Research shows that workers drift from their contracted tasks to personal email,social networks and the far corners of the internet for anything between a few hours a week to a few hours a day.Six out of 10people admi...Research shows that workers drift from their contracted tasks to personal email,social networks and the far corners of the internet for anything between a few hours a week to a few hours a day.Six out of 10people admit they can’t get through the workday without checking their social media.展开更多
The system of investing and financing in northeastern area has the character of planned economy.Project conducting is our main strategy in any large-scale area rejuvenating plan,which has been proved lack of sustainab...The system of investing and financing in northeastern area has the character of planned economy.Project conducting is our main strategy in any large-scale area rejuvenating plan,which has been proved lack of sustainable development.This paper proposes some suggestion to reform the system of investing and financing.展开更多
Osteoporotic bone defects pose a significant challenge for bone regeneration as they exhibit impaired healing capacity and delayed healing period.To address this issue,this study introduces a hydrogel that creates a r...Osteoporotic bone defects pose a significant challenge for bone regeneration as they exhibit impaired healing capacity and delayed healing period.To address this issue,this study introduces a hydrogel that creates a rejuvenating microenvironment,thereby facilitating efficient bone repair during the initial two weeks following bone defect surgery.The hydrogel,named GelHFS,was created through host-vip polymerization of gelatin and acrylatedβ-cyclodextrin.Incorporation of the human fetal mesenchymal stem cell secretome(HFS)formed GelHFS hydrogel aimed at mimicking a rejuvenated stem cell niche.Our results demonstrated that GelHFS hydrogel promotes cell stellate spreading and osteogenic differentiation via integrinβ1-induced focal adhesion pathway.Implantation of GelHFS hydrogel in an osteoporotic bone defect rat model recruited endogenous integrinβ1-expressing cells and enhanced new bone formation and bone strength.Our findings reveal that GelHFS hydrogel provides a rejuvenating niche for endogenous MSCs and enhances bone regeneration in osteoporotic bone defect.These findings highlight the potential of GelHFS hydrogel as an effective therapeutic strategy for addressing challenging bone healing such as osteoporotic bone regeneration.展开更多
Politely speaking, immaculately dressed and wearing a pair of glasses, John Dick is a typical British gentleman.He represents the Langham hotel brand well. Dick was recently appointed managing director of Langham Plac...Politely speaking, immaculately dressed and wearing a pair of glasses, John Dick is a typical British gentleman.He represents the Langham hotel brand well. Dick was recently appointed managing director of Langham Place,Beijing, a 26-story five-star hotel located in展开更多
The objective of this paper is to comprehensively review the research progress of bio-oil properties and hot rejuvenation behavior and mechanism to aged asphalt.The preparation process,composition characteristics of b...The objective of this paper is to comprehensively review the research progress of bio-oil properties and hot rejuvenation behavior and mechanism to aged asphalt.The preparation process,composition characteristics of bio-oils and their component correspondence with petroleum asphalt were compared.The diffusion and fusion effects of various bio-oils in aged asphalt were introduced.Bio-oil cannot be used as a direct alternative of petroleum asphalt,but it has the potential to effectively rejuvenate aged asphalt binders due to the component similarity with petroleum asphalt and good diffusion properties.For the asphalt rejuvenation,the functionalization treatment methods of bio-oil were discussed such as purification,composition modification and component conversion.The active groups and derivatives in bio-oil can be converted into the missing components of the aged binder through phenolate,grafting,polycondensation,resinifying,but the conversion process and mechanism are still unclear.From the perspectives of diffusion behavior,components regulation,dissolving asphaltene and micro-rejuvenation effect,the rejuvenation behavior and mechanism of bio-oil on aged asphalt were elaborated,and the effects of various types of bio-oil and aged asphalt on rejuvenation behavior were analyzed.The preparation process and dosage of bio-rejuvenator were summarized.The rejuvenation effects of bio-oil on aged asphalt were comprehensively investigated from the aspects of high and low temperature performances,rheological properties,microstructure and chemical composition of bio-rejuvenated asphalt binders.Finally,the limitations of bio-oil used as asphalt rejuvenators were discussed,and future research directions were prospected,which can provide reference and theoretical basis for the development of high-performance bio-oil rejuvenating agents and the engineering application of bio-oil to improve the properties of aged asphalt materials.展开更多
