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Weakening Mechanism of Sulfate Ions on Grouting Composites in the Strong Weathering Rock of Submarine Tunnels in a Dynamic Seawater Environment
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作者 LI Peng WANG Cheng-qian +3 位作者 LIU Yong SHENG Yu-ming SUN Yue HE Ling-yao 《China Ocean Engineering》 2025年第3期518-528,共11页
Grouting represents a reliable method for strengthening fractured rock masses and preventing seawater infiltration in subsea tunnel engineering. However, grouting composites are continuously subjected to harsh marine ... Grouting represents a reliable method for strengthening fractured rock masses and preventing seawater infiltration in subsea tunnel engineering. However, grouting composites are continuously subjected to harsh marine environments,experiencing both chemical and physical effects from high-concentration erosive seawater ions, elevated water pressure, and complex flow fields. This multi-factor erosion deterioration diminishes the waterproofing capabilities of grouting composites and threatens the service life of subsea tunnel linings. To investigate the erosion deteriortion mechanism induced by sulfate, erosion weakening experiments were conducted using a seawater flow simulation device. The research examined the compressive strength and permeability coefficient of grouting composites under different erosion durations, water-cement ratios, and grouting pressures. In the later stages of the experiment, the strength of grouting composites in the static water erosion control group(SEG) and dynamic water erosion group(DEG) decreased by 31.2% and 18.8%, respectively, compared to the freshwater control group(FG). Futhermore, the permeability coefficient exhibited significant increases. Subsequent microscopic analyses of the eroded grouting composites were performed. This research elucidated the erosion-weakening mechanism of grouting composites subjected to sulfate-induced degradation in complex marine environments. The study emphasizes the critical role of erosion resistance and durability in design and implementation. From practical perspective, this work establishes a foundation for developing enhanced strategies to improve the long-term performance and integrity of grouting composites in subsea tunnel applications. 展开更多
关键词 subsea tunnel grouting composite erosion of sulfate ions dynamic water environment
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Main properties of ultra-high performance fiber reinforced cement composites under couple effect of load and environment
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作者 Saly Fathy 顾春平 孙伟 《Journal of Southeast University(English Edition)》 EI CAS 2012年第2期184-189,共6页
This study aims to reveal the mechanism that how the content of steel fibers and strength grades affect the macro performance of the ultra-high performance fiber reinforced cementitious composite (UHPFRCC) and to st... This study aims to reveal the mechanism that how the content of steel fibers and strength grades affect the macro performance of the ultra-high performance fiber reinforced cementitious composite (UHPFRCC) and to study the UHPFRCC durability under the combined effect of loads and environments. Three types of high and ultra-high performance fiber reinforced cement composites with different strength grades (100, 150, 200 MPa) and different steel fiber volume fractions (0%, 1%, 2%, 3%) are prepared. The main properties of mechanical performance and short-term durability are studied. A preloading frame is designed to apply a four- point load external flexural stress with a stress selection ratio of 0.5 for UHPFRCC150 specimens. The results show that the growth in strength grade with a proper content of steel fiber greatly increases the strength and toughness of the HPFRCC and the UHPFRCC while decreasing the dry-shrinkage ratio. For the loaded specimens, the existence of steel fiber can reduce the negative influence of tensile stress on the Cl- penetration resistance of the UHPFRCC in addition to improving its ability to resist the freeze-thaw damage. 展开更多
关键词 ultra-high performance fiber reinforced cementitious composite couple effect of load and environment mechanical properties DURABILITY
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Effects of Hydrothermal Environment on the Deformation of the Thin Bamboo Bundle Veneer Laminated Composites 被引量:1
