongwei An1,Jingyu Wang1(School of Environmental and Safety Engineering,Shanxi Engineering Technology Research Center for Ultrafine Powder,North University of China,030051,Taiyuan;ShanXi JiangYang XingAn Civil Explosive Equipment Co.,Ltd, 030041, Taiyuan).Preparation of HMX/TATB spherical composite explosive by droplet microfluidic technology[J].Defence Technology,2023,第3期
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Qi Han1,2,3,Bo Pang2,4,Sen Li1,Ning Li1,Peng-song Guo1,Cheng-li Fan1,Wei-min Li1(Air Defense and Antimissile School, Air Force Engineering University;Graduate School, Air Force Engineering University;Information and Navigation School, Air Force Engineering University;School of Automation Science and Engineering, Xi'an Jiaotong University).Evaluation method and optimization strategies of resilience for air & space defense system of systems based on kill network theory and improved self-information quantity[J].Defence Technology,2023,第3期
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Chao Ge,Die Hu,Jin Wang,Qingbo Yu,Haifu Wang,Yuanfeng Zheng(School of Mechatronical Engineering Beijing Institute of Technology).Trans-scale study on the thermal response and initiation of ternary fluoropolymer-matrix reactive materials under shock loading[J].Defence Technology,2023,第3期
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Jia-shan Cui1,Fang-rui Zhang1,Dong-zhu Feng1,Cong Li2,Fei Li3,Qi-chen Tian4(School of Aerospace Science and Technology, Xidian University;China Academy of Space Technology, Xian Branch;China Academy of Launch Vehicle Technology;Aerospace Information Research Institute, Chinese Academy of Sciences).An improved SLAM based on RK-VIF:Vision and inertial information fusion via Runge-Kutta method[J].Defence Technology,2023,第3期
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Hong-hui Xu,Xin-qing Wang,Dong Wang,Bao-guo Duan,Ting Rui(Department of Mechanical Engineering, College of Field Engineering, Army Engineering University of PLA).Object detection in crowded scenes via joint prediction[J].Defence Technology,2023,第3期
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Chao Ge,Zhuojun Qu,Jin Wang,Die Hu,Yong Zhang(School of Mechatronical Engineering Beijing Institute of Technology).Study on jet formation behavior and optimization of trunconical hypercumulation shaped charge structure[J].Defence Technology,2023,第3期
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Xinli Ye1,2,Junxiong Zhang3,Zhaofeng Chen4,Junfeng Xiang1,Yun Jiang5,Faqin Xie1,Xiaomin Ma6(School of Civil Aviation, Northwestern Polytechnical University;Suzhou Qinyun Fiber Assemblies Technology Co. LTD;School of Textile and Clothing, Nantong University;College of Materials Science and Technology, Nanjing University of Aeronautics and Astronautics;College of Textile Science and Engineering, Jiangnan University;National Equipment New Material & Technology (Jiangsu)Co. LTD).Microwave absorption properties of Ni/C@SiC composites prepared by precursor impregnation and pyrolysis processes[J].Defence Technology,2023,第3期
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Hai-tao Li,Xin-ying Zheng,Chi Zhang,Zhi-yuan Mei,Xue-fei Bai,Kai Liu(College of Naval Architecture and Ocean Engineering, Naval University of Engineering).Sagging damage characteristics of hull girder with trapezoidal cross-section subjected to near-field underwater explosion[J].Defence Technology,2023,第3期
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Gursahib Singh Bhatia,Arockiarajan A.(Chennai India).Effect of interactions of two holes on tensile behavior of patch repaired carbon/epoxy woven laminates[J].Defence Technology,2023,第3期
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Kai Ding,Xin-Jie Wang,Zhuo-Ping Duan,Yan-Qing Wu,Feng-Lei Huang(State Key Laboratory of Explosion Science and Technology Beijing Institute of Technology).Shock response of cyclotetramethylene tetranitramine(HMX) single crystal at elevated temperatures[J].Defence Technology,2023,第3期
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Yang Liu1,Cong-qing Wang1,Yong-jun Zhou2(College of Automation Engineering, Nanjing University of Aeronautics and Astronautics;Science and Technology on Near-Surface Detection Laboratory).Camouflaged people detection based on a semi-supervised search identification network[J].Defence Technology,2023,第3期
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Zeinab Y. Alsmadi,Mohamed A. Bourham(Department of Nuclear Engineering, North Carolina State University, Raleigh).Shielding and corrosion properties of the Alloy 709 as canister material for spent nuclear fuel dry casks[J].Defence Technology,2023,第3期
