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1. The Combined Effects of Irrigation and Nitrogen Fertilization on Yield and Water and Nitrogen Use Efficiency of Summer Maize

Author

GAO Cuimin, DING Jinli, ZHANG Jiemei, JIANG Yuqin, HE Fang, YANG Yonghui, and WU Jicheng

Subjects
irrigation and nitrogen management, summer maize, yield, water use efficiency, partial productivity of nitrogen, Agriculture (General), S1-972, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978
Abstract

【Objective】 Water and nitrogen are integrative in their impacts on root uptake of water and nutrients from soil. The purpose of this paper is to screen for optimal combination of irrigation and nitrogen fertilization for sustaining summer maize production in north of Henan province. 【Method】 A 3-year experiment designed in randomized block was conducted from 2017 to 2019 in a maize field. It compared three irrigation schedules: rainfed (A1), irrigation twice (A2), and irrigation three times (A3) during growing season of the crop; for each irrigation treatment, there were two nitrogen fertilizations: applying 70%, 20% and 10% of the fertilizer as basal fertilization, at small trumpet and filling stage respectively (B1), applying 60%, 25% and 15% of the fertilizer as basal, at small trumpet and filling stage respectively (B2). During the experiment, we measured water and nitrogen use efficiency, as well as the grain yield. 【Result】 Irrigation amount and nitrogen fertilization in separation affected yield, water use efficiency (WUE) and irrigation water use efficiency (IWUE), as well as partial productivity of the nitrogen (NPFP) far more significantly than their combination. The impact of the treatments on yield, WUE and NPFP in 2017 and 2019 was ranked in the order of A3B2 > A2B2 > A3B1 > A2B1 > A1B2 > A1B1. In 2018, their impact on yield and NPFP was ranked in the order of A3B2 > A3B1 > A2B2 > A2B1 > A1B2 > A1B1 in 2018, and on WUE the ranking was A3B2 > A3B1 > A2B2 > A1B2 > A1B1 > A2B1. There were no significant differences in yield, WUE and NPFP between A3B1 and A2B2. A3B2 gave the highest yield, WUE and NPFP consistently over the three years, increasing by 20.2%~39.6%, 4.8%~10.9% and 20.2%~39.6%, respectively, compared with A1B2. During the experimental period, IWUE decreased as the irrigation frequency increased. The yield and NPFP of A2B2 were 11.3%~21.1% and 11.3%~21.2% higher than those of A1B2. 【Conclusion】 A3B2 was optimal for increasing yield while A2B2 was optimal for improving water use efficiency for maize production in northern Henan province.

Published
2022
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2. Boosting Multimedia Recommendation via Separate Generic and Unique Awareness

Author

He, Zhuangzhuang, Wang, Zihan, Yang, Yonghui, Bai, Haoyue, and Wu, Le

Subjects
Computer Science - Information Retrieval
Abstract

Multimedia recommendation, which incorporates various modalities (e.g., images, texts, etc.) into user or item representation to improve recommendation quality, has received widespread attention. Recent methods mainly focus on cross-modal alignment with self-supervised learning to obtain higher quality representation. Despite remarkable performance, we argue that there is still a limitation: completely aligning representation undermines modality-unique information. We consider that cross-modal alignment is right, but it should not be the entirety, as different modalities contain generic information between them, and each modality also contains unique information. Simply aligning each modality may ignore modality-unique features, thus degrading the performance of multimedia recommendation. To tackle the above limitation, we propose a Separate Alignment aNd Distancing framework (SAND) for multimedia recommendation, which concurrently learns both modal-unique and -generic representation to achieve more comprehensive items representation. First, we split each modal feature into generic and unique part. Then, in the alignment module, for better integration of semantic information between different modalities , we design a SoloSimLoss to align generic modalities. Furthermore, in the distancing module, we aim to distance the unique modalities from the modal-generic so that each modality retains its unique and complementary information. In the light of the flexibility of our framework, we give two technical solutions, the more capable mutual information minimization and the simple negative l2 distance. Finally, extensive experimental results on three popular datasets demonstrate the effectiveness and generalization of our proposed framework.