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作者 Ge Wang Linbi Chen +2 位作者 Haiying Zhou Shanyu Han Fuming Chen 《Journal of Renewable Materials》 SCIE EI 2023年第3期1499-1511,共13页
To overcome warping in thin bamboo bundle veneer laminated composites(TBLC),their hydrothermal deformation characteristics were systematically investigated in this study.It was found that TBLCs accelerated the release... To overcome warping in thin bamboo bundle veneer laminated composites(TBLC),their hydrothermal deformation characteristics were systematically investigated in this study.It was found that TBLCs accelerated the release of internal stress in the thickness direction in a hydrothermal environment,which increased their warpage.TBLCs showed increased warpage in the width and diagonal directions upon increasing the temperature.The warpage of Type E increased by 155.88%and 66.67%in the width and diagonal directions,respectively,when the temperature increased from 25C to 100C.The symmetrical TBLC with cross-lay-up and odd layers displayed better hydrothermal stability.We revealed that the deformation of the TBLCs could be regulated under the synergistic effect of water and temperature.These results provide a scientific basis for improving the uniformity of bamboo bundle composite materials and for developing thin bamboo bundle fiber composite materials with designable structures and controllable performance. 展开更多
关键词 Thin bamboo bundle veneer laminated composites DEFORMATION hydrothermal environment lay-up structure
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Explanation for peat-forming environments of coal seam 2 and 9^(-2)based on the maceral composition and aromatic compounds in the Xingtai coalfield,China 被引量:2
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作者 SUN Yu-zhuang QIN Shen-jun +2 位作者 LI Yan-heng LIN Ming-yue DING Shu-li 《Journal of Coal Science & Engineering(China)》 2009年第1期16-23,共8页
Maceral composition and aromatic compounds were determined on columnsamples to study the peat-forming environments of Permian coal seam 2 and Carboniferouscoal seam 9^(-2) from the Xingtai coalfield,China.The macerals... Maceral composition and aromatic compounds were determined on columnsamples to study the peat-forming environments of Permian coal seam 2 and Carboniferouscoal seam 9^(-2) from the Xingtai coalfield,China.The macerals were dominated by inertinitein seam 2 and by vitrinite in seam 9^(-2).Three maceral groups were selected as indicatorsof peat-forming environments.Two triangle diagrams were drawn based on the indicatorsto explicate the peat-forming environments of permian seam 2 and Carboniferousseam 9^(-2).The results indicate that the peat of carboniferous seam 9^(-2) formed dominantlyin wet swamps,whereas the peat of Permian seam 2 formed dominantly in dry swampsand open moor environments. 展开更多
关键词 Xingtai coalfield maceral composition aromatic compounds peat-forming environments PERMIAN CARBONIFEROUS
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Progress in 3D Printing of Polymer and Composites for On-Orbit Structure Manufacturing
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作者 Tengfei Liu Xiaoyong Tian +9 位作者 Youwei Kang Haiyang Li Tengrui Yang Haojie Zhang Yuejie Wen Ming Lei Xize Wang Chenglin Zhu Lingling Wu Dichen Li 《Additive Manufacturing Frontiers》 2025年第3期3-21,共19页
In-space 3D printing is transforming the manufacturing paradigm of space structures from ground-based production to in-situ space manufacturing,effectively addressing the challenges of high costs,long response times,a... In-space 3D printing is transforming the manufacturing paradigm of space structures from ground-based production to in-situ space manufacturing,effectively addressing the challenges of high costs,long response times,and structural size limitations associated with traditional rocket launches.This technology enables rapid on-orbit emergency repairs and significantly expands the geometric dimensions of space structures.High-performance polymers and their composites are widely used in in-space 3D printing,yet their implementation faces complex challenges posed by extreme space environmental conditions and limited energy or resources.This paper reviews the state-of-the-art in 3D printing of polymer and composites for on-orbit structure manufacturing.Based