Article
Engineering, Manufacturing
Xuezhong Zhang, Dong Xiang, Yuanpeng Wu, Eileen Harkin-Jones, Jiabin Shen, Yong Ye, Wei Tan, Junjie Wang, Ping Wang, Chunxia Zhao, Yuntao Li
Summary: By introducing reduced graphene oxide (rGO) decorated with immobilized carbon nanotubes (CNTs) into a thermoplastic polyurethane (TPU) matrix, a conductive nanocomposite was successfully fabricated to produce flexible strain sensors with high sensitivity and stability. The biaxial stretching process plays a crucial role in promoting the dispersion and alignment of the nanofillers, while the synergy between CNTs and rGO nanoparticles affects the resistivity and monitoring range of the sensors. The ability of the sensor to recognize body movements and physiological activities was demonstrated.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2021)
Article
Polymer Science
Yevgen Mamunya, Oleksii Maruzhenko, Roman Kolisnyk, Maksym Iurzhenko, Andrii Pylypenko, Olha Masiuchok, Marcin Godzierz, Igor Krivtsun, Barbara Trzebicka, Sebastien Pruvost
Summary: Electrothermal processes were investigated in pyroresistive composites of high-density polyethylene with carbon black and carbon fibers. The kinetic heating curves showed an exponential dependence with a heating rate constant for each composite. Equilibrium temperature was reached after a short heating time, and decreased with the presence of positive temperature coefficient of resistance (PTC) effect. The composites exhibited self-regulating capability and the equilibrium temperature depended on the applied voltage and electric power with different relationships. An application of using HDPE-CB composite as a heating element for resistance welding was demonstrated.
Article
Nanoscience & Nanotechnology
Pei Xu, Bincheng Huang, Ruobing Tang, Zhenfeng Wang, Jiaying Tu, Yunsheng Ding
Summary: This study focuses on the functionalization and distribution of conductive fillers, as well as the interfacial compatibilization of polymer blends, in order to improve the electrical conductivity and electromagnetic interference shielding efficiency of composites. By modifying the carbon nanotubes (CNTs) with an ionic liquid copolymer and controlling the blending process, selective localization of CNTs at the interphase and the formation of effective conductive networks at the interface were achieved. This resulted in a significant increase in electrical conductivity and a maximum EMI shielding efficiency of 41 dB for the PLA/PCL/PIL/CNT composites.
ADVANCED COMPOSITES AND HYBRID MATERIALS
(2022)
Article
Materials Science, Multidisciplinary
Yadong Wu, Xiuyan Cheng, Shaoyun Chen, Bo Qu, Rui Wang, Dongxian Zhuo, Lixin Wu
Summary: A hybrid fiber mat (i-MBP-PCF) was prepared by depositing multiwalled carbon nanotube buckypaper (i-MBP) on the surface of functionalized CF fabric, showing significant improvement in the interlaminar and electrical properties of carbon fiber reinforced polymer composites. The hybrid fiber mat exhibited enhanced interlaminar shear strength, Mode-II interlaminar fracture toughness, and electrical conductivity compared to CF/EP composite.
MATERIALS & DESIGN
(2021)
Article
Engineering, Manufacturing
Beibei Chen, Jiaye Li, Mengjie Zhang, Zhe Dong, Kan Zhang
Summary: In this study, CNTs were modified by PDA and Ag nanoparticles were grown on their surface to obtain CNT-PDA/Ag composite materials. The decoration of Ag nanoparticles decreased the interaction among CNTs, facilitating their dispersion, and filling CNT-PDA/Ag in PPESK significantly improved its thermal properties and friction-reduction and antiwear performances.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2022)
Article
Materials Science, Composites
Xianyuan Liu, Zilong Wang, Jinsong Sun, Zehua Zhao, Shuyi Zhan, Ying Guo, Heng Zhou, Wenbin Liu, Jun Wang, Tong Zhao
Summary: The study successfully synthesized Al2O3@graphite core-shell particles with excellent thermal conductivity and electrical insulation properties, and fabricated thermally stable phthalonitrile composites, which could potentially be used for high-temperature thermal management applications.