Published
2024

3. Graph Bottlenecked Social Recommendation

Author

Yang, Yonghui, Wu, Le, Wang, Zihan, He, Zhuangzhuang, Hong, Richang, and Wang, Meng

Subjects
Computer Science - Information Retrieval
Abstract

With the emergence of social networks, social recommendation has become an essential technique for personalized services. Recently, graph-based social recommendations have shown promising results by capturing the high-order social influence. Most empirical studies of graph-based social recommendations directly take the observed social networks into formulation, and produce user preferences based on social homogeneity. Despite the effectiveness, we argue that social networks in the real-world are inevitably noisy~(existing redundant social relations), which may obstruct precise user preference characterization. Nevertheless, identifying and removing redundant social relations is challenging due to a lack of labels. In this paper, we focus on learning the denoised social structure to facilitate recommendation tasks from an information bottleneck perspective. Specifically, we propose a novel Graph Bottlenecked Social Recommendation (GBSR) framework to tackle the social noise issue.GBSR is a model-agnostic social denoising framework, that aims to maximize the mutual information between the denoised social graph and recommendation labels, meanwhile minimizing it between the denoised social graph and the original one. This enables GBSR to learn the minimal yet sufficient social structure, effectively reducing redundant social relations and enhancing social recommendations. Technically, GBSR consists of two elaborate components, preference-guided social graph refinement, and HSIC-based bottleneck learning. Extensive experimental results demonstrate the superiority of the proposed GBSR, including high performances and good generality combined with various backbones. Our code is available at: https://github.com/yimutianyang/KDD24-GBSR., Comment: Accepted by KDD 2024

Published
2024

4. Double Correction Framework for Denoising Recommendation

Author

He, Zhuangzhuang, Wang, Yifan, Yang, Yonghui, Sun, Peijie, Wu, Le, Bai, Haoyue, Gong, Jinqi, Hong, Richang, and Zhang, Min

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence
Abstract

As its availability and generality in online services, implicit feedback is more commonly used in recommender systems. However, implicit feedback usually presents noisy samples in real-world recommendation scenarios (such as misclicks or non-preferential behaviors), which will affect precise user preference learning. To overcome the noisy samples problem, a popular solution is based on dropping noisy samples in the model training phase, which follows the observation that noisy samples have higher training losses than clean samples. Despite the effectiveness, we argue that this solution still has limits. (1) High training losses can result from model optimization instability or hard samples, not just noisy samples. (2) Completely dropping of noisy samples will aggravate the data sparsity, which lacks full data exploitation. To tackle the above limitations, we propose a Double Correction Framework for Denoising Recommendation (DCF), which contains two correction components from views of more precise sample dropping and avoiding more sparse data. In the sample dropping correction component, we use the loss value of the samples over time to determine whether it is noise or not, increasing dropping stability. Instead of averaging directly, we use the damping function to reduce the bias effect of outliers. Furthermore, due to the higher variance exhibited by hard samples, we derive a lower bound for the loss through concentration inequality to identify and reuse hard samples. In progressive label correction, we iteratively re-label highly deterministic noisy samples and retrain them to further improve performance. Finally, extensive experimental results on three datasets and four backbones demonstrate the effectiveness and generalization of our proposed framework., Comment: Accepted by KDD 2024

Published
2024

6. Improving Cognitive Diagnosis Models with Adaptive Relational Graph Neural Networks

Author

Shao, Pengyang, Gao, Chen, Chen, Lei, Yang, Yonghui, Zhang, Kun, and Wang, Meng

Subjects
Computer Science - Computers and Society, Computer Science - Machine Learning
Abstract

Cognitive Diagnosis (CD) algorithms receive growing research interest in intelligent education. Typically, these CD algorithms assist students by inferring their abilities (i.e., their proficiency levels on various knowledge concepts). The proficiency levels can enable further targeted skill training and personalized exercise recommendations, thereby promoting students' learning efficiency in online education. Recently, researchers have found that building and incorporating a student-exercise bipartite graph is beneficial for enhancing diagnostic performance. However, there are still limitations in their studies. On one hand, researchers overlook the heterogeneity within edges, where there can be both correct and incorrect answers. On the other hand, they disregard the uncertainty within edges, e.g., a correct answer can indicate true mastery or fortunate guessing. To address the limitations, we propose Adaptive Semantic-aware Graph-based Cognitive Diagnosis model (ASG-CD), which introduces a novel and effective way to leverage bipartite graph information in CD. Specifically, we first map students, exercises, and knowledge concepts into a latent representation space and combine these latent representations to obtain student abilities and exercise difficulties. After that, we propose a Semantic-aware Graph Neural Network Layer to address edge heterogeneity. This layer splits the original bipartite graph into two subgraphs according to edge semantics, and aggregates information based on these two subgraphs separately. To mitigate the impact of edge uncertainties, we propose an Adaptive Edge Differentiation Layer that dynamically differentiates edges, followed by keeping reliable edges and filtering out uncertain edges. Extensive experiments on three real-world datasets have demonstrated the effectiveness of ASG-CD.