on existing research activities,the review focuses on three key aspects including the impact of extreme space environments on forming process and performance,innovative design and manufacturing methods for space structures,and on-orbit recycling and remanufacturing of raw materials.Some experiments that have already been conducted on-orbit and simulated experiments completed on the ground are systematically analyzed to provide a more comprehensive understanding of the constraints and objectives for on-orbit structure manufacturing.Furthermore,several perspectives requiring further research in future are proposed to facilitate the development of new in-space 3D printing technologies and space structures,thereby supporting increasingly advanced space exploration activities. 展开更多
关键词 In-space 3D printing POLYMER composite Extreme environment Space structure on-orbit manufacturing Material recycling
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Recent Progresses and Critical Issues of SiC_f/SiC Composite Under Irradiation Environments
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作者 沙建军 A.Kohyama Y.Katoh 《Plasma Science and Technology》 SCIE EI CAS CSCD 2003年第5期1965-1976,共12页
SiC with fiber-reinforced composites, which are presently considered as the primary structural materials in some fusion reactor conceptual designs, are more attractive and competitive for structural materials in a fus... SiC with fiber-reinforced composites, which are presently considered as the primary structural materials in some fusion reactor conceptual designs, are more attractive and competitive for structural materials in a fusion energy system because of its excellent chemical and mechanical properties such as high fracture toughness, induced-low activation, afterheat under 14MeV neutron irradiation environment at elevated temperature, and good compatibility with coolant and breeder materials. Thus it is important to investigate the research progress of advanced SiC composite, including transmuted helium gas, radiation swelling, radiation effects on mechanical properties, irradiation-enhanced creep, fatigue, physical properties associated with fusion design and their critical issues. This report summarized these results and addressed the major critical issues under irradiation conditions. 展开更多
关键词 SiCf/SiC composite irradiation environments
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Sources of organic matter and paleo-environmental implications inferred from carbon isotope compositions of lacustrine sediments at Inexpressible Island, Ross Sea, Antarctica 被引量:2
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作者 WEI Yangyang JIN Jing +5 位作者 NIE Yaguang CHEN Xin WU Libin FU Pingqing LIU Xiaodong Steven D.Emslie 《Advances in Polar Science》 2016年第4期233-244,共12页
The carbon isotopic composition of organic matter (δ^13Corg) was determined in two sediment cores (IIL1 and IIL9) recovered from Inexpressible Island, Ross Sea, Antarctica, and analyzed to identify the sources of... The carbon isotopic composition of organic matter (δ^13Corg) was determined in two sediment cores (IIL1 and IIL9) recovered from Inexpressible Island, Ross Sea, Antarctica, and analyzed to identify the sources of that organic matter. The δ^13Corg values of sediments of IIL9 were found to vary between -14.6‰ and -11.6‰, with a mean of-13.4‰ (n=48). These values were significantly higher than those of IIL1 sediments which varied between -23.2‰ and -20.4‰, with a mean of-21.8%o (n=55). The variation in δ^13Corg values in these two sediment cores indicate different sources of organic matter, The relatively high 6~3Corg values in IIL9 are in accordance with a source from algae, while the low δ^13Corg values in IIL1 evince significant influence from penguin guano with algae as the secondary source. Compared with the reference data from other high-latitude lake sediments and plants, the δ^13Corg values in IIL9 were extremely high, a result likely related to intense competition for CO2 assimilation among algal species during the growing season in this relatively shallow pond. These results indicate that sedimentary δ^13Corg is a reliable proxy for paleo-primary productivity in ponds at Inexpressible Island. 展开更多
关键词 Inexpressible Island Ross Sea pond sediments lake algae carbon isotopic composition PALEO-environment
