期刊文献+
共找到1,051篇文章
< 1 2 53 >
每页显示 20 50 100
Progress in MOF-based catalyst design and reaction mechanisms for CO_(2)hydrogenation to methanol
1
作者 YU Zhifu JIANG Lei WU Mingbo 《燃料化学学报(中英文)》 北大核心 2026年第1期146-162,共17页
Against the backdrop of escalating global climate change and energy crises,the resource utilization of carbon dioxide(CO_(2)),a major greenhouse gas,has become a crucial pathway for achieving carbon peaking and carbon... Against the backdrop of escalating global climate change and energy crises,the resource utilization of carbon dioxide(CO_(2)),a major greenhouse gas,has become a crucial pathway for achieving carbon peaking and carbon neutrality goals.The hydrogenation of CO_(2)to methanol not only enables carbon sequestration and recycling,but also provides a route to produce high value-added fuels and basic chemical feedstocks,holding significant environmental and economic potential.However,this conversion process is thermodynamically and kinetically limited,and traditional catalyst systems(e.g.,Cu/ZnO/Al_(2)O_(3))exhibit inadequate activity,selectivity,and stability under mild conditions.Therefore,the development of novel high-performance catalysts with precisely tunable structures and functionalities is imperative.Metal-organic frameworks(MOFs),as crystalline porous materials with high surface area,tunable pore structures,and diverse metal-ligand compositions,have the great potential in CO_(2)hydrogenation catalysis.Their structural design flexibility allows for the construction of well-dispersed active sites,tailored electronic environments,and enhanced metal-support interactions.This review systematically summarizes the recent advances in MOF-based and MOF-derived catalysts for CO_(2)hydrogenation to methanol,focusing on four design strategies:(1)spatial confinement and in situ construction,(2)defect engineering and ion-exchange,(3)bimetallic synergy and hybrid structure design,and(4)MOF-derived nanomaterial synthesis.These approaches significantly improve CO_(2)conversion and methanol selectivity by optimizing metal dispersion,interfacial structures,and reaction pathways.The reaction mechanism is further explored by focusing on the three main reaction pathways:the formate pathway(HCOO*),the RWGS(Reverse Water Gas Shift reaction)+CO*hydrogenation pathway,and the trans-COOH pathway.In situ spectroscopic studies and density functional theory(DFT)calculations elucidate the formation and transformation of key intermediates,as well as the roles of active sites,metal-support interfaces,oxygen vacancies,and promoters.Additionally,representative catalytic performance data for MOFbased systems are compiled and compared,demonstrating their advantages over traditional catalysts in terms of CO_(2)conversion,methanol selectivity,and space-time yield.Future perspectives for MOF-based CO_(2)hydrogenation catalysts will prioritize two main directions:structural design and mechanistic understanding.The precise construction of active sites through multi-metallic synergy,defect engineering,and interfacial electronic modulation should be made to enhance catalyst selectivity and stability.In addition,advanced in situ characterization techniques combined with theoretical modeling are essential to unravel the detailed reaction mechanisms and intermediate behaviors,thereby guiding rational catalyst design.Moreover,to enable industrial application,challenges related to thermal/hydrothermal stability,catalyst recyclability,and cost-effective large-scale synthesis must be addressed.The development of green,scalable preparation methods and the integration of MOF catalysts into practical reaction systems(e.g.,flow reactors)will be crucial for bridging the gap between laboratory research and commercial deployment.Ultimately,multi-scale structure-performance optimization and catalytic system integration will be vital for accelerating the industrialization of MOF-based CO_(2)-to-methanol technologies. 展开更多
关键词 CO_(2)hydrogenation metal-organic frameworks(MOFs) catalyst design reaction mechanism METHANOL
在线阅读 下载PDF
Dynamic instability and catastrophe mechanisms of surrounding rock with rigid-flexible coupling supporting structure under bidirectional impact loading
2
作者 YANG Rong-zhou XU Ying +2 位作者 ZHANG Quan HE Man-chao YU Mei-lu 《Journal of Central South University》 2026年第1期224-256,共33页
Aiming at the problem of dynamic instability of hard-brittle jointed rock surrounding in deep tunnel/roadway engineering,combining with the support concepts of"coupling rigidity with flexibility"and"ove... Aiming at the problem of dynamic instability of hard-brittle jointed rock surrounding in deep tunnel/roadway engineering,combining with the support concepts of"coupling rigidity with flexibility"and"overcoming rigidity by flexibility",the prevention and control method with"rigid-flexible coupling(R-F-C)"was put forward.Through numerical simulation calculation,the impact damage process,acoustic emission(AE)evolution characteristics,and element stress/displacement evolution characteristics of unsupported surrounding rock structure model,rigid supporting surrounding rock structure model,and"R-F-C"supporting surrounding rock structure model under horizontal bidirectional impact loading were compared and analyzed.Based on the theory of stress wave propagation,the dynamic instability catastrophe mechanism of three kinds of supporting structure models induced by horizontal bidirectional impact loading was revealed.Based on the Mohr-Coulomb strength theory,the stress discrimination methods of dynamic catastrophe of surrounding rock induced by horizontal bidirectional impact loading under three kinds of supporting structures were proposed.Combined with the above numerical simulation study,the explosion impact physical and mechanical test of"R-F-C"surrounding rock supporting plate structure was further designed and carried out.Finally,combined with the"conceptual model of ball-cliff potential energy instability",the energy driving theory and energy transformation mechanism of impact-induced rockburst under three kinds of supporting structures were discussed deeply.The research results provided a scientific basis for further promoting the effective application of"R-F-C"supporting structure in the prevention and control of dynamic instability of deep tunnel/roadway surrounding rock. 展开更多
关键词 jointed surrounding rock rigid-flexible coupling(R-F-C)supporting structure stress wave propagation acoustic emission(AE) damage evolution impact instability catastrophe mechanism
在线阅读 下载PDF
Realized heritability,cross-resistance patterns,and mechanisms of resistance to thiotraniliprole in Plutella xylostella(L.)