COMPOSITES SCIENCE AND TECHNOLOGY
(2021)
Article
Polymer Science
Zhifeng Wang, Jun Tong, Wei Li, Haichen Zhang, Manfeng Hu, Haichu Chen, Hui He
Summary: In this study, polypropylene/graphite intercalation compound (PP/GIC) composites were prepared at different temperatures through melt mixing, demonstrating improved dispersion and performance at higher temperatures, suggesting potential applications.
Article
Engineering, Manufacturing
Xinhua Wang, You Yuan, Yantai Zhang, Jun Qian, Peiyuan Zuo, Xiaoyun Liu, Qixin Zhuang
Summary: Polymer dielectric materials are widely used in pulsed power technology and high-energy weapon systems. This study presents a method to prepare functional corn-like hybrids consisting of BaTiO3 nanowires (BT) and BNNs nanosheets, which show high discharged energy density, charge and discharge efficiency, and wide temperature dielectric stability. The hybrids provide a promising dielectric nanocomposite candidate for high temperature applications.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2022)
Article
Materials Science, Composites
Shuhang Liu, Yiting Guo, Jianwei Li, Sichen Wu, Jie Xu, Emilia Pawlikowska, Jie Kong, Artur Maciej Rydosz, Mikolaj Szafran, Feng Gao
Summary: Ceramic/polymer dielectric functional composites, specifically the (Ba0.6Sr0.4)TiO3/PEEK (BST/PEEK) composites, were prepared with high frequency stability of the dielectric constant and low dielectric loss via cold-pressing sintering. The optimal properties of the BST/PEEK composites were achieved at a BST concentration of 40 vol% and sintered at 360°C for 1 hour, showing a permittivity of 23, a loss of 0.0065, F(x) <5%, and a dielectric tunability of 11.9%. The study provides insight for developing new composites with low loss and high frequency stability.
COMPOSITES SCIENCE AND TECHNOLOGY
(2022)
Article
Engineering, Multidisciplinary
Tobias Karlsson, Per Hallander, Fang Liu, Thirza Poot, Malin Akermo
Summary: In this study, Vertically Aligned Carbon Nanotube (VACNT) forests are embedded into two different glass fibre/ epoxy composite systems to investigate their sensing capabilities for strain and temperature. Through a comprehensive analysis on nano-, micro-, and mesoscale, it is found that the observed thermoresistive effect is attributed to fluctuation-assisted tunnelling, while the linear piezoresistive effect is due to the intrinsic piezoresistivity of individual carbon nanotubes. The VACNT forests exhibit high flexibility in placement within the structure and reproducibility of sensing sensitivity in both composite systems, providing a robust sensor for strain and temperature.
COMPOSITES PART B-ENGINEERING
(2023)
Article
Engineering, Manufacturing
Lili Song, Yunfeng Guo, Jing Fan, Xinyan Fan, Yanjun Xie, Zefang Xiao, Haigang Wang, Daxin Liang, Yonggui Wang
Summary: In this study, the brittleness and poor antibacterial properties of PLA were improved by modifying Ag-CNCs with alkyl thiol. The composite films showed improved mechanical properties and antibacterial activity.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2022)
Article
Materials Science, Composites
Qi-Kun Feng, Jia-Yao Pei, Yong-Xin Zhang, Dong-Li Zhang, Di-Fan Liu, Jiang-Bo Ping, Zhi-Min Dang
Summary: Dielectric polymers with high energy density have attracted widespread attention in modern electronics and power systems. Improving the energy density of dielectric materials requires thermal treatment to modify the surface roughness of films and reduce local electric field distortion and charge injection. The thermal treated NBR/P(VDF-HFP) films exhibit higher breakdown strength and dielectric permittivity.
COMPOSITES SCIENCE AND TECHNOLOGY
(2022)
Article
Materials Science, Composites
Hui Li, Yuan Liang, Yalong Liu, Siqi Liu, Pengcheng Li, Chaobin He
Summary: This study optimized the microstructure and improved the thermoelectric properties of CNTs/PANI composites by modulating the doping level of PANI, leading to enhanced Seebeck coefficient and power factor. The results demonstrate an effective strategy for improving the thermoelectric performance of CNTs/PANI composites through precise tuning of the doping level.
