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2,271 results on '"Liu, Run"'

1. Single-photon interference over 8.4 km urban atmosphere: towards testing quantum effects in curved spacetime with photons

Author

Wu, Hui-Nan, Li, Yu-Huai, Li, Bo, You, Xiang, Liu, Run-Ze, Ren, Ji-Gang, Yin, Juan, Lu, Chao-Yang, Cao, Yuan, Peng, Cheng-Zhi, and Pan, Jian-Wei

Subjects
Quantum Physics, General Relativity and Quantum Cosmology, Physics - Optics
Abstract

The emergence of quantum mechanics and general relativity has transformed our understanding of the natural world significantly. However, integrating these two theories presents immense challenges, and their interplay remains untested. Recent theoretical studies suggest that the single-photon interference covering huge space can effectively probe the interface between quantum mechanics and general relativity. We developed an alternative design using unbalanced Michelson interferometers to address this and validated its feasibility over an 8.4 km free-space channel. Using a high-brightness single-photon source based on quantum dots, we demonstrated single-photon interference along this long-distance baseline. We achieved a phase measurement precision of 16.2 mrad, which satisfied the measurement requirements for a gravitational redshift at the geosynchronous orbit by five times the standard deviation. Our results confirm the feasibility of the single-photon version of the Colella-Overhauser-Werner experiment for testing the quantum effects in curved spacetime., Comment: 22 pages, 6 figures

Published
2024
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2. Cascading failures with group support in interdependent hypergraphs

Author

Chen, Lei, Jia, Chunxiao, Liu, Run-Ran, and Meng, Fanyuan

Subjects
Physics - Physics and Society
Abstract

The functionality of an entity frequently necessitates the support of a group situated in another layer of the system. To unravel the profound impact of such group support on a system's resilience against cascading failures, we devise a framework comprising a double-layer interdependent hypergraph system, wherein nodes are capable of receiving support via hyperedges. Our central hypothesis posits that the failure may transcend to another layer when all support groups of each dependent node fail, thereby initiating a potentially iterative cascade across layers. Through rigorous analytical methods, we derive the critical threshold for the initial node survival probability that marks the second-order phase transition point. A salient discovery is that as the prevalence of dependent nodes escalates, the system dynamics shift from a second-order to a first-order phase transition. Notably, irrespective of the collapse pattern, systems characterized by scale-free hyperdegree distributions within both hypergraph layers consistently demonstrate superior robustness compared to those adhering to Poisson hyperdegree distributions. In summary, our research underscores the paramount significance of group support mechanisms and intricate network topologies in determining the resilience of interconnected systems against the propagation of cascading failures. By exploring the interplay between these factors, we have gained insights into how systems can be designed or optimized to mitigate the risk of widespread disruptions, ensuring their continued functionality and stability in the face of adverse events., Comment: 18 pages, 5 figures

Published
2024

3. Experimental single-photon quantum key distribution surpassing the fundamental coherent-state rate limit

Author

Zhang, Yang, Ding, Xing, Li, Yang, Zhang, Likang, Guo, Yong-Peng, Wang, Gao-Qiang, Ning, Zhen, Xu, Mo-Chi, Liu, Run-Ze, Zhao, Jun-Yi, Zou, Geng-Yan, Wang, Hui, Cao, Yuan, He, Yu-Ming, Peng, Cheng-Zhi, Huo, Yong-Heng, Liao, Sheng-Kai, Lu, Chao-Yang, Xu, Feihu, and Pan, Jian-Wei

Subjects
Quantum Physics
Abstract

Single-photon sources are essential for quantum networks, enabling applications ranging from quantum key distribution (QKD) to the burgeoning quantum internet. Despite the remarkable advancements, the current reliance of QKD on attenuated coherent (laser) light sources has imposed a fundamental limit on the secret key rate (SKR). This constraint is primarily attributable to the scarcity of single-photon components within coherent light, confined by an inherent upper bound of 1/e. Here, we report high-rate QKD using a high-efficiency single-photon source, enabling an SKR transcending the fundamental rate limit of coherent light. We developed an on-demand, bright semiconductor quantum-dot single-photon source with an efficiency of 0.71(2), exceeding the inherent bound of coherent light by approximately 2.87 dB. Implementing narrow-bandwidth filtering and random polarization modulation, we conducted a field QKD trial over a 14.6(1.1)-dB-loss free-space urban channel, achieving an SKR of 0.00108 bits per pulse. This surpasses the practical limit of coherent-light-based QKD by 2.53 dB. Our findings conclusively demonstrate the superior performance of nanotechnology-based single-photon sources over coherent light for QKD applications, marking a pivotal stride towards the realization of a global quantum internet., Comment: 22 pages, 5 figures, 1 Table