3
作者 YUAN Jing JIANG Yaqin +5 位作者 CHANG Hui LEI Qiyang OUYANG Mingxun CHEN Yingchong CHEN Jing CHEN Jie 《农药学学报》 北大核心 2025年第2期311-321,共11页
Plutella xylostella,a major pest of cruciferous vegetables worldwide,has developed resistance to diamide insecticides.Thiotraniliprole,a novel synthetic diamide insecticide,exhibits excellent activity against P.xylost... Plutella xylostella,a major pest of cruciferous vegetables worldwide,has developed resistance to diamide insecticides.Thiotraniliprole,a novel synthetic diamide insecticide,exhibits excellent activity against P.xylostella.In the present study,we aimed to confirm the resistance risk,cross-resistance,and mechanisms of resistance to thiotraniliprole in P.xylostella.After 40 consecutive generations of thiotraniliprole selection,we obtained a thiotraniliprole-resistance P.xylostella strain with a 5141.58-fold resistance ratio(RR)to thiotraniliprole.The overall realized heritability(h^(2))value of resistance was estimated as 0.9 using threshold trait analysis,indicating that the risk of developing resistance to thiotraniliprole is high in P.xylostella.The thiotraniliprole-resistant(TR)strain showed noticeable cross-resistance to chlorantraniliprole(RR=44670.05),cyantraniliprole(RR=7038.58),and tetrachlorantraniliprole(RR=1506.01),but no cross-resistance to tolfenpyrad,indoxacarb,diafenthiuron,or abamectin compared with the susceptible(S)strain.The enzyme assay data showed that the activities of glutathione-S transferase(GST),carboxylesterase(CarE),and the content of cytochrome P450 monooxygenase(P450s)were significantly higher in the TR strain than in the S strain.Sequencing of the full-length PxRyR cDNA revealed the gene site I4790K in the TR strain with a 100%frequency.This mutation in PxRyR likely underlies the high-level cross-resistance between thiotraniliprole and three other diamide insecticides.These findings provide valuable information for optimizing resistance management strategies to delay thiotraniliprole resistance development and ensure sustainable control of P.xylostella. 展开更多
关键词 Plutella xylostella thiotraniliprole realized heritability CROSS-RESISTANCE detoxifying enzymes ryanodine receptor resistance mechanisms
在线阅读 下载PDF
Premature senescence in Bt Cotton:understanding the mechanisms and control measures
4
作者 CHEN Yizhen DONG Hezhong 《Journal of Cotton Research》 2025年第2期314-318,共5页
Premature senescence in Bacillus thuringiensis(Bt)cotton has emerged as a significant challenge to the formation and realization of fiber yield and quality since its commercialization in 1997.Initially,premature senes... Premature senescence in Bacillus thuringiensis(Bt)cotton has emerged as a significant challenge to the formation and realization of fiber yield and quality since its commercialization in 1997.Initially,premature senescence was thought to be an inherent trait associated with the Bt gene.However,subsequent research and practice have demonstrated that it is not directly linked to the Bt gene but rather results from a physiological imbalance between the sink and source,as well as between the root and shoot in Bt cotton.This short review provides an overview of the causes,mechanisms,and control measures for premature senescence in Bt cotton.It offers valuable insights for future research and the sustainable application of transgenic crops. 展开更多
关键词 Bt cotton Premature senescence mechanisms Control measures Agronomic management
在线阅读 下载PDF
Effects of the oxygen transport properties of electrolytes on the reaction mechanisms in lithium-oxygen batteries
5
作者 Aijing Yan Zhuojun Zhang +1 位作者 Xu Xiao Peng Tan 《中国科学技术大学学报》 北大核心 2025年第2期35-42,34,I0001,I0002,共11页
Lithium-oxygen batteries attract considerable attention due to exceptionally high theoretical energy density,while the development remains in its early stage.As is widely suggested,the solution mechanism induces great... Lithium-oxygen batteries attract considerable attention due to exceptionally high theoretical energy density,while the development remains in its early stage.As is widely suggested,the solution mechanism induces greater discharge capacity,while the surface mechanism induces greater cycle stability.Therefore,battery performance can be improved by adjusting the reaction mechanism.Previous studies predominantly focus on extremely thin or flat electrodes.In contrast,this work utilizes thick electrodes,emphasizing the importance of mass transport.Given that the electrolyte solvent is the main site of mass transport,the effects of two typical solvents on mass transport and battery performance are investigated:dimethyl sulfoxide with low viscosity and a high O_(2) diffusion rate and tetraethylene glycol dimethyl ether with high O_(2) solubility and high Li+transport capability.The results reveal a novel pathway for reaction mechanism induction where the mechanism varies with the spatial position of the electrode.As the spatial distribution of the electrode progresses,a layered appearance of solution mechanism products,transition state products,and surface mechanism products emerges,which is attributed to the increase in the mass transfer resistance.This work presents a distinct perspective on the way solvents influence reaction pathways and offers a new approach to regulating reaction pathways. 展开更多