Published
2024

7. Variable white dwarfs in TMTS: Asteroseismological analysis of a ZZ Ceti star, TMTS J17184064+2524314

Author

Guo, Jincheng, Chen, Yanhui, Yang, Yonghui, Wang, Xiaofeng, Lin, Jie, Ma, Xiao-Yu, Xi, Gaobo, Mo, Jun, Filippenko, Alexei V., Brink, Thomas G., Zong, Weikai, Yan, Huahui, Zhao, Jingkun, Zeng, Xiangyun, Chen, Zhihao, Esamdin, Ali, Guo, Fangzhou, Iskandar, Abdusamatjan, Jiang, Xiaojun, Li, Wenxiong, Liu, Cheng, Shi, Jianrong, Song, Xuan, Wang, Letian, Xiang, Danfeng, Yan, Shengyu, and Zhang, Jicheng

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The Tsinghua University-Ma Huateng Telescope for Survey (TMTS) has been constantly monitoring the northern sky since 2020 in search of rapidly variable stars. To find variable white dwarfs (WDs), the TMTS catalog is cross-matched with the WD catalog of Gaia EDR3, resulting in over 3000 light curves of WD candidates. The WD TMTS J17184064+2524314 (hereafter J1718) is the second ZZ~Ceti star discovered among these common sources. Based on the light curves from TMTS, follow-up photometric observations, and TESS, 10 periods and 3 combination periods are detected. A rotation period of $25.12\pm0.18$ hr is derived, according to the identified rotational splitting. Our spectroscopic observation indicates that this WD belongs to DA type with $T_{\rm eff}=11,670\pm604$ K, log $g=8.16\pm0.36$, $M = 0.70\pm0.23$ M$_{\odot}$, and age=$0.51\pm0.34$ Gyr. Based on core-parameterized asteroseismological model grids ($\geqslant$ 14 million), we derive a best-fit solution of $T_{\rm eff}=11,640\pm20$ K, log $g=8.267\pm0.008$, and $M = 0.750\pm0.005$ M$_{\odot}$ for J1718, consistent with the spectral fitting results. For this WD, the corresponding carbon and oxygen abundances in the core are 0.43 and 0.57, respectively. The distance derived from the intrinsic luminosity given by asteroseismology is $64\pm15$ pc, in accord with the distance of $70.1\pm0.2$ pc from Gaia DR3 within the uncertainties., Comment: 11 pages, 8 figures, Accepted for publication in MNRAS. arXiv admin note: text overlap with arXiv:2305.11585

Published
2024

8. Pseudochaotic behavior of deterministic automatic control systems of technical devices

Author

Nikitin Aleksandr, Tagiltsev-Galeta Konstantin, Laktionov Sergey, and Yang Yonghui

Subjects
Environmental sciences, GE1-350
Abstract

А method for generating a pseudo-random response in a linear dynamic system is considered. An example of the system transition to pseudochaotic behavior is given. The calculation of fatigue loads in the toggle plate by the given method is presented. The advantage of this method in calculating fatigue loads is shown.

Published
2021
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9. Drive power calculation of a crushing machine working in shear

Author

Nikitin Aleksandr, Kurochkin Nikita, and Yang Yonghui

Subjects
Environmental sciences, GE1-350
Abstract

The description of crusher design is given, in which the destruction of the processed material occurs due to the forces acting on the crushed piece in the same plane towards each other, while in the processed piece only tangential stresses arise. It makes possible to reduce the energy consumption per unit of finished product by almost two times.