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Optimized Composition of Functional Bacteria for Bioremediation of Sediment Environment of Shrimp Culture
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作者 李秋芬 辛福言 +2 位作者 邹玉霞 陈民山 唐启升 《Marine Science Bulletin》 CAS 2004年第2期60-65,共6页
After the single-strain abilities of organic-pollutant-degrading bacteria in bioremediation of sediment environment of shrimp culture are determined, the multi- strain degrading effect of the compositions of different... After the single-strain abilities of organic-pollutant-degrading bacteria in bioremediation of sediment environment of shrimp culture are determined, the multi- strain degrading effect of the compositions of different strains is measured. The results indicate that the multi-strains groups have higher degrading ability than the single -strain groups. Three-strain groups are better than two-strain groups, and four-strain groups are better than three-strain groups and five-strain groups, the groups composed of strains Lt7222, Lt7511, Fc6308 and Gy7018 has the best degrading effect, the CODMn removal rate is 73.2 % in 66 h, and gets to 82.7 % in 114 h, 30 % higher than that of the best single-strain group; Groups of Lt7222, Lt7511, Lt7451 and Gy7018 are the second, whose CODMn removal rate is 82.1 % in 114 h. It is suggested that multi-species bacteria be used as functional bacteria in bioremediation of mariculture environment. 展开更多
关键词 optimized composition functional bacteria BIODEGRADATION BIOREMEDIATION shrimp culture environment
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Energy Consumption and Erosion Mechanism of Polyester Fiber Reinforced Cement Composite in Wind-blown Sand Environments
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作者 HAO Yunhong LIU Yanchen +1 位作者 LI Yonggui GAO Feng 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2022年第4期666-676,共11页
Considering the economic and environmental benefits associated with the recycling of polyester(PET)fibres,it is vital to study the application of fibre-reinforced cement composites.According to the characteristics of ... Considering the economic and environmental benefits associated with the recycling of polyester(PET)fibres,it is vital to study the application of fibre-reinforced cement composites.According to the characteristics of the wind-blown sand environment in Inner Mongolia,the erosion resistance of the polyester fibre-reinforced cement composites(PETFRCC)with different PET fibre contents to various erosion angles,velocities and sand particle flows was investigated by the gas-blast method.Based on the actual conditions of sandstorms in Inner Mongolia,the sand erosion parameters required for testing were calculated by the similarity theory.The elastic-plastic model and rigid plastic model of PETFRCC and cement mortar were established,and the energy consumption mechanism of the model under particle impact was analyzed.The experimental results indicate that the microstructure of PETFRCC rafter hydration causes a spring-like buffering effect,and the deformation of PETFRCC under the same impact load is slightly smaller than that of cement mortar,and the damage mechanism of PETFRCC is mainly characterized by fiber deformation and slight brittle spalling of matrix.And under the most unfavorable conditions of the erosion,the erosion rate of 0.5PETFRCC is about 57.69%lower than that of cement mortar,showing better erosion resistance. 展开更多
关键词 wind-blown sand environment erosion resistance polyester fibre-reinforced cement composite energy consumption mechanism erosion mechanism
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Numerical Simulation of Contamination Accumulation Characteristics of Composite Insulators in Salt Fog Environment
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作者 Yukun Lv Zeze Chen +2 位作者 Quanzhi Ge Qian Wang Yazhao Zhang 《Energy Engineering》 EI 2023年第2期483-499,共17页