Recent attention has been directed towards tailoring the internal structure and enhancing the plasticity of metallic glasses(MGs)via rejuvenation treatments.This work aims to comprehensively review the various approac...Recent attention has been directed towards tailoring the internal structure and enhancing the plasticity of metallic glasses(MGs)via rejuvenation treatments.This work aims to comprehensively review the various approaches and underlying mechanisms of inducing rejuvenation in MGs,including thermal-activated methods for deep-cooling cycling treatments and annealing-induced regeneration,mechanical-driven methods of pre-elastic loading and plastic deformation,thermo-mechanically coupled methods for thermo-mechanical creep and thermoplastic forming,and irradiation-induced rejuvenation.Additionally,strategies such as gradient rejuvenation for promoting a favorable distribution of free volume gradients to deflect shear bands are discussed for enhancing plasticity.Finally,the review delves into the challenges and prospects associated with advancing the development of MGs exhibiting high plasticity at ambient conditions.This review is anticipated to contribute to fostering a systematic understanding of the diverse methods and mechanisms employed to enhance the plasticity of MGs via rejuvenation treatments.展开更多
Technological advancements have produced sustainable approaches to pavement preservation and reconstruction procedures.Specific recycling processes are being developed to reuse the asphalt concrete guaranteeing costs ...Technological advancements have produced sustainable approaches to pavement preservation and reconstruction procedures.Specific recycling processes are being developed to reuse the asphalt concrete guaranteeing costs and environmental effects reduction.Reclaimed asphalt pavement(RAP)is the material worldwide used in the road construction sector to ensure the sustainability of asphalt pavement.RAP employment percentages in asphalt concrete layers are increasing.The development of cold mix asphalt(CMA)recycling technique including high amount of RAP is becoming popular especially for localized patching and potholes.Wearing course layers designed for bicycle lanes realized with 100%RAP and CMA technologies are presented in this research.Two cycle paths rehabilitated with different construction technologies in-plant and in-place recycling techniques are compared by performing a trial field and laboratory analysis on compacted and cored samples.An innovative rejuvenator used as additive specifically designed for CMAs is added as rejuvenator in both RAPs.The main goal is to determine the frictional,physical and mechanical characteristics of solutions produced by using high quantity of recycled materials.British pendulum tester(BPT)and Micro GripTester are applied to assess skid performance and indirect tensile strength test(ITS)and Marshall stability is performed to analyse the mechanical behaviour.RAPs skid resistance and physical-mechanical properties provide positive outcomes with viable characteristics for urban soft-mobility solutions.The innovative machine used in the in-place technique demonstrated excellent performance in terms of milling and mixing,representing a valid alternative for repaving applications in the urban context.展开更多
Creep is one of the most typical failure modes for the turbine blades of an aero-engine.The microstructure of the turbine blades after long-term service can be adjusted by rejuvenation heat treatment(RHT)to restore it...Creep is one of the most typical failure modes for the turbine blades of an aero-engine.The microstructure of the turbine blades after long-term service can be adjusted by rejuvenation heat treatment(RHT)to restore its creep properties.In this work,a series of RHT experiments were carried out on a directionally solidified(DS)nickel-based superalloy under different solution temperatures and primary aging temperatures based on the standard heat treatment(SHT)process parameters to investigate the mechanism of temperature influence on DS's microstructure after RHT.It is indicated that a more uniform microstructure can be obtained under higher solution temperatures and lower primary aging temperatures compared to the SHT process.Furthermore,by employing the