Article
Materials Science, Composites
Duo Chen, Juanzi Li, Wenxuan Yin, Yuhuan Yuan, Yunguang Cui, Shichao Li, Minjing Liu, Cong Peng, Xin Liu, Jinrui Ye, Zhanjun Wu
Summary: In this paper, a new type of thermoplastic epoxy matrix was used to prepare highly recyclable carbon fiber reinforced composites. The experimental results showed that the composites exhibited excellent mechanical properties and could be easily and rapidly recycled at room temperature.
COMPOSITES COMMUNICATIONS
(2022)
Article
Engineering, Manufacturing
Congmei Lin, Yushi Wen, Liyuan Wei, Ruqin Liu, Xiaoqing Tu, Shiliang Huang, Cui Zhang, Wen Qian, Liangfei Bai, Liang Chen, Feiyan Gong, Ling Ding, Jianhu Zhang, Zhijian Yang
Summary: Precise dimension control during the thermal cycle is challenging for polymer bonded energetic composites. A general strategy of coating negative thermal expansion (NTE) nanoparticles with dopamine has been developed to achieve homogeneous dispersion and improved interaction in the composites. The resulting composites exhibit suppressed thermal expansion, enhanced thermal stability, and improved mechanical properties.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2023)
Article
Polymer Science
Chenping Zhang, Yugang Duan, Hong Xiao, Ben Wang, Yueke Ming, Yansong Zhu, Fugan Zhang
Summary: This paper investigates the interlaminar bond strength of laser in-situ consolidation CF/PEEK thermoplastic composites. The results show that porosity significantly affects the interlaminar shear strength, while there is no correlation between crystallinity and interlaminar shear strength. The interlaminar shear strength in the heated tool in-situ consolidation group is significantly higher than the constant pressure in-situ consolidation group.
Article
Materials Science, Composites
Yingze Li, Naiyu Jiang, Nuo Xu, Hongyan Zhang, Nan Zhou, Xiaohu Zou, Yanxiang Zhang, Dongxing Zhang
Summary: This study proposes a facile and effective method to improve the interface of carbon fiber/poly ether ether ketone composites by grafting carbon nanotubes onto hydroxylated boron nitride and preparing sizing agents with polyetherimide. The introduction of the sizing agents provides abundant functional groups, generating hydrogen bonds and pi-pi interaction at the interface, while also improving surface roughness and mechanical interlocking. This method shows great potential for fabricating high-performance CF/PEEK composites.
COMPOSITES COMMUNICATIONS
(2023)
Article
Materials Science, Composites
Yingze Li, Nuo Xu, Hanxiong Lyu, Naiyu Jiang, Hongyan Zhang, Nan Zhou, Dongxing Zhang
Summary: In this study, a mixture sizing agent containing hydroxylated boron nitride and polyetherimide was synthesized to improve the interfacial adhesion between carbon fiber and polyetheretherketone. The synergistic effects of hydrogen bonding, 7C-7C interaction, and good compatibility were evaluated to enhance the miscibility, mechanical properties, and tribological properties of the composites.
COMPOSITES SCIENCE AND TECHNOLOGY
(2023)
Article
Materials Science, Composites
Jing-Jing Lu, Ji-Peng Guan, Hong-Quan Wang, Rui-Qiong Dang, Meng-Xuan Fan, Song-Qing Zhu, Xiao-Jun Shen
Summary: In order to improve the performance of lightweight and high-strength composites in deep-sea environment, epoxy resin and hollow glass beads were used, with graphene oxide to enhance the interfacial adhesion. The results showed that the mechanical properties of the composites were improved after treatments with high-pressure and low-temperature seawater, making them more suitable for deep-sea applications.
COMPOSITES SCIENCE AND TECHNOLOGY
(2022)
Article
Polymer Science
Alexander Poellinger, Thomas Koch, Stefan Krenn, Fabian Wilde, Domonkos Tolnai, Bernhard Plank, Sarah Heupl, Johannes Bernardi, Karin Whitmore, Marc Langela, Sandra Seichter, Michael Schoebel
Summary: Efficient transport of hydrogen is crucial for the widespread adoption of renewable energy. Reciprocating piston compressors with high strength non-lubricated sealing solutions are key technologies to meet the demands for gas purity and high-pressure gradients in hydrogen applications.