Published
2021
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10. The possible molecular regulation mechanism of CIK cells inhibiting the proliferation of Human Lung Adenocarcinoma NCL-H157 Cells

Author

Li Dengrui, Yang Yonghui, Gao Li, Guo Sumin, Hui Li, Zhu Guiyun, Hou Hongwei, and Wu Shucai

Subjects
ncl-h157, inhibition, cik, vegf, Medicine
Abstract

Cytokine-induced killer (CIK) cells were isolated and proliferation from human peripheral blood and cultured in appropriate growth medium. The biological characteristics of CIK cells were further determined by the characterization of surface markers by flow cytometry. CIK cells inhibited the proliferation of human lung adenocarcinoma NCL-H157 cells. Vascular endothelial growth factor (VEGF) expression was down-regulated in CIK cells co-cultured with NCL-H157 cells by western blotting analysis. Furthermore, in comparison with cells untreated by CIK, the NCL-H157 had a lower proliferation capacity. We proposed that the pharmacological mechanisms of NCL-H157 promoted by CIK can be estimated possibly with different biological significance that can be ascribed to down-regulated VEGF expression in vitro. The results suggest that the VEGF pathway guides developmental inhibiting of NCL-H157, and we speculate that the function of VEGF pathways is to guide NCL-H157 to inhibition by abundant CIK.

Published
2016
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11. Generative Contrastive Graph Learning for Recommendation

Author

Yang, Yonghui, Wu, Zhengwei, Wu, Le, Zhang, Kun, Hong, Richang, Zhang, Zhiqiang, Zhou, Jun, and Wang, Meng

Subjects
Computer Science - Information Retrieval
Abstract

By treating users' interactions as a user-item graph, graph learning models have been widely deployed in Collaborative Filtering(CF) based recommendation. Recently, researchers have introduced Graph Contrastive Learning(GCL) techniques into CF to alleviate the sparse supervision issue, which first constructs contrastive views by data augmentations and then provides self-supervised signals by maximizing the mutual information between contrastive views. Despite the effectiveness, we argue that current GCL-based recommendation models are still limited as current data augmentation techniques, either structure augmentation or feature augmentation. First, structure augmentation randomly dropout nodes or edges, which is easy to destroy the intrinsic nature of the user-item graph. Second, feature augmentation imposes the same scale noise augmentation on each node, which neglects the unique characteristics of nodes on the graph. To tackle the above limitations, we propose a novel Variational Graph Generative-Contrastive Learning(VGCL) framework for recommendation. Specifically, we leverage variational graph reconstruction to estimate a Gaussian distribution of each node, then generate multiple contrastive views through multiple samplings from the estimated distributions, which builds a bridge between generative and contrastive learning. Besides, the estimated variances are tailored to each node, which regulates the scale of contrastive loss for each node on optimization. Considering the similarity of the estimated distributions, we propose a cluster-aware twofold contrastive learning, a node-level to encourage consistency of a node's contrastive views and a cluster-level to encourage consistency of nodes in a cluster. Finally, extensive experimental results on three public datasets clearly demonstrate the effectiveness of the proposed model., Comment: This paper is accepted to SIGIR 2023. Code is avaliable: https://github.com/yimutianyang/SIGIR23-VGCL

Published
2023

15. Properties and Asteroseismological analysis of a new ZZ ceti discovered by TMTS

Author

Guo, Jincheng, Chen, Yanhui, Wang, Xiaofeng, Lin, Jie, Xi, Gaobo, Mo, Jun, Filippenko, Alexei V., Brink, Thomas, Ma, Xiao-Yu, Zong, Weikai, Yang, Yong, Zhao, Jingkun, Zeng, Xiangyun, Chen, Zhihao, Esamdin, Ali, Guo, Fangzhou, Iskandar, Abdusamatjan, Jiang, Xiaojun, Li, Wenxiong, Liu, Cheng, Shi, Jianrong, Song, Xuan, Wang, Letian, Xiang, Danfeng, Yan, Shengyu, Zhang, Jicheng, and Yang, Yonghui

