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41 results on '"ZHAO Haigen"'

1. Research progress on high temperature structural materials and thermal barrier coatings for hydrogen mixing gas turbines

Author

MEI Hao, SHANG Yong, CHANG Keke, YU Haiyuan, RU Yi, ZHAO Wenyue, ZHAO Haigen, WANG Wenwen, PEI Yanling, LI Shusuo, and GONG Shengkai

Subjects
gas turbine hydrogen fuel, combustion characteristics, superalloys, thermal barrier coatings, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

With the global energy transition and increasing environmental requirements,hydrogen-mixed gas turbines as a high-efficiency and low-emission energy conversion equipment has been widely concerned. This paper reviews the development status of hydrogen-mixed gas turbines domestically and internationally,analyzes the characteristics of hydrogen combustion in gas turbines,explores the impact of hydrogen combustion on complex components and the application of high-temperature materials,and analyzes the performance requirements for hot-end component materials operating under high temperature,high pressure,and corrosive conditions,as well as the main challenges and potential solutions in current material development. The effects of water vapor and hydrogen embrittlement during hydrogen combustion on gas turbine alloys and thermal barrier coatings are discussed in detail.Water vapor accelerates the oxidation and corrosion of alloys,leading to a decline in mechanical properties. Furthermore,hydrogen embrittlement significantly affects the toughness and durability of alloys,increasing the risk of crack propagation and fracture. In terms of the problems,future research should focus on multi-field coupling simulations and accelerated corrosion tests,considering the factors such as temperature,pressure,and different atmospheres to establish realistic environment simulators to evaluate alloy and coating performances. Additionally,the combined effects of hydrogen and water vapor on high-temperature alloys and thermal barrier coatings should be emphasized. This includes investigating the diffusion mechanisms of hydrogen in alloys,interactions with lattice defects,and the microscopic processes leading to hydrogen embrittlement. Building oxidation models in high-temperature water vapor environments,clarifying the dissociation and adsorption mechanisms of water vapor at high temperatures,the hydroxylation of protective oxide films Al2O3 and Cr2O3,and the growth behavior of non-protective oxides(e.g.,spinel) are also essential.

Published
2024
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2. Thin-wall debit effect on creep properties of single crystal superalloys

Author

ZHANG Zengkai, SHANG Yong, CHANG Keke, RU Yi, ZHAO Haigen, ZHAO Wenyue, LI Shusuo, GONG Shengkai, and PEI Yanling

Subjects
single crystal superalloys, thin-wall debit effect, thin section effect, creep, service condition, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

The thin-wall effect of single crystal superalloys refers to the phenomenon that when the thickness of the sample and the part is less than 1 mm,the lasting life is reduced, the creep rate is increased and other mechanical properties are significantly attenuated. With the development of the internal cooling structure of advanced aero-engine single crystal blade parts, the structural thickness of some areas decreases, making it a typical thin-walled structure. Thus, it is of great engineering significance to consider the thin-wall effect in the thin-wall region during the design and manufacture of blades. Creep performance is one of the most important properties of superalloys for turbine blade application. This paper summarizes the thin-wall effect in creep performance of the superalloys as well as some advanced experimental equipment in the study of thin-wall effect. Research on thin-wall debit effect of superalloys can be divided into two categories,one is the cause of thin-wall debit,including the relative enhancement of oxidation,more significance in anisotropy,changes in microstructure and the initiation or growth of defects,and the factors that influence the thin-wall debit effect including experimental conditions(temperature,stress,etc.),the processing methods(casting, machining), geometric shape (rectangular cross-section, ring cross-section, film cooling holes). Research on thin-wall debit effect is within the scope of engineering application,as a part of “component level/analog component level” in “building block” verification and evaluation technology,thin-wall debit effect research under service environment or near-service environment conditions is more valuable for application. For this purpose,a variety of advanced experimental equipment platforms have been developed to simulate one or several coupled service conditions(high temperature,high pressure,corrosion/erosion,centrifugal loading) of the blade in the engine. Future research on thin-wall effects should be carried out under conditions closer to actual service conditions by preparing specimens according to the actual blade manufacturing process and conducting experiments on the equipment that simulates the service environment.

Published
2024
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3. Research on TBM Disc Cutter Wear Prediction Based on CSM Model

Author

Wang, He, Wei, Junkun, Yan, Guangyu, Zhao, Haigen, Xu, Jianing, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Halgamuge, Saman K., editor, Zhang, Hao, editor, Zhao, Dingxuan, editor, and Bian, Yongming, editor

Published
2024
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12. Modeling 3D TGO dynamic growth and stresses and the resulting modes of buckling failure in thermal barrier coatings.