Article
Engineering, Manufacturing
Zheng Liu, Xiaoli Fan, Junliang Zhang, Zhiyong Yang, Yusheng Tang, Jianwei Li, Jie Kong, Junwei Gu
Summary: The introduction of hyperbranched structure and fluorine groups in epoxy-preFHBPBO significantly improved the mechanical properties and wave-transparent performance of PBO fibers reinforced BADCy resins composites. The addition of 7 wt% epoxy-preFHBPBO increased the flexural strength and interlaminar shear strength, while reducing dielectric constant and dielectric loss compared to PBO fibers/BADCy composites. Moreover, the volume resistivity and breakdown strength were also enhanced in PBO fibers/FHBPBO-co-BADCy composites.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2021)
Article
Engineering, Manufacturing
Lin Tang, Zhiyong Yang, Yusheng Tang, Junliang Zhang, Jie Kong, Junwei Gu
Summary: The copolymer membrane and AHHFP grafted onto the surface of PBO fibres enhances the interfacial strength and reduces interfacial polarization of the wave-transparent laminated composites. The resulting 6F-PBO@P-GMA fibres/modified cyanate ester composites exhibit higher flexural strength and interlaminar shear strength compared to composites with pristine PBO fibres, with excellent wave-transparency properties at X-band.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2021)
Article
Materials Science, Multidisciplinary
Zheqi Peng, Xin Wang, Lining Ding, Zhishen Wu
Summary: This study adopts a bundle-based concept to model unidirectional hybrid fiber-reinforced polymer composites and conducts a parametric study and optimization framework development. The results show that a dispersed arrangement of fiber bundles can delay damage propagation and enhance overall performance.
MATERIALS & DESIGN
(2022)
Article
Metallurgy & Metallurgical Engineering
Taolei Wang, Chao Lin, Dan Batalu, Lu Zhang, Jingzhou Hu, Wei Lu
Summary: PLLA-magnesium composites have been investigated as potential biodegradable materials for bone implants. The high corrosion resistance of amorphous Mg65Zn30Ca5 prevents deteriorating mechanical strength and enhances the antibacterial property of the composite, showing promising application in bone repair and tissue regeneration.
JOURNAL OF MAGNESIUM AND ALLOYS
(2021)
Article
Materials Science, Composites
Zixuan Chen, Tianyu Yu, Yun-Hae Kim, Zetian Yang, Yan Li, Tao Yu
Summary: This study aims to investigate the mechanical properties of basalt fiber reinforced polymers (BFRPs) with the incorporation of different structured nanoclays, and to improve their interfacial bonding through experimental methods. The results show that a flattened nanoclay structure is more effective for enhancing the modulus, and the inclusion of different structured nanoclays also improves the interlaminar strength and toughness of BFRPs.
COMPOSITES SCIENCE AND TECHNOLOGY
(2021)
Article
Materials Science, Composites
Tong Liu, Jiajun Ju, Feng Chen, Bozhen Wu, Jintao Yang, Mingqiang Zhong, Xiangfang Peng, Tairong Kuang
Summary: Hierarchical structures play a significant role in determining the mechanical properties of polymer materials. This study successfully fabricated in-situ nanofibrillar high-density polyethylene/polytetrafluoroethylene composites with a highly ordered and compacted nanohybrid shish-kebab structure. The synergistic effect of oscillatory push-pull shear flow field and PTFE led to superior strength and toughness in the composites, with significant improvements in tensile strength, Young's modulus, and impact strength compared to neat HDPE. The proposed strategy shows promise for the preparation of polymer materials with enhanced mechanical properties.
COMPOSITES SCIENCE AND TECHNOLOGY
(2021)
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
Jeffrey J. Kim, Avery D. Brown, Charles E. Bakis, Edward C. Smith
Summary: The study aims to explore hybrid CNT - carbon/epoxy composites for high damping and stiffness, and the system with highly aligned CNT yarns treated with a non-ionic surfactant, located at the interlayers and oriented along the loading direction, shows superior damping and stiffness characteristics.
COMPOSITES SCIENCE AND TECHNOLOGY
(2021)
Article
Materials Science, Composites
M. Alves, L. M. Martulli, M. Kerschbaum, Y. Swolfs, S. V. Lomov Sw, S. Pimenta
Summary: This work presents a novel 3D approach for the numerical modelling of TBDCs, which generates 3D orientation tensors by adding a stochastic component and predicts the failure initiation of the materials using a physically based 3D failure criterion. Experimental results demonstrate that the proposed approach accurately predicts the mechanical properties of the materials.
COMPOSITES SCIENCE AND TECHNOLOGY
(2023)
Article
Mechanics
Xiao Ma, Yang Chen, Modesar Shakoor, Dmytro Vasiukov, Stepan V. Lomov, Chung Hae Park
Summary: This paper focuses on the numerical implementation of phase-field models of fracture using the Fast Fourier Transform based numerical method. The influence of a simplification in the phase-field evolution equation on heterogeneous materials is assessed and a complete formulation is proposed. The assessment shows that the simplified formulation leads to artificial diffusion of damage between different components, while the complete formulation suppresses this diffusion.