关键词 Li-O_(2)battery nonaqueous electrolyte oxygen transport property solution mechanism surface mechanism
在线阅读 下载PDF
Referral coordination mechanisms in healthcare management
6
作者 Xiaobei Shen Chunfang Yuan +1 位作者 Xiangyin Kong Yue Wang 《中国科学技术大学学报》 北大核心 2025年第8期22-35,I0001,共15页
Referral systems are widely used to coordinate heterogeneous healthcare providers(e.g.,general hospitals(GHs)and community healthcare centers(CHCs))for improved efficiency.This paper investigates referral coordination... Referral systems are widely used to coordinate heterogeneous healthcare providers(e.g.,general hospitals(GHs)and community healthcare centers(CHCs))for improved efficiency.This paper investigates referral coordination within a typical two-tiered system centered around a general hospital(GH)and a community healthcare center(CHC).Specifically,we compare the coordination value of two prevalent mechanisms:one-way referral and two-way referral.We develop a queueing-theoretic model to derive optimal capacity and pricing decisions for the GH and the CHC under each mechanism and then evaluate their relative effectiveness,with key metrics including total system profit,healthcare service prices,and patient waiting times.Our base model yields two key findings.First,counterintuitively,under certain conditions,the one-way referral mechanism can outperform both the two-way mechanism and a non-coordinated baseline.Second,within the one-way framework,full cooperation between the GH and CHCs can lead to a Pareto improvement,benefiting all stakeholders(i.e.,the GH,the CHCs,and the patients).This finding is based on an analysis extended to a system of one GH and multiple CHCs,where we show how a profit allocation scheme can be designed to foster such cooperation.Further analysis of a congested system with referral-dependent arrival rates reveals that the two-way mechanism becomes unequivocally superior.Finally,numerical studies confirm that optimal profits across all scenarios increase with the arrival rates of both severe patients in the GH and common patients in the CHCs. 展开更多
关键词 referral mechanism capacity investment PRICING COORDINATION
在线阅读 下载PDF
A review of the dispersion of graphene in cementitious composites and its mechanisms for improving mechanical properties and durability
7
作者 KONG Xiang-qing BAN Tian-yi +3 位作者 ZHANG Xiao-meng QIAO Wan-fu HOU Bo JIA Dong-zhou 《新型炭材料(中英文)》 北大核心 2025年第6期1219-1245,共27页
Graphene and its derivatives are two-dimensional nanomaterials with exceptional physical and chemical properties.Research has shown that their addition can counter the inherent deficiencies of cementbased composites,i... Graphene and its derivatives are two-dimensional nanomaterials with exceptional physical and chemical properties.Research has shown that their addition can counter the inherent deficiencies of cementbased composites,including low tensile strength,poor toughness,and high susceptibility to cracking.However,because of its high specific surface area and the van der Waals force between layers,graphene is prone to agglomerate in the cement matrix which can make the properties worse.Hence,improving the graphene dispersion is essential.The surface structure and properties of graphene and its derivatives are first introduced,and the different methods for their dispersion in cement-based materials are reviewed.Their effects on the mechanical properties and durability of cement-based materials are then summarized.Based on these results,the microscopic and nanoscopic mechanisms of the way graphene and its derivatives affect cement-based materials are elaborated.Current problems and future trends in this research area are then considered. 展开更多
关键词 Graphene and its derivatives DISPERSION Cement-based materials Mechanical strength DURABILITY
在线阅读 下载PDF
Morphological and physiological mechanisms underlying lodging in cotton stems
8
作者 YU Xinghua ZHOU Mingyan +7 位作者 CHEN Weiming WANG Yukun LU Haiyang WANG Fangyong DU Mingwei HAN Huanyong TIAN Xiaoli LI Zhaohu 《Journal of Cotton Research》 2025年第4期487-501,共15页
Background Cotton lodging has become increasingly prevalent due to extreme environmental conditions and agronomic practices,severely compromising yield,fiber quality,and mechanical harvesting efficiency.However,resear... Background Cotton lodging has become increasingly prevalent due to extreme environmental conditions and agronomic practices,severely compromising yield,fiber quality,and mechanical harvesting efficiency.However,research on cotton lodging remains limited,with most studies focusing on individual or isolated indices rather than a comprehensive system.This study systematically compared four lodging-resistant varieties(LR-1,LR-2,LR-3,LR-4)and four lodging varieties(L-1,L-2,L-3,L-4)across multiple indices:morphological traits,boll distribution,internode filling degree,stem density,mechanical strength,anatomical structure,and chemical composition.Results The results