COMPOSITES SCIENCE AND TECHNOLOGY
(2021)
Article
Engineering, Manufacturing
Cheng Zhang, Youquan Ling, Xueqin Zhang, Mei Liang, Huawei Zou
Summary: This study explored the effect of carbon nanotube (CNTs) reinforced epoxy resin on ultra-thin CFRP composites. It found that the composites had the best performance when the CNTs content was 0.2 wt% and showed significant improvement in the tensile strength, interlaminar shear strength, and compressive strength. Additionally, the composites exhibited excellent thermal conductivity, electrical, and electromagnetic interference shielding effectiveness.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2022)
Article
Mechanics
Taegeon Kil, D. W. Jin, Beomjoo Yang, H. K. Lee
Summary: This study proposes a micromechanical model that considers the curviness of carbon nanotubes and the interfacial resistivity in predicting the electrical conductivity of polymeric composites. Through numerical studies and the use of a genetic algorithm to optimize model parameters, the model closely simulates the effective electrical conductivity of the composites, demonstrating credible accuracy in comparison with experimental measurements.
COMPOSITE STRUCTURES
(2021)
Article
Materials Science, Composites
Xi Liu, Wei Shen, Jincun Fu, Toshiaki Natsuki, Lvtao Zhu
Summary: The 3-D carbon fiber reinforced resin matrix composite tubes were designed and formed using a novel braiding-winding-pultrusion processing technique. The effects of temperature environments on the mechanical responses and damage behaviors of the composite tubes were investigated, and it was found that the structural design of the tubes directly affects their axial bearing capacity.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Weihao Yuan, Ziyang Zhang, Yueshan Li, Yudong Huang, Zhengxiang Zhong, Zhen Hu
Summary: In this study, the simultaneous self-healing of matrix and interface damage of fiber-reinforced composites was achieved by integrating extrinsic self-healing based on microcapsules and internal self-healing based on coordination interaction. The high exothermic action of epoxy resin and mercaptan repair agent in the self-healing process was observed using infrared thermal imaging technology for in-situ and real-time damage detection.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Israr Ud Din, Adnan Ahmed, Farah Tarek, Wesley Cantwell, Kamran A. Khan
Summary: In this study, a finite element model driven by XCT was developed to simulate the folding characteristics of origami structures, and the results showed good agreement with experimental data. The study demonstrates the potential application of XCT-driven FE modeling in simulating foldable structures.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Yishan Yang, Yukang Lai, Song Zhao, Hongguang Chen, Renshu Li, Yongjiang Wang
Summary: This study reports the synthesis of a new transparent fiber reinforced polymer material (tGFRP) with high transparency and superior mechanical properties by controlling the refractive index of epoxy resin and using a novel processing technique.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Yuhang Liu, Kai Huang, Junfeng Ding, Shangyang Yu, Zhixing Li, Li Zhang, Licheng Guo
Summary: This study proposes a method for accurately predicting the penetration failure load of composites using acoustic emission (AE) data. The method includes a cyclic loading test schedule and an extrapolation method based on uncertainty. The results show that this method can accurately predict the failure load when LR equals 1.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Jinxia Cai, Bing Xie, Yunliang Jiang, Jinshan Lu, Zeyu Li, Pu Mao, Mohsin Ali Marwat, Haibo Zhang
Summary: This research aims to develop ternary nanocomposites composed of polycarbonate, Al2O3 nanoparticles, and BaTiO3 nanowires for capacitive energy-storage. By optimizing the capacitor materials, the discharge energy density and efficiency have been improved, and the superiority of the ternary polymer nanocomposites for dielectric energy-storage has been validated through finite element analysis.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Hon Lam Cheung, Mohsen Mirkhalaf
Summary: The aim of this study is to develop physics-based models and establish a structure-property relationship for short fiber composites. High-fidelity full-field simulations are computationally expensive and time-consuming, so the use of artificial neural networks and transfer learning technique is proposed to solve this issue and improve modeling accuracy and efficiency.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Yue Jiang, Juyoung Leem, Ashley M. Robinson, Shuai Wu, Andy H. Huynh, Dongwon Ka, Ruike Renee Zhao, Yan Xia, Xiaolin Zheng