To investigate the fouling characteristics of the composite insulator surface under the salt fog environment,the FXBW-110/120-2 composite insulator was taken as the research object.Based on the field-induced charge me... To investigate the fouling characteristics of the composite insulator surface under the salt fog environment,the FXBW-110/120-2 composite insulator was taken as the research object.Based on the field-induced charge mechanism,the multi-physical field coupling software COMSOL was used to numerically simulate the fouling characteristics,explored the calculation method of ESDD,and demonstrated its rationality.Based on this method,the pollution characteristics of the composite insulator under the pollution fog environment were studied,and the influence of wind speed,droplet size,and voltage type on the pollution characteristics of the composite insulator was analyzed.The results showed that:with the increase in wind speed,the amount of accumulated pollution of insulator increases in the range of droplet size,and the relationship between wind speed and accumulated pollution is approximately linear;at the same wind speed,the amount of accumulated pollution increases with the increase of droplet size under the action of DC voltage;when there is no voltage,the amount of dirt on the upper surface of the insulator is more than that on the lower surface,while it is the opposite under DC voltage. 展开更多
关键词 composite insulator numerical simulation fouling characteristics equivalent salt deposit density salt fog environment
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Temporal Variations of the Chemical Composition of Three Seaweeds in Two Tropical Coastal Environments
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作者 Andyara Nascimento Carina Coelho-Gomes +1 位作者 Elisabete Barbarino Sergio Oliveira Lourenco 《Open Journal of Marine Science》 2014年第2期118-139,共22页
The seaweeds Chaetomorpha antennina, Gymnogongrus griffithsiae and Ulva fasciata were studied regarding tissue concentrations of total nitrogen, total phosphorus, total protein, hydrosoluble protein, total carbohydrat... The seaweeds Chaetomorpha antennina, Gymnogongrus griffithsiae and Ulva fasciata were studied regarding tissue concentrations of total nitrogen, total phosphorus, total protein, hydrosoluble protein, total carbohydrate, chlorophyll a and total carotenoid throughout a 39-month survey in two coastal environments of Rio de Janeiro State, Brazil. One of the sites (Itapuca Stone) has high concentrations of dissolved nutrients and an intense long-term process of cultural eutrophication;the second site (Bananal Inlet) is thought to have lower concentrations of dissolved nutrients and no relevant anthropic impact. Seaweeds experienced changes in the concentrations of the substances in the thalli;however they did not show any cyclic seasonal pattern, except for pigments, with lower values in summer in both sites. The differences found for each species in each sampling at the sites were small (e.g. U. fasciata, more total nitrogen at Itapuca Stone) or absent (e.g. C. antennina, no significant differences for hydrosoluble protein in the sites). Differences in the concentrations of dissolved nutrients in the sites did not generate contrasting chemical profiles in the seaweeds. There is no evidence of nitrogen- or phosphorus-limitation in any season. It is presumable that the concentrations of dissolved nutrients at the nutrient-poorer site are sufficient to generate high concentrations of the substances in the thalli of the species tested, similar to the concentrations measured in the eutrophic site. Experimental data are needed to elucidate the factors that promote the success of the species tested under contrasting nutrient availability and environmental disturbance. 展开更多
关键词 Chemical composition Coastal environments Dissolved Nutrients Seaweeds Temporal Variations
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SeCEE: Edge Environment Data Sharing and Processing Framework with Service Composition
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作者 Yasu Zhang Haiquan Wang +1 位作者 Jiejie Zhao Bo An 《国际计算机前沿大会会议论文集》 2018年第1期4-4,共1页
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BUCKLING AND POSTBUCKLING OF LAMINATED THIN CYLINDRICAL SHELLS UNDER HYGROTHERMAL ENVIRONMENTS 被引量:4
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作者 SHEN Hui-shen(沈惠申) 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2001年第3期270-281,共12页