showed that at the boll-opening stage,lodging-resistant varieties exhibited higher density in the first(increased by 11.6%)and third(increased by 23.5%)basal internodes compared with lodging varieties and significantly greater filling degree in the first(increased by 22.6%),second(increased by 23.1%),and third(increased by 26.1%)basal internodes;significantly higher stem puncture strength(increased by 41.2%)and stem bending resistance(increased by 38.2%);and a significantly lower stem lodging coefficient(19.0%lower in lodging-resistant varieties).Additionally,lodging-resistant varieties showed significantly enhanced anatomical structures,including greater cortex thickness,more mechanical tissue layers,and larger pith cavity,xylem,and phloem areas.Conversely,no significant differences were observed in morphological traits,boll distribution,or chemical composition between the lodging-resistant and lodging types.Conclusion Lodging-resistant varieties exhibited thicker cortical tissue and mechanical tissue layers,along with larger xylem area and phloem area in basal internodes.These structural characteristics provide superior support for the filling degree and density of basal internodes,thereby enhancing stem puncture strength and bending resistance,and ultimately improving lodging resistance in cotton.These findings provide a theoretical basis for reducing the occurrence of cotton lodging. 展开更多
关键词 COTTON LODGING Morphological traits Boll distribution Mechanical strength Anatomical structure Chemical composition
在线阅读 下载PDF
Shear mechanical properties and debonding failure mechanisms of bolt-resin-rock anchoring system with anisotropic interfaces
9
作者 NIE Xin-xin YIN Qian +7 位作者 TAO Zhi-gang GUO Long-ji RIABOKON Evgenii ZHU De-fu XIE Liang-fu ZHA Wen-hua WANG Lin-feng REN Ya-jun 《Journal of Central South University》 2025年第7期2535-2552,共18页
This study investigates the shear mechanical responses and debonding failure mechanisms of anchoring systems comprising three anisotropic media and two anisotropic interfaces under controlled boundary conditions of co... This study investigates the shear mechanical responses and debonding failure mechanisms of anchoring systems comprising three anisotropic media and two anisotropic interfaces under controlled boundary conditions of constant normal load(F_(s)),constant normal stiffness(K),and shear rate(v).A systematic analysis of shear mechanical properties,the evolution of maximum principal strain field,and damage characteristics along shear failure surface is presented.Results from direct shear tests demonstrate that initial shear slip diminishes with increasing F_(s)and K,attributed to the normal constraint strengthening effect,while an increase in v enhances initial shear slip due to attenuated deformation coordination and stress transfer.As F_(s)increases from 7.5 to 120 kN,K from 0 to 12 MPa/mm,and v from 0.1 to 2 mm/min,the peak shear load increases by 210.32%and 80.16%with rising F_(s)and K,respectively,while decreases by 38.57%with increasing v.Correspondingly,the shear modulus exhibits,respectively,a 135.29%and 177.06%increase with rising F_(s)and K,and a 37.03%decrease with larger v.Initial shear dilation is identified as marking the formation of shear failure surface along anisotropic interfaces,resulting from the combined shear actions at the resin bolt interface,where resin undergoes shear by bolt surface protrusions,and the resin-rock interface,where mutual shear occurs between resin and rock.With increasing F_(s)and K and decreasing v,the location of the shear failure surface shifts from the resin-rock interface to the resin-bolt interface,accompanied by a transition in failure mode from tensile rupture of resin to shear off at the resin surface. 展开更多
关键词 anchoring system anisotropic interfaces shear mechanical properties strain field evolution debonding failure
在线阅读 下载PDF
Influence of dynamic recrystallization mechanisms on the texture evolution of GH 4706 alloy during hot deformation
10
作者 XIA Yu-feng DU Xiao +4 位作者 SUN Fen ZHENG De-yu ZOU Hao-nan ZENG Yang YANG Wen-bin 《Journal of Central South University》 2025年第10期3675-3692,共18页
In this study,the hot deformation behavior and microstructural evolution of the GH 4706 alloy under various thermal processing parameters(TPPs)were investigated through hot deformation experiments and electron backsca... In this study,the hot deformation behavior and microstructural evolution of the GH 4706 alloy under various thermal processing parameters(TPPs)were investigated through hot deformation experiments and electron backscatter diffraction(EBSD)microstructural characterization.The findings suggest that increasing hot compression temperature(T)and reducing strain rate(ε)enhance the degree of dynamic recrystallization(DRX),significantly reducing flow stress and weakening texture intensity.Increasing strain(ε)promotes DRX,with the overall texture strength initially increasing before decreasing.During hot compression at 1000−1100℃,discontinuous dynamic recrystallization(DDRX),continuous dynamic recrystallization(CDRX),and twin-induced dynamic recrystallization(TDRX)jointly influence texture development.Among these,DDRX plays a dominant role,with numerous DDRX grains exhibiting dispersed orientations,significantly contributing to texture weakening.The CDRX mechanism induces a limited number of randomly oriented grains within the deformed grains,and its contribution to texture weakening is enhanced with increasingεand decreasing T.The TDRX mechanism generates DRX grains withinΣ3 twin boundaries deviating from their theoretical orientation,and these grains inherit the twin orientation,exerting a limited effect on texture weakening.These findings provide a theoretical foundation for a deeper understanding of DRX behavior and texture evolution in the GH 4706 during hot working. 展开更多