ENGINEERING FRACTURE MECHANICS
(2023)
Article
Multidisciplinary Sciences
Valter Carvelli, Stepan V. Lomov, Sergei B. Sapozhnikov, Christian Breite, Yentl Swolfs
Summary: This paper provides an overview of the fatigue behavior of hybrid fiber-reinforced plastics and specifically reports the fatigue behavior of a quasi-isotropic pseudo-ductile all-carbon fiber interlayer hybrid composite. Experimental measurements and observations are conducted to study the damage development, and the results include fatigue life, stiffness evolution, and damage observations.
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
(2023)
Article
Engineering, Manufacturing
A. N. Vu, W. J. B. Grouve, R. Akkerman
Summary: Overbraiding is an efficient manufacturing process for complex composite preforms. Process simulations with a new yarn interaction model are used to predict the braid angle and coverage of braid reinforced products. Validations and numerical tests show that the braid angle and convergence zone length are affected by the coefficient of friction until reaching a steady state.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2023)
Article
Polymer Science
Kuan Chen, Liangyong Chu, Wouter J. B. Grouve, Erik G. de Vries, Remko Akkerman, Ningzhong Bao, Matthijn B. de Rooij
Summary: A simple method based on an air bubble on a substrate in molten thermoplastic is proposed to measure the contact angle between thermoplastics and solid surfaces. This method is suitable for high viscosity and high melting point thermoplastics.
JOURNAL OF APPLIED POLYMER SCIENCE
(2023)
Article
Polymer Science
Radmir Karamov, Christian Breite, Stepan V. Lomov, Ivan Sergeichev, Yentl Swolfs
Summary: The study investigates the progressive development of fibre breaks in unidirectional composite materials using in situ X-ray computed tomography. By applying super-resolution (SR) using 3D deep learning techniques, the quality of low-resolution scans is enhanced for fibre break identification. The developed approach achieves automated identification of fibre breaks with an average accuracy of 82% to 92%.
Article
Engineering, Manufacturing
Geoffrey Ginoux, Joseph Paux, Samir Allaoui
Summary: This study aims to develop a standardized method for specimen preparation to evaluate the mechanical properties of materials manufactured by material extrusion additive manufacturing. By comparing the machined specimens with directly printed ones at different orientation angles, the influence of structure heterogeneity on the mechanical properties of the specimen was analyzed. The proposed hybrid additive-subtractive preparation method helps standardize the preparation of additively manufactured materials, improve the qualification of technical and industrial parts, and measure intrinsic material properties based on a controlled microstructure for understanding process-related behavior and properties.
ADDITIVE MANUFACTURING
(2023)
Article
Physics, Applied
Sergey G. G. Abaimov, Iskander S. S. Akmanov, Stepan V. V. Lomov
Summary: In the digital era, computational performance becomes crucial for the design of novel smart materials. Nanocomposites present a challenge due to the complex morphology and interactions. This study overcomes the singularity issue in thermal analysis of carbon nanotube (CNT) nanocomposites by developing a technique based on undocumented possibilities in Abaqus software. Numerical simulations using 3D particle morphology obtained by electron tomography show close agreement with experimental measurements.
APPLIED PHYSICS LETTERS
(2023)
Article
Engineering, Manufacturing
E. R. Pierik, W. J. B. Grouve, S. Wijskamp, R. Akkerman
Summary: A proper description of ply-ply friction is crucial for simulating thermoplastic composite forming processes. The rate-dependency of the peak and steady-state shear stress can be predicted by considering shear flow and wall slip effects. This study investigates the temperature and pressure dependency of friction and successfully models the effect of pressure on the onset of wall slip.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2023)
Article
Mechanics
Xiao Ma, Dmytro Vasiukov, Modesar Shakoor, Stepan V. Lomov, Chung Hae Park
Summary: This paper focuses on the numerical implementation of phase-field models of fracture using the Fast Fourier Transform (FFT) based numerical method. The choice of regularization length in phase-field models is important for both macroscopic mechanical behavior and local crack propagation patterns. Wu's phase-field model has been successful in reducing length sensitivity for homogeneous materials, and it has also been found to be more suitable than Miehe's model for brittle failure with the introduction of an elastic stage. The sensitivity of Wu's model for heterogeneous materials has also been investigated in this study.