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Shi-qi Liu1,Bing Li2,3,Bo Zhao1,Lei Huang1,Yue-zhou Wu4,Wei-min Bao1,5(Guangdong Key Laboratory of Intelligent Information Processing College of Electronic and Information Engineering Shenzhen University ;School of Electrical Engineering, Southwest Jiaotong University;State Key Laboratory of Millimeter Waves, Southeast University;School of Computer Science, Civil Aviation Flight University of China;China Aerospace Science and Technology Corporation).A super resolution target separation and reconstruction approach for single channel sar against deceptive jamming[J].Defence Technology,2023,第3期
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Le Qi1,Shi-lin Zhang1,Hao Yuan1,Zhong-liang Ma1,Zhong-liang Xiao2(School of Environment and Safety Engineering, The North University of China, Taiyuan;School of Chemical Engineering, The Nanjing University of Science and Technology).A novel modification method for the dynamic mechanical test using thermomechanical analyzer for composite multi-layered energetic materials[J].Defence Technology,2023,第3期
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Justyna Pinkos1,Zbigniew Stempien1,Anna Sm■dra2(Institute of Textile Architecture, Lodz University of Technology;Chair and Department of Forensic Medicine, Medical University of Lodz).Experimental analysis of ballistic trauma in a human body protected with 30 layer packages made of biaxial and triaxial Kevlar? 29 fabrics[J].Defence Technology,2023,第3期
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Shuangyan Wu,Partha Sikdar,Gajanan S. Bhat(Department of Textiles, Merchandising and Interiors, University of Georgia, Athens, GA).Recent progress in developing ballistic and anti-impact materials:Nanotechnology and main approaches[J].Defence Technology,2023,第3期
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Chun-ming Li1,Guang-hui Wang1,Hai-ping Song1,Xu-feng Huang2,Qi Zhou2(China North Vehicle Research Institute;School of Aerospace Engineering, Huazhong Univerisity of Science and Technology).Angular disturbance prediction for countermeasure launcher in active protection system of moving armored vehicle based on an ensemble learning method[J].Defence Technology,2023,第3期
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Ibrahim Goda(Universit′e Bourgogne Franche-Comt′e, FEMTO-ST Institute).Ballistic resistance and energy dissipation of woven-fabric composite targets:Insights on the effects of projectile shape and obliquity angle[J].Defence Technology,2023,第3期
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Galina Eremina,Alexey Smolin(Institute of Strength Physics and Materials Science of Siberian Branch of Russian Academy of Sciences, 2/4, pr.Akademicheskii, Tomsk).Shock-wave impact on the knee joint affected with osteoarthritis and after arthroplasty[J].Defence Technology,2023,第2期
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Duo Zheng1,Yun-fei Zhang2,Fan Li2,Peng Cheng3(UAV Autonomous Control Institute Beijing Institute of Technology;Shanghai Institute of Mechanical and Electrical Engineering;CASIC Research Institute of Intelligent Decision Engineering).UAVs cooperative task assignment and trajectory optimization with safety and time constraints[J].Defence Technology,2023,第2期
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Cheng-kai Pu,Yu Luan,Ming-jun Yi,Zheng-gang Xiao(Key Laboratory of Special Energy Materials, Ministry of Education, School of Chemistry and Chemical Engineering, Nanjing University of Science and Technology).Investigation on thermal characteristics and desensitization mechanism of improved step ladder-structured nitrocellulose[J].Defence Technology,2023,第2期
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Shu-Sen Yuan,Wen-Xiang Deng,Jian-Yong Yao,Guo-Lai Yang(School of Mechanical Engineering, Nanjing University of Science and Technology).Robust adaptive precision motion control of tank horizontal stabilizer based on unknown actuator backlash compensation[J].Defence Technology,2023,第2期
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Yi Fan1,Li Chen2,Jian Hong1,Runqing Yu,Hengbo Xiang1,Qin Fang1(State Key Laboratory of Disaster Prevention & Mitigation of Explosion & Impact, Army Engineering University of PLA;Engineering Research Center of Safety and Protection of Explosion&Impact of Ministry of Education Southeast University;The People's Liberation Army 95338 Troops).Considering explosive charge shape and embedded depth in the design of concrete shelter thickness[J].Defence Technology,2023,第2期
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