关键词 GH4706 alloy dynamic recrystallization mechanism hot deformation parameters texture evolution microstructure
在线阅读 下载PDF
Dynamic response characteristics and failure mechanisms of a high-steep bedding rock slope under successive earthquakes in a high-seismicintensity zone via discrete element method and shaking table tests
11
作者 SONG Dan-qing SHI Wan-peng +4 位作者 HUANG Kun-peng XIN Chun-lei LIU Xiao-li TIAN Yu-xin ZHANG Bing-hui 《Journal of Central South University》 2025年第11期4574-4592,共19页
Steep bedding slopes are widely distributed in Southwestern China’s mountainous regions and have complex seismic responses and instability risks,causing casualties and property losses.Considering the high-seismic-int... Steep bedding slopes are widely distributed in Southwestern China’s mountainous regions and have complex seismic responses and instability risks,causing casualties and property losses.Considering the high-seismic-intensity environment,the dynamic failure evolution and instability mechanism of high-steep bedding slopes are simulated via the discrete element method and shaking table test.The dynamic response characteristics and cumulative failure effects of slopes subjected to continuous ground motion are investigated.The results show that the dynamic response characteristics of slopes under continuous earthquakes are influenced by geological and topographic conditions.Elevation has a distinct impact on both the slope interior and surface,with amplification effects more pronounced on the surface.The weak interlayers have different influences on the dynamic amplification effect of slopes.Weak interlayers have dynamic magnification effects on the slope surface at relative elevations of 0-0.33 and 0.82-1.0 but have weakening effects between 0.33 and 0.82.Moreover,the weak interlayers also have controlling effects on the dynamic instability mode of slopes.The characteristics of intergranular contact failure,fracture propagation,and displacement distribution are analyzed to reveal the dynamic failure evolution and instability mechanism through the discrete-element model.The dynamic instability process of slopes includes three stages:fracture initiation(0-0.2g),fracture expansion(0.2g-0.3g),and sliding instability(0.3g-0.6g).This work can provide a valuable reference for the seismic stability and reinforcement of complex slopes. 展开更多
关键词 dynamic response characteristics failure mechanism high-steep bedding rock slope discrete element method high-seismic-intensity area
在线阅读 下载PDF
FORMATION MECHANISMS AND CONTROL STRATEGIES FOR DIOXINS IN INCINERATION PROCESS OF MUNICIPAL SOLID WASTES 被引量:2
12
作者 Yang Xuemin, Li Ji, Lin Weigang, Yao Jianzhong, Wang Xiaoquan and Xie Yusheng (Institute of Chemical Metallurgy, Chinese Academy of Sciences, Beijing 100080) 《化工学报》 EI CAS CSCD 北大核心 2000年第S1期211-218,共8页
Dioxins, which are of the most toxic materials on the earth, are principal emitted from waste incineration process. The molecular structures, toxicity parameters, such as toxicity equivalency factor, tolerable daily i... Dioxins, which are of the most toxic materials on the earth, are principal emitted from waste incineration process. The molecular structures, toxicity parameters, such as toxicity equivalency factor, tolerable daily intake and physic-chemical properties of dioxins are briefly summarized. Three formation mechanisms of dioxins in waste incineration process, namely as de novo synthesis, mechanisms involving small organic molecular as precursors and homogenous gas phase reaction mechanism are alto reviewed. The influencing factors for dioxins formation during waste incineration process are also discussed. Three major methods for reducing dioxins emission from waste incineration process are discussed based upon the formation mechanisms and influencing factors. A new waste incineration process with low dioxins emission and low hydrogen chloride corrosion has been proposed based on multi- stage unit operation principal according to formation mechanisms of dioxins and potential production location in waste incinerators. 展开更多
关键词 DIOXINS Formation mechanisms Dioxins emission Incineration process Municipal solid wastes PCDDD/Fs
在线阅读 下载PDF
Catalytic cracking mechanisms of tar model compounds 被引量:1
13
作者 陈波 时章明 +1 位作者 蒋绍坚 田红 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第12期3100-3107,共8页