Published
2024

4. Exposure to Air Pollutants and Myocardial Infarction Incidence: A UK Biobank Study Exploring Gene--Environment Interaction

Author

Ma, Yudiyang, Li, Dankang, Cui, Feipeng, Wang, Jianing, Tang, Linxi, Yang, Yingping, Liu, Run, Xie, Junqing, and Tian, Yaohua

Subjects
Statistics, Genetic aspects, Risk factors, Health aspects, Heart attack -- Statistics -- Risk factors -- Genetic aspects, Air pollution -- Statistics -- Health aspects
Abstract

Introduction Myocardial infarction (MI), a potentially fatal cardiovascular condition, develops when the blood flow through the coronary arteries is diminished due to various factors, leading to inadequate oxygen supply to [...], BACKGROUND: Unraveling gene--environment interaction can provide a novel insight into early disease prevention. Nevertheless, current understanding of the interplay between genetic predisposition and air pollution in relation to myocardial infarction (MI) risk remains limited. Furthermore, the potential long-term influence of air pollutants on MI incidence risk warrants more conclusive evidence in a community population. OBJECTIVE: We investigated interactions between genetic predisposition and exposure to air pollutants on MI incidence. METHODS: This study incorporated a sample of 456,354 UK Biobank participants and annual mean air pollution ([PM.sub.2.5], [PM.sub.10], [NO.sub.2], and [NO.sub.x]) from the UK Department for Environment, Food and Rural Affairs (2006-2021). The Cox proportional hazards model was employed to explore MI incidence after chronic air pollutants exposure. By quantifying genetic risk through the calculation of polygenic risk score (PRS), this study further examined the interactions between genetic risk and exposure to air pollutants in the development of MI on both additive and multiplicative scales. RESULTS: Among 456,354 participants, 9,114 incident MI events were observed during a median follow-up of 12.08 y. Chronic exposure to air pollutants was linked with an increased risk of MI occurrence. Specifically, the hazard ratios (per interquartile range) were 1.12 (95% CI: 1.10, 1.13) for [PM.sub.2.5], 1.20 (95% CI: 1.19, 1.22) for [PM.sub.10], 1.13 (95% CI: 1.12, 1.15) for [NO.sub.2], and 1.12 (95% CI: 1.11, 1.13) for [NO.sub.x]. In terms of the joint effects, participants with high PRS and high level of air pollution exposure exhibited the greatest risk of MI among all study participants ( ~ 255% to 324%). Remarkably, both multiplicative and additive interactions were detected in the ambient air pollutants exposure and genetic risk on the incidence of MI. DISCUSSION: There were interactions between exposure to ambient air pollutants and genetic susceptibility on the risk of MI onset. Moreover, the joint effects of these two exposures were greater than the effect of each factor alone. https://doi.org/10.1289/EHP14291

Published
2024
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9. A simple model of global cascades on random hypergraphs

Author

Chen, Lei, Zhu, Yanpeng, Zhu, Jiadong, Ruan, Zhongyuan, Small, Michael, Christensen, Kim, Liu, Run-Ran, and Meng, Fanyuan