Author

Zhang, Jiarui, Guo, Wenqi, Ai, Yanting, Yao, Yudong, Li, Tong, and Zhao, Haigen

Subjects
THERMAL barrier coatings, STRAINS & stresses (Mechanics), RADIAL stresses, THERMAL stresses, FINITE element method
Abstract

Based on experimental data, this study presents a model of the dynamic growth of a thermally grown oxide (TGO) in thermal barrier coatings (TBCs) during thermal cycling. The model was solved using the finite element method. The thermal stress results of the model were compared with experimental results to verify the accuracy of the model. The stress analysis revealed that the combined effect of radial tensile stress and circumferential compressive stress can lead to the delamination of TBCs in a buckling form, which can induce the formation of cracks in TBCs along the axial direction. This observation was consistent with the conclusions drawn from the experimental results. Crack initiation and propagation result from the action of the maximum shear and radial stresses. In addition, the relationship between buckling failure and microscopic cracks was investigated. Thermal cycling induces radial and circumferential cracks, leading to buckling, delamination, and ultimate coating failure as the radial and circumferential cracks interact at the interface. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Distinct Contributions of Climate Change and Anthropogenic Activities to Evapotranspiration and Gross Primary Production Variations over Mainland China.

Author

Huang, Yingchun, Yang, Shengtian, and Zhao, Haigen

Subjects
EFFECT of human beings on climate change, EVAPOTRANSPIRATION, CLIMATIC zones, RESTORATION ecology, VEGETATION greenness, HUMIDITY, CLIMATE change
Abstract

In recent decades, China has experienced substantial climate change and significant vegetation greenness due to the extensive implementation of artificial ecological restoration programs. However, the quantitative contributions of climatic and anthropogenic drivers to the national variations in associated evapotranspiration (ET) and gross primary productivity (GPP) over China at different climate zoning sub-regions remain unclear. Based on the analysis of climate factor and vegetation disturbance trends created by anthropogenic activities, this study constructed a remote sensing-based ecological model consisting of Penman–Monteith–Leuning (PML) and light use efficiency (LUE) components. The proposed model simulated the spatiotemporal changes in ET and GPP between 1999 and 2018 over China. The contributions of climatic factors and anthropogenic activities to ET and GPP variations were quantitatively calculated by ridge regression. The results show that (1) both interannual ET and GPP markedly increased, by 1.32 mm yr−1 and 8.01 g C m−2 yr−1, respectively; (2) vegetation changes due to anthropogenic disturbance made the dominant contribution to GPP variations over China, while the dominant factor influencing ET changes differed by sub-region due to the joint effects of vegetation and climate; (3) temperature and precipitation positively affected ET, while wind speed, humidity, and solar radiation negatively contributed to ET in most parts of Mainland China. These findings may provide a workable, scientific reference for further ecological restoration decision-making processes in China. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Refined Evaluation of Climate Suitability of Maize at Various Growth Stages in Major Maize-Producing Areas in the North of China.

Author

Wang, Xiaowei, Li, Xiaoyu, Lou, Yunsheng, You, Songcai, and Zhao, Haigen

Subjects
PLANTING, ATMOSPHERIC models, FOOD security, ARABLE land
Abstract

The Northeast region of China and Huang Huai Hai (3H) region are vital maize production bases in northern China that are crucial for national food security. The absence of phenological data hinders a detailed assessment of the alignment between maize development stages and climatic resources. This study combines the authors' maize phenology data with climate suitability modeling to evaluate maize's climate suitability at different developmental stages in both regions. This study shows that during the maize growth cycle, the average temperature, precipitation, sunshine, and comprehensive climate suitability were 0.77, 0.49, 0.87, and 0.65, respectively, in the Northeast. In contrast, the average temperature, precipitation, sunshine, and comprehensive climate suitability in the 3H region were 0.98, 0.53, 0.73, and 0.70, respectively. Precipitation is a major factor influencing maize growth, with temperature and sunshine impacting growth differently across regions. Temperature significantly affects maize in the Northeast, while sunshine plays a greater role in the 3H region. The Northeast is suitable for drought-resistant maize varieties, and implementing a late harvest policy in Liaoning could enhance maize yield. The 3H region generally has favorable climatic conditions. Apart from certain parts of Henan needing drought-resistant varieties, areas with ample growing seasons can adopt long-duration varieties to maximize thermal resource utilization. Our results have important implications for optimizing maize planting strategies and enhancing regional resilience, aiming to assess meteorological factors' impact on maize growth in key production areas. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Thickness Debit Effect in Creep Performance of a Ni 3 Al-Based Single-Crystal Superalloy with [001] Orientation.