B3LYP/6-31G(d,p) method was used to investigate the catalytic cracking mechanism of biomass tar model compound.Phenol,toluene and benzene were selected as the tar model compounds and CaO was selected as the catalyst.T... B3LYP/6-31G(d,p) method was used to investigate the catalytic cracking mechanism of biomass tar model compound.Phenol,toluene and benzene were selected as the tar model compounds and CaO was selected as the catalyst.The pathways of tar compound radical absorbed by CaO were determined firstly through comparing enthalpy changes of the absorption,and then Mulliken population changes were analyzed.The results show that the absorption of tar model compound radical and CaO is an exothermic reaction.Formation of C—O—Ca is more easily than that of C—Ca—O and formation of Caromatic—Caromatic—Ca—O is more easily than that of Caromatic—C(O)—Ca—O.The C—C bond Mulliken populations in tar model compound radicals are reduced by 11.9%,10.5% and 15.5% in the case of a hydrogen atom removed,and those are 15.7%,14.3% and 16.3% in the case of two hydrogen atoms removed through the absorption of CaO.Catalytic ability of CaO acting on the tar model compound is in an order of phenol>benzene>toluene. 展开更多
关键词 BIOMASS tar model compounds catalytic cracking mechanisms quantum chemistry
在线阅读 下载PDF
Screening antagonistic microbes for seedling blight of rice and study on antagonistic mechanisms 被引量:1
14
作者 REN Li XU Fenghua ZOU Dexun LI Haihui 《Journal of Northeast Agricultural University(English Edition)》 CAS 2007年第2期125-129,共5页
It is shown by the result of the dual-cultured experiment that the inhibitory rate of DZW-47 was 60.42%, and the inhibitory rates of R.solani by actinomyces ZLR-2 and ZLR-11 were 43.75% and 43.05%, lower than that of ... It is shown by the result of the dual-cultured experiment that the inhibitory rate of DZW-47 was 60.42%, and the inhibitory rates of R.solani by actinomyces ZLR-2 and ZLR-11 were 43.75% and 43.05%, lower than that of DZW-47. The inhibitory mycelia growth mechanism of different strains on R.solani was quite different, with DZW-3 mainly on the aspect of hyperparasitism, DZW-21 on the synergism of hyperparasitism and metabolite, DZW-47 on the synergism of nutrient competition and secondary metabolite, ZLR-2 and ZLR-11 on producing secondary metabolite. Controlling efficiency of seedling bed accorded basically with that of the broth. The controlling efficiency of DZW-47, ZLR-2, ZLR-11, DZW-21 and DZW-3 were 97.20%, 95.7%, 94.6%, 93.6% and 89.20%, respectively. 展开更多
关键词 antagonistic microbes Rhizoctonia solani antagonistic mechanisms
在线阅读 下载PDF
Mechanisms of a Synthetic Retinoid in Inhibiting Tumor-Repopulating Cells
15
作者 Yao Zhang Qi Dong +1 位作者 Junwei Chen Ning Wang 《医用生物力学》 EI CAS CSCD 北大核心 2019年第A01期164-165,共2页
Recently we have synthesized a novel small retinoid molecule WYC-209 that can effectively inhibit proliferation of malignant murine melanoma tumor-repopulating cells(TRCs).The molecule can induce 100%TRCs apoptosis at... Recently we have synthesized a novel small retinoid molecule WYC-209 that can effectively inhibit proliferation of malignant murine melanoma tumor-repopulating cells(TRCs).The molecule can induce 100%TRCs apoptosis at 10μM concentration.However,how WYC-209 induces TRCs apoptosis is still elusive.Here we demonstrate that WYC-209 at>6μM concentration started to induce TRCs apoptosis primarily via the caspase 3 pathway by releasing cytochrome c from mitochondria.Interestingly,we found that at concentrations<6μM WYC-209 induced TRCs to elevate dormancy marker COUP TF1 but induced no changes in apoptosis marker P53.Furthermore,proliferation markers Ki67 and PCNA decreased with the increase of WYC-209 concentrations,suggesting that low concentrations of WYC-209 inhibit TRCs growth by inducing cell dormancy instead of causing apoptosis.In addition,TRC traction forces were almost abolished when WYC-209 concentration was at 5μM,preceding the initiation of apoptosis.Our findings demonstrate that inhibition of TRCs by anti-cancer molecule WYC-209 is concentration-dependent and WYC-209 inhibits cellular force generation of the tumor-repopulating cells before inducing apoptosis. 展开更多
关键词 mechanisms a SYNTHETIC RETINOID INHIBITING Tumor-Repopulating Cells
在线阅读 下载PDF
Understanding the mechanisms of friction stir welding based on computer simulation using particles
16
作者 A.Yu.Smolin E.V.Shilko +3 位作者 S.V.Astafurov E.A.Kolubaev G.M.Eremina S.G.Psakhie 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2018年第6期643-656,共14页