Summary: The effect of interface engineering on the combustion and mechanical performance of high-loading B/HTPB composites was investigated in this study. It was found that both covalently bonded and nonpolar/nonpolar interfaces effectively reduced the aggregation of B particles, promoting combustion efficiency and burning rate, and enhancing the mechanical properties of the composites.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
R. Mohsenzadeh, B. H. Soudmand, A. H. Najafi, M. Fattahi, D. P. Uyen
Summary: This study examines the morphological features of nano-zeolite nanoparticles incorporated into ultra-high molecular weight polyethylene nanocomposites. The dispersion of nanoparticles within the polymer matrix was improved following nano-zeolite incorporation. The size and distribution of nanoparticles were determined through tailored histograms, and the effective elastic moduli of nanocomposites were calculated, considering interfacial effects.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Chunming Ji, Jiqiang Hu, Rene Alderliesten, Jinchuan Yang, Zhengong Zhou, Yuguo Sun, Bing Wang
Summary: This paper investigates the effect of impact damage on the fatigue behavior of CF/PEEK-titanium hybrid laminates. A fatigue life model is proposed to predict the S-N curves of the laminates based on energy dissipation approach. The energy dissipation behavior of the laminates under different experimental conditions is analyzed through post-impact fatigue tests, and the correlation between impact damage and fatigue dissipation energy is determined. The validity of the proposed model is verified through fatigue tests under different stress ratios and impact energy levels.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Shaokai Hu, Ping Han, Chao Meng, Ying Yu, Shaolong Han, Haoyu Wang, Gang Wei, Zheng Gu
Summary: This study decorates MXene on the surface of carbon fiber using different bonding interactions to improve the interface adhesion and mechanical properties of carbon fiber-reinforced polymers composites (CFRPs). The results demonstrate that CFRPs reinforced by CF-c-MXene show the optimal properties, with significant improvements in impact strength and interfacial shear strength compared to the unsized carbon fiber-reinforced composites.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Steven U. Mamolo, Henry A. Sodano
Summary: This study demonstrates that chlorination of ANFs and oxygen plasma treatment of carbon fibers enables the formation of a chlorinated ANF (Cl-ANF) interphase, resulting in a 79.8% increase in interfacial shear strength and a 33.7% increase in short beam strength in CFRP composites. This method provides a rapid and reliable process to improve the mechanical properties of CFRPs without degrading the tensile strength of the carbon fibers.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Yuyang Zhang, Huimin Li, Xin Liu, Yanhong Chen, Chengwei Qin, Daining Fang
Summary: Establishing a prediction model for the mechanical properties of three-dimensional tubular braided composites at different temperatures is of great significance. This study adopted a multi-scale modeling framework based on micro-computed tomography to consider the characteristics of the real yarn cross section and establish a realistic trans-scale finite element model for the composites. The predicted mechanical properties were found to be significantly affected by temperature.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Shengtao Dai, Fei Yan, Jiaming Guo, Huiru Hu, Yu Liu, Liu Liu, Yuhui Ao
Summary: This study successfully synthesized a hyperbranched waterborne polyurethane sizing agent and cellulose nanocrystal modified zinc oxide nanohybrids to improve the interface and properties of carbon fiber reinforced composites. The modified composites exhibited remarkable enhancements in mechanical properties and exceptional UV resistance.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)
Article
Materials Science, Composites
Libera Vitiello, Martina Salzano de Luna, Veronica Ambrogi, Giovanni Filippone
Summary: The identification of the percolation threshold in short fiber composites is crucial for assessing material properties and biodegradation speed. In this study, an original rheological approach was used to estimate the percolation threshold of hemp and kenaf-based composites, which showed good agreement with conventional dielectric spectroscopy analyses.
COMPOSITES SCIENCE AND TECHNOLOGY
(2024)