Author

Zhang, Shuangqi, Ma, Guoquan, Wang, Haibo, Guo, Wenqi, Zhao, Haigen, Shang, Yong, Pei, Yanling, Li, Shusuo, and Gong, Shengkai

Subjects
MATERIAL plasticity, SINGLE crystals, SURFACE defects, TURBINE blades, ALLOYS, NICKEL alloys, HEAT resistant alloys
Abstract

With the complexity of the structure of aero-engine turbine blades, the blade wall thickness continues to decrease. It is found that when the blade wall thickness decreases to a certain extent, its mechanical properties will decline significantly. It is extremely important to study this phenomenon of a significant decline in mechanical properties caused by wall thickness. In this paper, the creep behavior of a second-generation Ni3Al-based single crystal superalloy with different wall thicknesses and [001] orientation at 980 °C/220 MPa has been studied and compared with the creep life of Φ4 round bar. The experimental results show that the second orientation and the surface affected zone are not the main reasons for the reduction of the life of thin-walled samples under this experimental condition. By analyzing the fracture morphology and deformed microstructure of thin-walled samples with different thicknesses, it is found that the thickness debit effect of the single crystal alloy occurs since the effective stress area of the alloy changes due to internal defects and surface affected zone during the creep process. For thicker samples, the creep life of the alloy can be extended by making the samples undergo certain plastic deformation through better plastic deformation coordination ability, while for thinner samples, the plastic coordination ability is poor, and the ability to extend the creep life through plastic deformation is also weaker when the effective stress area of the alloy changes, which leads to the thinner samples being more prone to fracture. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Comprehensive Evaluation of Two Successive V3 and V4 IMERG Final Run Precipitation Products over Mainland China.

Author

Zhao, Haigen, Yang, Shengtian, You, Songcai, Huang, Yingchun, Wang, Qianfeng, and Zhou, Qiuwen

Subjects
*METEOROLOGICAL precipitation, *STANDARD deviations, *REMOTE sensing, *ARTIFICIAL satellites
Abstract

The Integrated Multi-satellitE Retrievals for Global Precipitation Measurement Final Run (IMERGF) product has now been upgraded to Version 4 (V4), which has been available since March 2017. Therefore, it is desirable to evaluate the characteristic differences between the V4 and the previous V3 products. A comprehensive performance evaluation of the errors of the successive V3 and V4 IMERGF products is performed with a comparison of the China daily Precipitation Analysis Products (CPAP) from March 2014 to February 2015. The version 6 Global Satellite Mapping of Precipitation (GSMaP) research product (which is another Global Precipitation Measurement (GPM) based precipitation product) is also used as a comparison in this study. Overall, the IMERGF-V4 product does not exhibit the anticipated improvement for China compared to the IMERGF-V3 product. An analysis of the metrics of annual daily average precipitation over China for the IMERGF-V3 and IMERGF-V4 products indicates a decrease of the relative bias (RB) from 3.70% to -7.18%, a decrease of the correlation coefficient (CC) from 0.91 to 0.89, an increase of the fractional standard error (FSE) from 0.49 to 0.56, and an increase of the root-mean-square error (RMSE) from 0.63 mm to 0.72 mm. Compared to the IMERGF-V3 product, the IMERGF-V4 product exhibits a significant underestimation of precipitation in the Qinghai-Tibetan plateau with a much lower RB of -60.91% (-58.19%, -65.30%, and -63.74%) based on the annual (summer, autumn, and winter) daily average precipitation and an even worse performance during winter (-72.33% of RB). In comparison, the GSMaP product outperforms the IMERGF-V3 and IMERGF-V4 products and has the smallest RMSE (0.47 mm/day), highest CC (0.95), lowest FSE (0.37), and best performance of the RB (-2.39%) in terms of annual daily precipitation over China. However, the GSMaP product underestimates the precipitation more than the IMERGF-V3 product for the arid XJ region. [ABSTRACT FROM AUTHOR]

Published
2018
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