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Tsinghua university-Ma Huateng Telescope for Survey (TMTS) aims to discover rapidly evolving transients by monitoring the northern sky. The TMTS catalog is cross-matched with the white dwarf (WD) catalog of Gaia EDR3, and light curves of more than a thousand WD candidates are obtained so far. Among them, the WD TMTS J23450729+5813146 (hereafter J2345) is one interesting common source. Based on the light curves from the TMTS and follow-up photometric observations, periods of 967.113 s, 973.734 s, 881.525 s, 843.458 s, 806.916 s and 678.273 s are identified. In addition, the TESS observations suggest a 3.39 h period but this can be attributed to the rotation of a comoving M dwarf located within 3". The spectroscopic observation indicates that this WD is DA type with Teff = 11778+/-617K,log g = 8.38+/-0.31,mass=0.84+/-0.20Msun and age=0.704+/-0.377 Gyrs. Asteroseismological analysis reveals a global best-fit solution of Teff =12110+/-10K and mass=0.760+/-0.005Msun,consistent with the spectral fitting results, and Oxygen and Carbon abundances in the core center are 0.73 and 0.27, respectively. The distance derived from the intrinsic luminosity given by asteroseismology is 93 parsec, which is in agreement with the distance of 98 parsec from Gaia DR3. Additionally, kinematic study shows that this WD is likely a thick disk star. The mass of its zero-age main-sequence mass is estimated to be 3.08 Msun and has a main-sequence plus cooling age of roughly 900 Myrs., Comment: 10 pages, 10 figures, accepted for publication in MNRAS

Published
2023
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28. Swarm Multi-agent Trapping Multi-target Control with Obstacle Avoidance

Author

Li, Chenyang, Jiang, Guanjie, Yang, Yonghui, Chen, XueBo, 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, Tan, Ying, editor, Shi, Yuhui, editor, and Luo, Wenjian, editor

Published
2023
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32. Joint Item Recommendation and Attribute Inference: An Adaptive Graph Convolutional Network Approach

Author

Wu, Le, Yang, Yonghui, Zhang, Kun, Hong, Richang, Fu, Yanjie, and Wang, Meng

Subjects
Computer Science - Information Retrieval, Computer Science - Machine Learning
Abstract

In many recommender systems, users and items are associated with attributes, and users show preferences to items. The attribute information describes users'(items') characteristics and has a wide range of applications, such as user profiling, item annotation, and feature-enhanced recommendation. As annotating user (item) attributes is a labor intensive task, the attribute values are often incomplete with many missing attribute values. Therefore, item recommendation and attribute inference have become two main tasks in these platforms. Researchers have long converged that user (item) attributes and the preference behavior are highly correlated. Some researchers proposed to leverage one kind of data for the remaining task, and showed to improve performance. Nevertheless, these models either neglected the incompleteness of user (item) attributes or regarded the correlation of the two tasks with simple models, leading to suboptimal performance of these two tasks. To this end, in this paper, we define these two tasks in an attributed user-item bipartite graph, and propose an Adaptive Graph Convolutional Network (AGCN) approach for joint item recommendation and attribute inference. The key idea of AGCN is to iteratively perform two parts: 1) Learning graph embedding parameters with previously learned approximated attribute values to facilitate two tasks; 2) Sending the approximated updated attribute values back to the attributed graph for better graph embedding learning. Therefore, AGCN could adaptively adjust the graph embedding learning parameters by incorporating both the given attributes and the estimated attribute values, in order to provide weakly supervised information to refine the two tasks. Extensive experimental results on three real-world datasets clearly show the effectiveness of the proposed model., Comment: Accepted by SIGIR2020

Published
2020

33. Learning to Transfer Graph Embeddings for Inductive Graph based Recommendation

Author

Wu, Le, Yang, Yonghui, Chen, Lei, Lian, Defu, Hong, Richang, and Wang, Meng

Subjects
Computer Science - Information Retrieval
Abstract

With the increasing availability of videos, how to edit them and present the most interesting parts to users, i.e., video highlight, has become an urgent need with many broad applications. As users'visual preferences are subjective and vary from person to person, previous generalized video highlight extraction models fail to tailor to users' unique preferences. In this paper, we study the problem of personalized video highlight recommendation with rich visual content. By dividing each video into non-overlapping segments, we formulate the problem as a personalized segment recommendation task with many new segments in the test stage. The key challenges of this problem lie in: the cold-start users with limited video highlight records in the training data and new segments without any user ratings at the test stage. In this paper, we propose an inductive Graph based Transfer learning framework for personalized video highlight Recommendation (TransGRec). TransGRec is composed of two parts: a graph neural network followed by an item embedding transfer network. Specifically, the graph neural network part exploits the higher-order proximity between users and segments to alleviate the user cold-start problem. The transfer network is designed to approximate the learned item embeddings from graph neural networks by taking each item's visual content as input, in order to tackle the new segment problem in the test phase. We design two detailed implementations of the transfer learning optimization function, and we show how the two parts of TransGRec can be efficiently optimized with different transfer learning optimization functions. Extensive experimental results on a real-world dataset clearly show the effectiveness of our proposed model., Comment: Accepted by SIGIR2020