Friction stir welding(FSW) is a novel technique for joining different materials without melting. In FSW the welded components are joined by stirring the plasticized material of the welded edges with a special rotating... Friction stir welding(FSW) is a novel technique for joining different materials without melting. In FSW the welded components are joined by stirring the plasticized material of the welded edges with a special rotating pin plunged into the material and moving along the joint line. From the scientific point of view,the key role of the FSW processes belongs to formation of the special plasticized conditions and activation of physical mechanisms of mixing the materials in such conditions to produce the strong homogeneous weld. But it is still a lack of complete understanding of what are these conditions and mechanisms.This paper is devoted to understanding the mechanisms of material mixing in conditions of FSW based on a computer simulation using particles. The movable cellular automaton method(MCA), which is a representative of the particle methods in mechanics of materials, was used to perform all computations.Usually, material flow including material stirring in FSW is simulated using computational fluid mechanics or smoothed particle hydrodynamics, which assume that the material is a continuum and does not take into account the material structure. MCA considers a material as an ensemble of bonded particles. Breaking of inter-particle bonds and formation of new bonds enables simulation of crack nucleation and healing, as well as mass mixing and micro-welding.The paper consists of two main parts. In the first part, the simulations in 2 D statements are performed to study the dynamics of friction stir welding of duralumin plates and influence of different welding regimes on the features of the material stirring and temperature distribution in the forming welded joints. It is shown that the ratio of the rotational speed to the advancing velocity of the tool has a dramatic effect on the joint quality. A suitable choice of these parameters combined with additional ultrasonic impact could considerably reduce the number of pores and microcracks in the weld without significant overheating of the welded materials.The second part of the paper considers simulation in the 3 D statement. These simulations showed that using tool pins of different shape like a cylinder, cone, or pyramid without a shoulder results in negligible motion of the plasticized material in the direction of workpiece thickness. However, the optimal ratio of the advancing velocity to the rotational speed allows transporting of the stirred material around the tool pin several times and hence producing the joint of good quality. 展开更多
关键词 FRICTION STIR WELDING PLASTIC flow Deformation mechanisms Simulation Particle method
在线阅读 下载PDF
The potential therapeutic effect DL0805-2 on experimental pulmonary hypertensive rats and the underlying mechanisms
17
《中国药理学通报》 CAS CSCD 北大核心 2015年第B11期60-61,共2页
Aim DL0805-2 is a novel Rho-kinases inhibitor which has been found to have potent cardiovascular effects. In the present research, we aimed to study the potential of DL0805-2 in the treatment of pulmonary arterial hyp... Aim DL0805-2 is a novel Rho-kinases inhibitor which has been found to have potent cardiovascular effects. In the present research, we aimed to study the potential of DL0805-2 in the treatment of pulmonary arterial hypertension (PAH) and discuss the underlying mechanisms preliminarily. Methods A classical PAH animal model was used, which was established by single injection of 50 mg · kg^-1 monocrotaline (MCT). One week later, the rats were administrated with 1, 3, 10 mg · kg^-1 DL0805-2 via intraperitoneal injection for 18 days. At the end of the experiment, the body weight and survival rate were recorded. Meanwhile, the respiration function, heart function, blood pressure and pulmonary artery pressure were detected. Serum was collected for biochemical index analysis. The weight of vital organs was used to calculate the organ index. Histopathology examination was em-ployed to observe the subtle changes in hearts, vessels and lungs. Furthermore, the mechanisms were studied main- ly by the method of western blotting. Results DL0805-2 did not show significant influence on body weight of PAH rats. But the survival rate of PAH rats treated with 3 and 10 mg · kg^-1 DL0805-2 was increased up to 90. 9% com- pared with the model group (68.2%). DL0805-2 improved the pulmonary artery blood flow especially the maximal -1 -1 velocity (PV max) from 397.2 cm · s^-1 to 506.5, 540. 1 and 574.0 cm · s^-1 respectively. The results of echocar- diography and electrocardiogram show that DL0805-2 had little effect on left ventricle and systemic circulation but attenuated right ventricle injury and decreased the right ventricle pressure from 73.73 mmHg to 47.80, 42.64 and 46.45 mmHg respectively after DL0805-2 intervention. Disease markers of PAH including NT-proBNP in serum and ET-1 in lung tissue homogenate and serum biochemical indicators, ALT, AST and LDH, were reduced by DL0805-2. DL0805-2 also relieved edema of lungs and decreased inflammatory cytokines production. Through the examination on histopathologic slide of pulmonary main artery, right ventricle and lung, DL0805 derivatives were found to have significant protection effect on structural changes of organs induced by pulmonary hypertension. Ac- cording to the preliminary study on the mechanisms of DL0805-2 in PAH, Rho/ROCK pathway was significantly in- hibited by DL0805 derivatives. In addition, DL0805 derivatives showed effect on BMPRII/p-Smad pathway and ap- optosis related pathway. Conclusion DL0805-2 has showed potent treatment effect on the PAH rats. And the un- derlying mechanisms studies also indicated that RhoA/ROCK and BMPRII pathways were involved. This work will provide basis experimental data for the further research and development of DL0805-2. 展开更多