ENGINEERING FRACTURE MECHANICS
(2023)
Article
Engineering, Manufacturing
Joseph Paux, Geoffrey Ginoux, Shyam Pulickan, Samir Allaoui
Summary: The paper investigates the mesostructure of materials manufactured by additive manufacturing processes based on extrusion of polymer. It proposes a new method to extract a 3D Representative Volume Element (RVE) and performs a numerical homogenization to determine the macroscopic properties of the printed material. The study shows that the variation of the mesostructure induced by printing conditions significantly influences the rigidity of the material.
ADDITIVE MANUFACTURING
(2023)
Article
Materials Science, Characterization & Testing
Mariola Robakowska, Ian Gibson, Remko Akkerman, Frederik R. Wurm, Hubert Gojzewski
Summary: The presence of interfacial areas between consecutively joined layers leads to differences in the performance of 3D printed materials compared to fully cured polymer materials. This research demonstrates that incorporating nanosilica particles can strengthen the 3D printed layers of the polymer matrix and reduce microscopic inhomogeneity in the final printed materials.
Article
Engineering, Manufacturing
Babak Fazlali, Shailee Upadhyay, Sagar Ashokbhai Ashodia, Francisco Mesquita, Stepan Lomov, Valter Carvelli, Yentl Swolfs
Summary: Tensile testing of unidirectional composites often results in premature failure in the end tab region. This study investigates different conventional and novel designs to find the method that minimizes geometric discontinuity and maximizes failure strain. Finite element models are used to predict stress concentrations and optimize the geometry of the end tabs. Experimental results show that specimens with novel arrow-shaped tabs and continuous tabs yield the highest failure strain, avoiding premature failure effectively.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2023)
Article
Engineering, Multidisciplinary
Joseph Paux, Samir Allaoui
Summary: This study addresses the convergence issue of the Newton-Raphson scheme in the one-step finite element method for the draping of woven fabrics. The proposed method predicts the strain components of woven fabrics accurately and efficiently, taking into account external forces and material mechanical behavior laws.
COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING
(2024)
Article
Green & Sustainable Science & Technology
T. H. Hoksbergen, R. Akkerman, I. Baran
Summary: This study discusses a numerical modeling framework for predicting the stress state in multilayered thermoplastic/thermoset coating systems and finds that the design of the coating system significantly influences the dynamic stress state and the performance as a protection layer for wind turbine blades.
Article
Engineering, Manufacturing
Wenwu Zhang, Helezi Zhou, Bin Huang, Huamin Zhou, Xiongqi Peng
Summary: This paper investigates the tool-ply friction behavior of jute/PLA biocomposites in thermoforming. A pull-through friction testing device was developed to characterize the tool-ply friction behavior of jute/PLA prepreg at elevated temperature. The effects of alkali treatment, fiber orientation, normal force, and slipping velocity were studied, and a quantitative definition of tool-ply friction behavior was achieved. The results indicate a strong relationship between tool-ply friction behavior and woven and fiber structures, indicating hydrodynamic lubrication.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Stephen Clay, Wesley Ault, Alex Faupel, Caglar Oskay, Philip Knoth, Noam N. Y. Shemesh, Rami Haj-Ali, Uri Breiman, Ido Meshi, Ofir Shor
Summary: This paper presents an experimental investigation on the compression failure mechanisms of laminated carbon fiber reinforced composites under non-standard quasi-static loading. The results demonstrate the presence of interior kink bands, surface ply splitting, and delaminations, with each failure mechanism associated with different stress levels.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Bowen Zeng, Jinlong Yang, Zhi Ni, Yucheng Fan, Ziyan Hang, Chuang Feng
Summary: This study successfully improved the pyroelectric properties of PVDF films by preparing functionally graded graphene nanoplatelet (FG-GNP) reinforced PVDF composite films. The increase in the number of layers and the concentration of GNP near the surface of the composite film were found to enhance the pyroelectric properties and temperature stability.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Shenghe Zhang, Fukai Chu, Weizhao Hu, Bibo Wang, Richard K. K. Yuen, Yuan Hu
Summary: This study improves the flame retardancy and mechanical properties of PBAT by synthesizing a phosphorus-containing intercalator and mixing it into the PBAT matrix.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Tharan Gordon, Michael R. Wisnom, Byung Chul Kim
Summary: Thickness tapering is a common strategy for efficient and lightweight composite structures, but it can introduce delamination sites. This study investigated the use of ply scarfing method to improve the compressive failure stress of tapered laminates made from thick unidirectional non-crimp fabrics. The results showed that ply scarfing suppressed delamination and increased the failure stress by 60%.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Xin Wang, Yiting Qu, Junlei Bai, Fujun Xu, Bin Ding, Xiaohua Zhang