image processing methods to quantify microstructural parameters,a comprehensive indicator parameter for the RHT effect(marked as Prej)was proposed to characterize the effects of RHT on DS superalloy's microstructure and creep property combined with the entropy weight method.Based on this,a regression model to describe the relationship between RHT process parameters and Prej was constructed by using the response surface methodology(RSM).It is revealed that the optimal solution temperature and primary aging temperature for this DS superalloy are 1283°C and 1095°C,respectively.Then the conclusion was validated through complete creep experiments on the DS superalloy,which showed the creep life after RHT reaches 95.5%of the SHT specimen,and the total life has increased by 20.6%.展开更多
We Built Railways on the Roof of the World Author:Wang Quanquan Paperback,155 pages Published by Foreign Languages Press The jade-green Fuxing(rejuvenation)bullet train,snow white hada(prayer scarves),and beaming face...We Built Railways on the Roof of the World Author:Wang Quanquan Paperback,155 pages Published by Foreign Languages Press The jade-green Fuxing(rejuvenation)bullet train,snow white hada(prayer scarves),and beaming faces keep flashing into the photographer’s lens.展开更多
The utilization of reclaimed asphalt pavement(RAP)in asphalt mixtures has gained momentum in recent years,yet concerns persist regarding the long-term performance and binder properties of high RAP content mixtures.To ...The utilization of reclaimed asphalt pavement(RAP)in asphalt mixtures has gained momentum in recent years,yet concerns persist regarding the long-term performance and binder properties of high RAP content mixtures.To overcome these challenges,rejuvenators have emerged as a promising solution to enhance the properties of aged asphalt binders and improve the overall performance of asphalt mixtures.This paper provides a comprehensive state-of-the-art review of rejuvenator technology and its potential to enhance the performance and sustainability of asphalt pavements.Rejuvenators are additives used to restore the properties of aged asphalt binders,particularly when incorporating high percentages of RAP.The performance of these additives varies based on their origin,and different methods can be used to analyze the rejuvenation process.Since proper specifications for rejuvenators are not available,blending charts are used to determine the optimum dosage of rejuvenators.However,proper blending must be achieved to maximize results and reduce the effect of black rock.Laboratory tests and some field performance studies on rejuvenated aged asphalt binders and RAP mixtures have shown improved or similar performance compared to virgin materials.Additionally,the use of rejuvenators has been observed to reduce construction costs,suggesting that this is a cost-effective technology for asphalt pavements.While rejuvenators show promise in improving the performance of pavements with recycled materials,challenges remain regarding optimization,long-term durability,and environmental effects.This review paper also identifies key areas for future research,including life-cycle cost analyses,comprehensive environmental impact assessments,and long-term field performance monitoring.展开更多
Annealing has been a popular method to improve the soft magnetism of metallic glasses (MGs), which however usually makes MGs brittle and difficult to process. Here, it is demonstrated that the embrittled Fe-based MG c...Annealing has been a popular method to improve the soft magnetism of metallic glasses (MGs), which however usually makes MGs brittle and difficult to process. Here, it is demonstrated that the embrittled Fe-based MG can be reductilized and the coercivity can be further lowered through the rejuvenation of memory effect. The synchronous improvement in the plasticity and soft magnetic properties is attributed to the combination effects of releasing much residual stress, decreasing the magnetic anisotropy, and homogenizing the glasses during the rejuvenation process. The current work opens a new perspective to improve the properties of MGs by utilizing the memory effect and holds promising commercial application potential.展开更多