Subjects
Physics - Physics and Society
Abstract

This study introduces a comprehensive framework that situates information cascades within the domain of higher-order interactions, utilizing a double-threshold hypergraph model. We propose that individuals (nodes) gain awareness of information through each communication channel (hyperedge) once the number of information adopters surpasses a threshold $\phi_m$. However, actual adoption of the information only occurs when the cumulative influence across all communication channels exceeds a second threshold, $\phi_k$. We analytically derive the cascade condition for both the case of a single seed node using percolation methods and the case of any seed size employing mean-field approximation. Our findings underscore that when considering the fractional seed size, $r_0 \in (0,1]$, the connectivity pattern of the random hypergraph, characterized by the hyperdegree, $k$, and cardinality, $m$, distributions, exerts an asymmetric impact on the global cascade boundary. This asymmetry manifests in the observed differences in the boundaries of the global cascade within the $(\phi_m, \langle m \rangle)$ and $(\phi_k, \langle k \rangle)$ planes. However, as $r_0 \to 0$, this asymmetric effect gradually diminishes. Overall, by elucidating the mechanisms driving information cascades within a broader context of higher-order interactions, our research contributes to theoretical advancements in complex systems theory., Comment: 11 pages, 10 figures

Published
2024

10. High-efficiency single-photon source above the loss-tolerant threshold for efficient linear optical quantum computing

Author

Ding, Xing, Guo, Yong-Peng, Xu, Mo-Chi, Liu, Run-Ze, Zou, Geng-Yan, Zhao, Jun-Yi, Ge, Zhen-Xuan, Zhang, Qi-Hang, Liu, Hua-Liang, Chen, Ming-Cheng, Wang, Hui, He, Yu-Ming, Huo, Yong-Heng, Lu, Chao-Yang, and Pan, Jian-Wei

Subjects
Quantum Physics
Abstract

Photon loss is the biggest enemy for scalable photonic quantum information processing. This problem can be tackled by using quantum error correction, provided that the overall photon loss is below a threshold of 1/3. However, all reported on-demand and indistinguishable single-photon sources still fall short of this threshold. Here, by using tailor shaped laser pulse excitation on a high-quantum efficiency single quantum dot deterministically coupled to a tunable open microcavity, we demonstrate a high-performance source with a single-photon purity of 0.9795(6), photon indistinguishability of 0.986(16), and an overall system efficiency of 0.717(20), simultaneously. This source for the first time reaches the efficiency threshold for scalable photonic quantum computing. With this source, we further demonstrate 1.87(13) dB intensity squeezing, and consecutive 40-photon events with 1.67 mHz count rate.

Published
2023

11. Berry Curvature and Bulk-Boundary Correspondence from Transport Measurement for Photonic Chern Bands

Author

Chen, Chao, Liu, Run-Ze, Wu, Jizhou, Su, Zu-En, Ding, Xing, Qin, Jian, Wang, Lin, Zhang, Wei-Wei, He, Yu, Wang, Xi-Lin, Lu, Chao-Yang, Li, Li, Sanders, Barry C., Liu, Xiong-Jun, and Pan, Jian-Wei

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Berry curvature is a fundamental element to characterize topological quantum physics, while a full measurement of Berry curvature in momentum space was not reported for topological states. Here we achieve two-dimensional Berry curvature reconstruction in a photonic quantum anomalous Hall system via Hall transport measurement of a momentum-resolved wave packet. Integrating measured Berry curvature over the two-dimensional Brillouin zone, we obtain Chern numbers corresponding to -1 and 0. Further, we identify bulk-boundary correspondence by measuring topology-linked chiral edge states at the boundary. The full topological characterization of photonic Chern bands from Berry curvature, Chern number, and edge transport measurements enables our photonic system to serve as a versatile platform for further in-depth study of novel topological physics.

Published
2023
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15. Wavelength-tunable high-fidelity entangled photon sources enabled by dual Stark effects

Author

Chen, Chen, Yan, Jun-Yong, Babin, Hans-Georg, Wang, Jiefei, Xu, Xingqi, Lin, Xing, Yu, Qianqian, Fang, Wei, Liu, Run-Ze, Huo, Yong-Heng, Cai, Han, Sha, Wei E. I., Zhang, Jiaxiang, Heyn, Christian, Wieck, Andreas D., Ludwig, Arne, Wang, Da-Wei, Jin, Chao-Yuan, and Liu, Feng