关键词 DL0805-2 PULMONARY ARTERY hypertension mechanisms MONOCROTALINE Rho/ROCK pathway inflamma-tion vascular REMODELING
在线阅读 下载PDF
Experimental studies and failure mechanisms of strain andfault-slip rockburst:A review
18
作者 ZHANG Qing-he WEI Chun-xu +3 位作者 YUAN Liang LIANG Zhi-wei YANG Fa-wang WANG Xiao-rui 《Journal of Central South University》 SCIE EI CAS CSCD 2024年第10期3741-3781,共41页
In recent years,rockburst have gained significant attention as a crucial topic in rock engineering.Strain andfault-slip rockburst are two common types that occur frequently and cause substantial damage.The objective o... In recent years,rockburst have gained significant attention as a crucial topic in rock engineering.Strain andfault-slip rockburst are two common types that occur frequently and cause substantial damage.The objective of thisreview is to conduct a comprehensive study on the experiments and failure mechanisms of strain and fault-slip rockburst.Firstly,the article analyzes the evolving trends in experimental research on rockburst in the past decade,highlightingmechanical properties and failure modes as the primary research focuses in understanding rockburst mechanisms.Subsequently,it provides an overview of the experimental techniques and methods employed for studying both types ofrockburst.Then,with a focus on the mechanical properties and failure modes,the article conducts an extensive analysisof the failure mechanisms associated with strain and fault-slip rockburst.By analyzing experimental data and observingthe failure characteristics of samples,it discusses the variations and common features exhibited by these two types ofrockburst under various test conditions.This analysis is of paramount importance in revealing the causes of rockburstformation and development,as well as in predicting rockburst trends and assessing associated risks.Lastly,thelimitations of current rockburst experiments and future research directions are discussed,followed by a comprehensivesummary of the entire article. 展开更多
关键词 strain rockburst fault-slip rockburst experimental techniques experimental methods failure mechanisms
在线阅读 下载PDF
Kinetics and Dissolution Mechanisms of Oolitic Limestone Under Burial Condition
19
作者 Kangjun Huang Zhengyu Bao Tianfu Zhang 《地学前缘》 EI CAS CSCD 北大核心 2009年第S1期137-137,共1页
In order to study the control factors and mechanism of oolitic limestone reservoir being corroded by organic acid produced in burial stage,the reactions of acetic acid(pH=3)with oolitic limestone were investigated usi... In order to study the control factors and mechanism of oolitic limestone reservoir being corroded by organic acid produced in burial stage,the reactions of acetic acid(pH=3)with oolitic limestone were investigated using the rotating-disk Corrosion Reactor System(CRS).The effects of disk rotational speed,temperature and system pressure were examined. 展开更多
关键词 oolitic limestone reservoir acetic acid dissolution kinetics mechanisms the rotateng-disk corrosion reactor system
在线阅读 下载PDF
Corrosion fatigue crack growth mechanisms in welded joints of marine steel structures 被引量:15
20
作者 XU Qian SHAO Fei +2 位作者 BAI Lin-yue MA Qing-na SHEN Mei 《Journal of Central South University》 SCIE EI CAS CSCD 2021年第1期58-71,共14页
This paper presents a model of fatigue crack growth in a welded joint and a two-dimensional model of anodic dissolution based on Donahue model and anodic dissolution mechanism,respectively.In addition,a model for pred... This paper presents a model of fatigue crack growth in a welded joint and a two-dimensional model of anodic dissolution based on Donahue model and anodic dissolution mechanism,respectively.In addition,a model for predicting the corrosion fatigue crack growth rate in welded joints of steel marine structures is established and crack growth mechanisms are analyzed.The results show that during early stages of crack growth,corrosion fatigue crack growth rate in welded joints is mainly controlled by corrosion action,whereas cyclic loading becomes more influential during the later stage of crack propagation.Loading frequency and effective stress ratio can affect rupture period of protective film at the corrosion fatigue crack tip and the length of corrosion crack increment,respectively,which changes the influence of corrosion action on crack growth rate.However,the impact of stress amplitude on crack growth rate is only significant when crack propagation is caused by cyclic loading.Welding residual stress not only improves the effective stress ratio of cyclic loading,but also promotes crack closure and increases corrosion fatigue crack growth rate in welded joints.Compared to corrosion action,welding residual stress has a more significant influence on crack growth caused by cyclic loading. 展开更多
关键词 welded joints corrosion fatigue growth mechanism multi-factor
在线阅读 下载PDF
上一页 1 2 53 下一页 到第
使用帮助 返回顶部