Summary: A solution-based strategy is proposed to achieve a strong bond between fibers and matrix in powder materials, resulting in improved mechanical properties, thermal conductivity, and fracture strain of the composites. The method also offers advantages such as enhanced powder flowability and thermal stability.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Xing Zhou, Guosheng Wang, Dexiang Li, Qi Wang, Keming Zhu, Yaya Hao, Yueyang Xu, Neng Li
Summary: This study successfully synthesized polyurethane elastomer by using degraded products from waste PET, and fabricated composites with carbon nanotubes for strain sensors. The composites showed good mechanical and durability performance, indicating a potential method for recycling waste PET into valuable and functional materials.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Fei Peng, Tingting Shan, Rongrui Chen, Jiulong Shi, Di Liu, Guoqiang Zheng, Chaojun Gao, Kun Dai, Chuntai Liu, Changyu Shen
Summary: Janus polymer films with distinct surface performance and potential applications were successfully prepared by vacuum-assisted hot-compressing method and spray coating. These films exhibit decent actuation performance and rapid selfpowered sensing property, and can be used for real-time acetone monitoring system.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Biao Cheng, Huafeng Quan, Yuefeng Zhang, Dong Huang, Tongqi Li, Chong Ye, Xingming Zhou, Zhen Fan, Yafang Zhang, Ting Ouyang, Fei Han, Hongbo Liu, Jinshui Liu
Summary: In this study, a binary graphite network was constructed to improve the thermal conductivity and control the formation of micrometer-scale open pores in phase change composites. The developed composites showed a high thermal conductivity and phase change enthalpy, making them promising for thermal control in space optical-mechanical systems and other critical aerospace components.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Shihao Zuo, Fei Cheng, Guangming Yang, Jiangzhou Li, Yongjun Deng, Guangjun Gou, Xuejun Cui, Yunsen Hu, Xiaozhi Hu
Summary: Micro-arc oxidation (MAO) treatment was used to modify aluminum (Al) alloys in order to improve bond strength with carbon fiber reinforced polymer (CFRP). The treatment successfully created a porous surface with better hardness, roughness, and wetting, and introduced resin pre-coating (RPC) and carbon nanotube (CNT) fiber bridging to improve the bonding interface. The combined treatments significantly increased the bond strength by up to 156.1%, indicating the feasibility of MAO as an alternative method for manufacturing high-performance Al-CFRP composites in industrial production.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
James Kratz, Christophe Paris, Karolina Gaska, Vincent Maes, Ivana Partridge, Philippe Olivier
Summary: Faster heating rates and higher process temperatures can reduce the total process time while achieving the same degree-of-cure. Thermal analysis shows that thermoplastic interleaf particles melt at the recommended curing temperature. A short dwell at a lower temperature can prevent the mixing of thermoplastic particles and thermoset pre-polymer.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Thomas Maierhofer, Evripides G. Loukaides, Craig Carr, Chiara Bisagni, Richard Butler
Summary: Joining thermoset composites via resistance welding provides an efficient method for aerospace structures with benefits such as high-volume manufacturing and simplified surface preparation. The influence of welding parameters on joint performance is assessed using Mode I fracture toughness testing. A Bayesian approach is employed to select high-performance parameters.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Jiangan You, Ling Cai, Ronghua Yu, Haiping Xing, Jian Xue, Ying Li, Zhiwei Jiang, Dongmei Cui, Tao Tang
Summary: In response to the global environmental pollution crisis caused by waste plastics, recyclable design is an effective solution. A CPVC/PUA nanocomposite foam was developed using the plasticizing-foaming-reinforcing strategy, combined with catalytic carbonization. The foam exhibited high expansion ratio, robustness, solvent resistance, flame-triggered shape memory effect, and ablation resistance. The foam could be directly upcycled into functional carbon foam with attractive electromagnetic interference shielding performance.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Siyao Chen, Zhiyu Chen, Yangling Ou, Junwei Lyu, Junning Li, Xiangyang Liu, Yang Liu
Summary: In this study, we demonstrated the significant effect of composite interface on temperature increase in electrical heaters. By selectively fluorinating the outer walls of carbon nanotubes and compositing them with cellulose nanofibers, improved interfacial phonon diffusion was achieved, leading to a higher temperature increase rate.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)
Article
Engineering, Manufacturing
Yanjun He, Agnieszka Suliga, Alex Brinkmeyer, Mark Schenk, Ian Hamerton
Summary: A new thermoset resin system based on a polybenzoxazine blend showed good performance under high ATOX irradiation. It reduced erosion yield by forming a silicon-rich surface layer and improved the mechanical properties of CFRP laminates.
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
(2024)