Subjects
Quantum Physics
Abstract

The construction of a large-scale quantum internet requires quantum repeaters containing multiple entangled photon sources with identical wavelengths. Semiconductor quantum dots can generate entangled photon pairs deterministically with high fidelity. However, realizing wavelength-matched quantum-dot entangled photon sources faces two difficulties: the non-uniformity of emission wavelength and exciton fine-structure splitting induced fidelity reduction. Typically, these two factors are not independently tunable, making it challenging to achieve simultaneous improvement. In this work, we demonstrate wavelength-tunable entangled photon sources based on droplet-etched GaAs quantum dots through the combined use of AC and quantum-confined Stark effects. The emission wavelength can be tuned by ~1 meV while preserving an entanglement fidelity f exceeding 0.955(1) in the entire tuning range. Based on this hybrid tuning scheme, we finally demonstrate multiple wavelength-matched entangled photon sources with f>0.919(3), paving a way towards robust and scalable on-demand entangled photon sources for quantum internet and integrated quantum optical circuits., Comment: Main text: 11 pages, 6 figures, Supplementary information: 7 pages, 6 figures, 2 tables

Published
2023
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16. Experimental quantum non-Gaussian coincidences of entangled photons

Author

Liu, Run-Ze, Qiao, Yu-Kun, Lachman, Lukáš, Ge, Zhen-Xuan, Chung, Tung-Hsun, Zhao, Jun-Yi, Li, Hao, You, Lixing, Filip, Radim, and Huo, Yong-Heng

Subjects
Quantum Physics
Abstract

Quantum non-Gaussianity, a more potent and highly useful form of nonclassicality, excludes all convex mixtures of Gaussian states and Gaussian parametric processes generating them. Here, for the first time, we conclusively test quantum non-Gaussian coincidences of entangled photon pairs with the CHSH-Bell factor $S=2.328\pm0.004$ from a single quantum dot with a depth up to $0.94\pm 0.02$ dB. Such deterministically generated photon pairs fundamentally overcome parametric processes by reducing crucial multiphoton errors. For the quantum non-Gaussian depth of the unheralded (heralded) single-photon state, we achieve the value of $8.08\pm0.05$ dB ($19.06\pm0.29$ dB). Our work experimentally certifies the exclusive quantum non-Gaussianity properties highly relevant for optical sensing, communication and computation.

Published
2023

17. Heralded three-photon entanglement from a single-photon source on a photonic chip

Author

Chen, Si, Peng, Li-Chao, Guo, Yong-Peng, Gu, Xue-Mei, Ding, Xing, Liu, Run-Ze, You, Xiang, Qin, Jian, Wang, Yun-Fei, He, Yu-Ming, Renema, Jelmer J., Huo, Yong-Heng, Wang, Hui, Lu, Chao-Yang, and Pan, Jian-Wei

Subjects
Quantum Physics
Abstract

In the quest to build general-purpose photonic quantum computers, fusion-based quantum computation has risen to prominence as a promising strategy. This model allows a ballistic construction of large cluster states which are universal for quantum computation, in a scalable and loss-tolerant way without feed-forward, by fusing many small n-photon entangled resource states. However, a key obstacle to this architecture lies in efficiently generating the required essential resource states on photonic chips. One such critical seed state that has not yet been achieved is the heralded three-photon Greenberger-Horne-Zeilinger (3-GHZ) state. Here, we address this elementary resource gap, by reporting the first experimental realization of a heralded dual-rail encoded 3-GHZ state. Our implementation employs a low-loss and fully programmable photonic chip that manipulates six indistinguishable single photons of wavelengths in the telecommunication regime. Conditional on the heralding detection, we obtain the desired 3-GHZ state with a fidelity 0.573+-0.024. Our work marks an important step for the future fault-tolerant photonic quantum computing, leading to the acceleration of building a large-scale optical quantum computer., Comment: Submitted. Comments are welcome!