The influence of hygrothermal effects on the buckling and postbuckling of composite laminated cylindrical shells subjected to axial compression is investigated using a micro-to-macro-mechanical analytical model. The m... The influence of hygrothermal effects on the buckling and postbuckling of composite laminated cylindrical shells subjected to axial compression is investigated using a micro-to-macro-mechanical analytical model. The material properties of the composite are affected hy the variation of temperature and moisture, and are hosed on a micromechanical model of a laminate. The governing equations are based on the classical laminated shell theory, and including hygrothermal effects. The nonlinear prebuckling deformations and initial geometric imperfections of the shell were both taken into account. A boundary layer theory of shell buckling was extended to the case of laminated cylindrical shells under hygrothermal environments, and a singular peturbation technique was employed to determine buckling loads and postbuckling equilibrium paths. The numerical illustrations concern the postbuckling behavior of perfect and imperfect, cross-ply laminated cylindrical shells under different sets of environmental conditions. The influences played by temperature rise, the degree of moisture concentration, fiber volume fraction, shell geometric parameter, total number of plies, stacking sequences and initial geometric imperfections are studied. 展开更多
关键词 structural stability POSTBUCKLING hygrothermal environments composite laminated cylindrical shell a boundary layer theory of shell buckling singular perturbation technique
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Effect of Electrical Current on the Tribological Behavior of the Cu-WS_2-G Composites in Air and Vacuum 被引量:10
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作者 QIAN Gang FENG Yi +3 位作者 LI Bin HUANG Shiyin LIU Hongjuan DING Kewang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2013年第2期384-392,共9页
As the traditional graphite-based composites cannot meet the requirement of rapid developing modern industry,novel sliding electrical contact materials with high self-lubricating performance in multiple environments a... As the traditional graphite-based composites cannot meet the requirement of rapid developing modern industry,novel sliding electrical contact materials with high self-lubricating performance in multiple environments are eagerly required.Herein a copper-based composite with WS2 and graphite as solid lubricant are fabricated by powder metallurgy hot-pressed method.The friction and wear behaviors of the composites with and without current are investigated under the condition with sliding velocity of 10 m/s and normal load of 2.5N/cm 2 in both air and vacuum.Morphologies of the worn surfaces are observed by optical microscope and compositions of the lubricating films are analyzed by XPS.Surface profile curves and roughness of the worn surfaces are obtained by 2205 surface profiler.The results of wear tests show that the friction coefficient and wear volume loss of the composites with current are greater than that without current in both air and vacuum due to the adverse effects of electrical current which damaged the lubricating film partially and roughed the worn surfaces.XPS results demonstrate that the lubricating film formed in air is composed of oxides of Cu,WS2,elemental S and graphite,while the lubricating film formed in vacuum is composed of Cu,WS2 and graphite.Because of the synergetic lubricating action of oxides of Cu,WS2 and graphite,the composites show low friction coefficient and wear volume loss in air condition.Owing to the fact that graphite loses its lubricity which makes WS2 become the only lubricant,severe adhesive and abrasive wear occur and result in a high value of wear rate in vacuum condition.The formation of the lubricating film on the contact interface between the brush and ring is one of the factors which can greatly affect the wear performance of the brushes.The low contact voltage drop of the composites in vacuum condition is attributed to the high content of Cu in the surface film.This study fabricated a kind of new sliding electrical contact self-lubricating composite with dual-lubricant which can work well in both air and vacuum environments and provides a comprehensive analysis on the lubrication mechanisms of the composite. 展开更多
关键词 Cu-WS2-G composites electrical current air and vacuum environments friction and wear contact voltage drop
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Variable refractive index in environment matte 被引量:1
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作者 ZHAO Ming-tian XIAO Shuang-jiu +1 位作者 YANG Xu-bo MA Li-zhuang 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2006年第7期1160-1167,共8页