Published
2020

37. Personalized Multimedia Item and Key Frame Recommendation

Author

Wu, Le, Chen, Lei, Yang, Yonghui, Hong, Richang, Ge, Yong, Xie, Xing, and Wang, Meng

Subjects
Computer Science - Information Retrieval
Abstract

When recommending or advertising items to users, an emerging trend is to present each multimedia item with a key frame image (e.g., the poster of a movie). As each multimedia item can be represented as multiple fine-grained visual images (e.g., related images of the movie), personalized key frame recommendation is necessary in these applications to attract users' unique visual preferences. However, previous personalized key frame recommendation models relied on users' fine-grained image behavior of multimedia items (e.g., user-image interaction behavior), which is often not available in real scenarios. In this paper, we study the general problem of joint multimedia item and key frame recommendation in the absence of the fine-grained user-image behavior. We argue that the key challenge of this problem lies in discovering users' visual profiles for key frame recommendation, as most recommendation models would fail without any users' fine-grained image behavior. To tackle this challenge, we leverage users' item behavior by projecting users (items) in two latent spaces: a collaborative latent space and a visual latent space. We further design a model to discern both the collaborative and visual dimensions of users, and model how users make decisive item preferences from these two spaces. As a result, the learned user visual profiles could be directly applied for key frame recommendation. Finally, experimental results on a real-world dataset clearly show the effectiveness of our proposed model on the two recommendation tasks., Comment: The updated version is publised in IJCAI 2019, https://doi.org/10.24963/ijcai.2019/198

Published
2019

38. Multi-Relational Cognitive Diagnosis for Intelligent Education

Author

Wu, Kaifang, Yang, Yonghui, Zhang, Kun, Wu, Le, Liu, Jing, Li, Xin, 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, Fang, Lu, editor, Povey, Daniel, editor, Zhai, Guangtao, editor, Mei, Tao, editor, and Wang, Ruiping, editor

Published
2022
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45. Comprehensive study of the off-axis mechanical behaviors of a Polytetrafluoroethylene‐ coated fabric after 23 Years of service at Shanghai stadium.

Author

Yang, Bin, Yu, Yueyang, Yang, Yonghui, and Zhang, Qilin

Subjects
MECHANICAL behavior of materials, ENVIRONMENTAL degradation, COATED textiles, DETERIORATION of materials, TENSILE tests
Abstract

Coated fabrics can experience mechanical performance degradation due to environmental factors and long-term stress during service. Hence, studying the mechanical behaviors of these materials after aging is crucial. While PTFE (polytetrafluoroethylene)-coated fabrics are more commonly used than PVC (polyvinyl chloride)-coated fabrics, limited research exists on their performance after aging in practical engineering applications. PTFE-coated fabrics are primarily used in large-span fabric structures, where their mechanical performance under tensile-shear stress is crucial. This study aims to investigate the mechanical behaviors of PTFE-coated fabrics after practical aging under tension-shear stress. Test materials included decommissioned Saint-Gobain Sheerfill-II PTFE-coated fabrics, which had served for 23 years at Shanghai Stadium, and identical new fabrics. Monotonic tensile, central tearing, and cyclic tensile tests were conducted at seven different off-axis angles to compare the mechanical properties of aged fabrics with new fabrics, including tensile strength, tearing strength, modulus of elasticity, and ratcheting strain. Additionally, this study explored changes in failure mechanisms, tearing mechanisms, applicability of strength criteria, and suitability of the orthotropic model after aging. This provides a comprehensive understanding of the mechanical behaviors of aged PTFE-coated fabrics and valuable insights for engineering design. [ABSTRACT FROM AUTHOR]

Published
2024
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