Published
2023

19. Cascading failure with memory effect in random networks

Author

Zhu, Yanpeng, Chen, Lei, Meng, Fanyuan, Jia, Chun-Xiao, and Liu, Run-Ran

Subjects
Physics - Physics and Society
Abstract

In many cases of attacks or failures, memory effects play a significant role. Therefore, we present a model that not only considers the dependencies between nodes but also incorporates the memory effects of attacks. Our research demonstrates that the survival probability of a random node reached by a random edge surpasses the inverse of the average degree ($1/{\langle k \rangle}$), and a giant component emerges regardless of the strength of dependencies. Moreover, if the dependency strength exceeds $1/{\langle k \rangle}$, the network experiences an abrupt collapse when an infinitesimally small fraction of nodes is removed, irrespective of the memory effect. Our proposed model provides insights into the interplay between dependencies between nodes, memory effects, and the network structures under attacks or failures. By considering these factors, we can better assess the vulnerability of complex systems and develop strategies to mitigate cascading failures., Comment: 6 pages, 6 figures

Published
2023

20. Modeling opinion polarization under perception bias

Author

Yu, Hao, Xue, Bin, Zhu, Yanpeng, Zhang, Jianlin, Liu, Run-Ran, Liu, Yu, and Meng, Fanyuan

Subjects
Physics - Physics and Society
Abstract

Social networks have provided a platform for the effective exchange of ideas or opinions but also served as a hotbed of polarization. While much research attempts to explore different causes of opinion polarization, the effect of perception bias caused by the network structure itself is largely understudied. To this end, we propose a threshold model that simulates the evolution of opinions by taking into account the perception bias, which is the gap between global information and locally available information from the neighborhood within networks. Our findings suggest that polarization occurs when the collective stubbornness of the population exceeds a critical value which is largely affected by the perception bias. In addition, as the level of stubbornness grows, the occurrence of first-order and second-order phase transitions between consensus and polarization becomes more prevalent, and the types of these phase transitions rely on the initial proportion of active opinions. Notably, for regular network structures, a step-wise pattern emerges that corresponds to various levels of polarization and is strongly associated with the formation of echo chambers. Our research presents a valuable framework for investigating the connection between perception bias and opinion polarization and provides valuable insights for mitigating polarization in the context of biased information.

Published
2023

21. Project-Based Learning for In-depth Understanding of IoT Architecture: Design of IoT Liquid Flow Monitoring System Based on LoRa Communication

Author

Tian, Xu, Chen, Xin-Yu, Wu, Ming-Wei, Zhang, Meng-Qin, Liu, Run-Zhi, Zhang, Zheng, Tao, Hong-Wei, Dai, Qin, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Hong, Wenxing, editor, and Kanaparan, Geetha, editor

Published
2024
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22. Study on 18 inch Export Pipeline Route Selection of Lingshui17-2 Project

Author

Zhao, Dang, Liu, Run, Ceccarelli, Marco, Series Editor, Agrawal, Sunil K., Advisory Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, and Li, Shaofan, editor

Published
2024
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23. Study on Pipeline Installation with J-Lay System of a New Vessel Construction

Author

Zhao, Dang, Liu, Run, He, Ning, Ceccarelli, Marco, Series Editor, Agrawal, Sunil K., Advisory Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, and Li, Shaofan, editor

Published
2024
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24. CrowdNav-HERO: Pedestrian Trajectory Prediction Based Crowded Navigation with Human-Environment-Robot Ternary Fusion

Author

Lu, Siyi, Chen, Bolei, Zhong, Ping, Sheng, Yu, Cui, Yongzheng, Liu, Run, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Luo, Biao, editor, Cheng, Long, editor, Wu, Zheng-Guang, editor, Li, Hongyi, editor, and Li, Chaojie, editor

Published
2024
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25. Eliminating temporal correlation in quantum-dot entangled photon source by quantum interference

Author

Liu, Run-Ze, Qiao, Yu-Kun, Zhong, Han-Sen, Ge, Zhen-Xuan, Wang, Hui, Chung, Tung-Hsun, Lu, Chao-Yang, Huo, Yong-Heng, and Pan, Jian-Wei

Subjects
Quantum Physics
Abstract

Semiconductor quantum dots, as promising solid-state platform, have exhibited deterministic photon pair generation with high polarization entanglement f\textcompwordmark idelity for quantum information applications. However, due to temporal correlation from inherently cascaded emission, photon indistinguishability is limited, which restricts their potential scalability to multi-photon experiments. Here, by utilizing quantum interferences to decouple polarization entanglement from temporal correlation, we improve multi-photon entanglement f\textcompwordmark idelity from $(58.7\pm 2.2)\%$ to $(75.5\pm 2.0)\%$. Our work paves the way to realize scalable and high-quality multi-photon states from quantum dots.