Environment matting and compositing is a technique to extract a foreground object, including color, opacity, reflec- tive and refractive properties, from a real-world scene, and synthesize new images by placing it int... Environment matting and compositing is a technique to extract a foreground object, including color, opacity, reflec- tive and refractive properties, from a real-world scene, and synthesize new images by placing it into new environments. The description of the captured object is named environment matte. Recent matting and compositing techniques can produce quite realistic images for objects with complex optical properties. This paper presents an approximate method to transform the matte by simulating variation of the foreground object’s refractive index. Our algorithms can deal with achromatous-and-transparent ob- jects and the experimental results are visually acceptable. Our idea and method can be applied to produce some special video effects, which could be very useful in film making, compared with the extreme difficulty of physically changing an object’s refractive index. 展开更多
关键词 environment matting and compositing MATTE Refractive index Image-based rendering environment map
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The research on the thermal destruction of environment and controlling techniques of the No.4 outcrops fire in Haibaoqing 被引量:2
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作者 ZHAI Xiao-wei DENG Jun +2 位作者 WEN Hu DAI Ai-ping WU Jian-bin 《Journal of Coal Science & Engineering(China)》 2011年第3期345-348,共4页
The coal fire is one of very serious disasters in natural, not only amount of coal resources was burned and some ecological environment problems such as ground subsidence, acid rain, pollution and vegetation died were... The coal fire is one of very serious disasters in natural, not only amount of coal resources was burned and some ecological environment problems such as ground subsidence, acid rain, pollution and vegetation died were caused serious. The No.4 coal seam outcrops fire in Haibaoqing was take as research object, based on the existing theory of mechanism and characteristics of coal outcrop fires, a new fire-fighting composite gel is applicated which fits in with extinguishment of outcrop coal fires well. The technology has many advantages in extinguishing coal fires including isolating the coal from oxygen and lowering the temperature of the high-temperature coal and rock. The structure and chemical composition as well as fires-fighting properties of the composite gel is analyzed profoundly, as a result, reduce and stop the environment destruction caused by the coal fire. 展开更多
关键词 ecological environment coal spontaneous combustion composite gel outcrop fire the thermal destruction
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Origin and depositional environments of source rocks and crude oils from Niger Delta Basin: Carbon isotopic evidence 被引量:2
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作者 Abiodun B Ogbesejana Oluwasesan M Bello Tijjani Ali 《China Geology》 2020年第4期602-610,共9页
Thirty-nine crude oils and twenty-one rock samples from Niger Delta Basin,Nigeria have been characterized based on their isotope compositions by elemental analysis-isotope ratio mass spectrometry and gas chromatograph... Thirty-nine crude oils and twenty-one rock samples from Niger Delta Basin,Nigeria have been characterized based on their isotope compositions by elemental analysis-isotope ratio mass spectrometry and gas chromatography-isotope ratio mass spectrometry.The bulk carbon isotopic values of the whole rock extracts,saturate and aromatic fractions range from–28.7‰to–26.8‰,–29.2‰to–27.2‰and–28.5‰to–26.7‰,respectively while the bulk carbon isotopic values of the whole oils,saturate and aromatic fractions range from–25.4‰to–27.8‰,–25.9‰to–28.4‰and–23.5‰to–26.9‰,respectively.The average carbon isotopic compositions of individual alkanes(nC12-nC33)in the rock samples range from–34.9‰to–28.2‰whereas the average isotopic values of individual n-alkanes in the oils range from–31.1‰to–23.8‰.Theδ13C isotope ratios of pristane and phytane in the rock samples range from–29.2‰to–28.2‰and–30.2‰to–27.4‰respectively while the pristane and phytane isotopic values range from–32.1‰to–21.9‰and–30.5‰to–26.9‰,respectively.The isotopic values recorded for the samples indicated that the crude oils were formed from the mixed input of terrigenous and marine organic matter and deposited under oxic to sub-oxic condition in lacustrine-fluvial/deltaic environments.The stable carbon isotopic compositions were found to be effective in assessing the origin and depositional environments of crude oils in the Niger Delta Basin. 展开更多
关键词 Crude oils Source rocks Isotopic compositions ORIGIN Niger Delta Basin Depositional environment NIGERIA
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In situ X-ray imaging and numerical modeling of damage accumulation in C/SiC composites at temperatures up to 1200℃ 被引量:2
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作者 Weijian Qian Wanen Zhang +5 位作者 Shengchuan Wu Yue Hu Xiangyu Zhang Qiaodan Hu Shaoming Dong Shantung Tu 《Journal of Materials Science & Technology》 CSCD 2024年第30期65-77,共13页
Carbon fiber reinforced silicon carbide matrix composites(C/SiC)have emerged as key materials for ther-mal protection systems owing to their high strength-to-weight ratio,high-temperature durability,resis-tance to oxi... Carbon fiber reinforced silicon carbide matrix composites(C/SiC)have emerged as key materials for ther-mal protection systems owing to their high strength-to-weight ratio,high-temperature durability,resis-tance to oxidation,and outstanding reliability.However,manufacturing defects deteriorate the mechani-cal response of these composites under extreme thermal-force coupling conditions,prompting significant research attention.This study demonstrates a customized in situ loading device compatible with syn-chrotron radiation facilities,enabling high spatial and temporal resolution recording of internal material damage evolution and failure behavior under thermal-force coupling conditions.Infrared thermal radia-tion units in a confocal configuration were used to create ultra-high-temperature environments,offering advantages of compactness,rapid heating,and versatility.In situ tensile tests were conducted on C/SiC samples in a nitrogen atmosphere at both room temperature and 1200℃.The high-resolution image data demonstrate various failure phenomena,such as matrix cracking and pore linkage.Image-based fi-nite element simulations indicate that the temperature-dependent variation of the failure mechanism is attributable to thermal residual stresses and defect-induced stress concentrations.This work seamlessly integrates extreme mechanical testing methods with in situ observation techniques,providing a compre-hensive solution for accurately quantifying crack initiation,pore connection,and failure behavior of C/SiC composites. 展开更多
关键词 Ceramic matrix composites Extreme environments X-ray computed tomography Internal damage evolution Image-based finite element method
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仿木年轮结构Si_(3)N_(4)/Ni和316配副在海洋环境中的摩擦磨损性能研究
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作者 陈威 王朝 +4 位作者 周奥 李耶童 赵文卓 张建军 杨勇强 《陕西科技大学学报》 北大核心 2026年第1期152-160,共9页
本论文系统研究了仿木年轮Si_(3)N_(4)/Ni复合材料在海水中的摩擦磨损性能.在本研究中,利用热压烧结工艺制备仿木年轮的Si_(3)N_(4)/Ni复合材料,采用端面磨损试验机研究Si_(3)N_(4)/Ni复合材料与316不锈钢配副在人工海水环境中的摩擦磨... 本论文系统研究了仿木年轮Si_(3)N_(4)/Ni复合材料在海水中的摩擦磨损性能.在本研究中,利用热压烧结工艺制备仿木年轮的Si_(3)N_(4)/Ni复合材料,采用端面磨损试验机研究Si_(3)N_(4)/Ni复合材料与316不锈钢配副在人工海水环境中的摩擦磨损性能,利用扫描电子显微镜(SEM)观察与分析摩擦副表面的磨损形貌,采用EDS能谱仪和拉曼光谱来定性分析磨损面的表面元素与物质分布.结果表明,随着滑动速度增大,纯氮化硅和Si_(3)N_(4)/Ni复合材料与316不锈钢配副的摩擦系数均有所增大,在相同速度下,Si_(3)N_(4)/Ni复合材料与316配副表现出较好的摩擦磨损性能.当滑动速度为100 r/min时,Si_(3)N_(4)/Ni-316摩擦副表现出最优的摩擦学性能,摩擦系数为0.45,复合材料销磨损率为1.503×10^(-6)mm^(3)/Nm,金属盘磨损率为1.03×10^(-4)mm^(3)/Nm.Si_(3)N_(4)/Ni复合材料表现出相对较好的摩擦学性能,这主要归因于在复合材料摩擦表面发生了摩擦化学反应,生成硅胶(SiO_(2))和Ni_(2)SiO_(4)等物质,起到了减摩与润滑作用. 展开更多
关键词 Si_(3)N_(4)复合陶瓷 海水环境 摩擦磨损
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含不锈钢片的丙烯酸树脂复合涂层对复合钢界面在海洋环境中的腐蚀防护
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作者 张小艳 王帅 +3 位作者 龙骏 郑开宏 毛凌波 郑志斌 《电镀与涂饰》 北大核心 2026年第2期10-18,共9页
[目的]针对不锈钢-碳钢-不锈钢复合钢界面在海洋环境中暴露易引发过早腐蚀失效的问题,在复合钢边缘切口处涂覆含不锈钢片填料的丙烯酸树脂复合涂层。[方法]采用中性盐雾试验结合电化学测试系统,评价涂层在海洋环境中的腐蚀行为,阐述涂... [目的]针对不锈钢-碳钢-不锈钢复合钢界面在海洋环境中暴露易引发过早腐蚀失效的问题,在复合钢边缘切口处涂覆含不锈钢片填料的丙烯酸树脂复合涂层。[方法]采用中性盐雾试验结合电化学测试系统,评价涂层在海洋环境中的腐蚀行为,阐述涂层对复合钢界面的防护机制。[结果]涂层由不锈钢片在丙烯酸树脂基体中定向排列形成的致密层状结构组成,可以有效提高切口的耐蚀性。涂层的防护性归因于片状填料的迷宫效应和界面处致密腐蚀产物的物理屏蔽作用。[结论]涂层的失效源于腐蚀介质的渗透及界面腐蚀产物的累积,最终导致涂层出现鼓包和破裂。 展开更多
关键词 丙烯酸涂层 不锈钢片 填料 复合钢 界面 海洋环境 腐蚀
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