Published
2022
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29. Disagreement and fragmentation in growing groups

Author

Meng, Fanyuan, Zhu, Jiadong, Yao, Yuheng, Fenoaltea, Enrico Maria, Xie, Yubo, Yang, Pingle, Liu, Run-Ran, and Zhang, Jianlin

Subjects
Physics - Physics and Society
Abstract

The arise of disagreement is an emergent phenomenon that can be observed within a growing social group and, beyond a certain threshold, can lead to group fragmentation. To better understand how disagreement emerges, we introduce an analytically tractable model of group formation where individuals have multidimensional binary opinions and the group grows through a noisy homophily principle, i.e., like-minded individuals attract each other with exceptions occurring with some small probability. Assuming that the level of disagreement is correlated with the number of different opinions coexisting within the group, we find analytically and numerically that in growing groups disagreement emerges spontaneously regardless of how small the noise in the system is. Moreover, for groups of infinite size, fragmentation is inevitable. We also show that the model outcomes are robust under different group growth mechanisms., Comment: 17 pages, 3 figures

Published
2022
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31. Stepped-up development of accelerator mass spectrometry method for the detection of 60Fe with the HI-13 tandem accelerator

Author

Zhang, Yang, Yan, Sheng-Quan, He, Ming, Zhao, Qing-Zhang, Zhang, Wen-Hui, Kan, Chao-Xin, Zhou, Jian-Ming, Li, Kang-Ning, Wang, Xiao-Fei, Liu, Jian-Cheng, Peng, Zhao-Hua, Liang, Zhuo, Li, Ai-Ling, Zheng, Jian, Fan, Qi-Wen, Li, Yun-Ju, Wang, You-Bao, Li, Zhi-Hong, Shen, Yang-Ping, Nan, Ding, Nan, Wei, Zhang, Yu-Qiang, Li, Jia-Ying-Hao, Tian, Jun-Wen, Hou, Jiang-Lin, Guo, Chang-Xin, Zhang, Zhi-Cheng, Zhu, Ming-Hao, Chen, Yu-Wen, Jiang, Yu-Chen, Tian, Tao, Ma, Jin-Long, Liu, Yi-Hui, Dong, Jing-Yu, Liu, Run-Long, Ma, Mei-Yue-Nan, Chen, Yong-Shou, Liu, Wei-Ping, and Guo, Bing

Published
2024
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44. 'Preparation and properties of condensed flame retardant ceramic silicone rubber'

Author

CHU Tian-tian, XING Shu-wen, LI Zi-yang, LIU Run-zhu, ZHANG Xiao-a, WANG Cheng-zhong, ZHANG Jun-ying"

Subjects
silicone rubber, dehydrogenation condensation, ceramization, physical and mechanical property, flame retardancy,thermal stability,, Organic chemistry, QD241-441, Chemical engineering, TP155-156, Chemicals: Manufacture, use, etc., TP200-248
Abstract

Flame retardant ceramic silicone rubber was prepared by dehydrogenation condensation using α,ω-hydroxy-terminated polysiloxane as matrix, and composite ceramic powder and fumed silica as fillers. The effects of the amount of composite ceramic powder, type of raw rubber side groups and ablation temperatures on the properties of the flame retardant ceramic silicone rubber were investigated. The results showed that the physical and mechanical properties of 107 silicone rubber containing side methyl group were almost the best when the amount of composite ceramic powder was 120 phr (mass), the tensile strength was 4.69 MPa, elongation at break was 686%, Shore A hardness was 48 and flexural strength was 12.29 MPa. Compared with 107 silicone rubber and 108 silicone rubber containing pendant phenyl group, the ceramic silicone rubber prepared from 109 silicone rubber containing pendant methyl vinyl group had better thermal stability, and the residual carbon mass fraction of composite up to 86% at 1 000 ℃. The ceramic silicone rubber from 109 silicone rubber had better flame retardancy, the limiting oxygen index was 49.5%, and the vertical combustion grade was V-0. In addition, it had a lower ceramization temperature and a good ceramization effect at 600 ℃.

Published
2024
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