The effects of rejuvenation heat treatment(RHT)on the serrated flow behavior and fracture mode of nickel-based superalloys(R26)were investigated by tensile tests and microstructural characterization.The serrated flow ...The effects of rejuvenation heat treatment(RHT)on the serrated flow behavior and fracture mode of nickel-based superalloys(R26)were investigated by tensile tests and microstructural characterization.The serrated flow activation energies were determined to be 41−72 and 64−81 kJ/mol before and after RHT,respectively.Dynamic strain aging in the alloy is caused by the diffusion of carbon atoms into dislocation channels in the nickel matrix.Before RHT,carbides are concentrated at the grain boundaries.Cracks initiate from these carbides and propagate along the grain boundaries.RHT dissolves carbides at grain boundaries,transferring crack initiation to the precipitated phase group in the grains.RHT increases carbon atom concentration in the nickel matrix,enhancing dynamic strain aging and serrated flow behavior.展开更多
“Transformation is not simply about shutting down;it is more about eliminating outdated production capacity while nurturing new driving forces,”according to Wan Qian,a member of the Standing Committee of the Xiangxi...“Transformation is not simply about shutting down;it is more about eliminating outdated production capacity while nurturing new driving forces,”according to Wan Qian,a member of the Standing Committee of the Xiangxiang Municipal Party Committee,referring to an eco-friendly chemical industrial park in Xiangxiang City,central China’s Hunan Province.展开更多
The effects of deep cryogenic-cycling treatment(DCT)on the mechanical properties,soft magnetic properties,and atomic scale structure of the Fe_(73.5)Si_(13.5)B_(9)Nb_(3)Cu_(1)amorphous nanocrystalline alloy were inves...The effects of deep cryogenic-cycling treatment(DCT)on the mechanical properties,soft magnetic properties,and atomic scale structure of the Fe_(73.5)Si_(13.5)B_(9)Nb_(3)Cu_(1)amorphous nanocrystalline alloy were investigated.The DCT samples were obtained by subjecting the as-annealed samples to a thermal cycling process between the temperature of the supercooled liquid zone and the temperature of liquid nitrogen.Through flat plate bending testing,hardness measurements,and nanoindentation experiment,it is found that the bending toughness of the DCT samples is improved and the soft magnetic properties are also slightly enhanced.These are attributed to the rejuvenation behavior of the DCT samples,which demonstrate a higher enthalpy of relaxation.Therefore,DCT is an effective method to enhance the bending toughness of Fe-based amorphous nanocrystalline alloys without degrading the soft magnetic properties.展开更多
With socialism with Chinese characteristics entering into a new era,the great rejuvenation of the Chinese nation is now on an irreversible course.China has come ever closer to the center stage of the world.Grasping th...With socialism with Chinese characteristics entering into a new era,the great rejuvenation of the Chinese nation is now on an irreversible course.China has come ever closer to the center stage of the world.Grasping the international landscape,the pulse of the times,the trends of the world,and with the progress of human development in mind,General Secretary Xi Jinping has put forward a series of original diplomatic concepts and major initiatives,creating the Xi Jinping Thought on Diplomacy.展开更多
The history and practice of the great rejuvenation of the Chinese nation show that the founding of the Communist Party of China(CPC)has opened up a new era in the Chinese history and the CPC constitutes the fundamenta...The history and practice of the great rejuvenation of the Chinese nation show that the founding of the Communist Party of China(CPC)has opened up a new era in the Chinese history and the CPC constitutes the fundamental leadership and organizational guarantee for the realization of the great rejuvenation of the Chinese nation.The CPC has united and led the Chinese people in having founded the People’s Republic of China(PRC),in having established the basic socialist system,in having eliminated all exploitation systems,and in having laid the fundamental political premise and institutional foundation for the great rejuvenation of the Chinese nation.The CPC has also led the Chinese people in having carried out Reform and Opening-up,in having launched the road of socialism with Chinese characteristics,and in having realized the great leap of the Chinese nation from standing up to becoming rich.Since its 18th National Congress,standing at the historical starting point of the new era,the CPC has led the people in unremitting struggle,has opened up a new realm of socialism with Chinese characteristics in the new era,and has achieved a historical breakthrough for the Chinese nation from becoming rich to becoming strong.The course of the CPC leading the Chinese people to realize the great rejuvenation of the Chinese nation reflects the systematic thinking of economic development and the integrated utilization of Marxist theory of economic development and traditional theories of economic development.The history of the CPC uniting and leading the people to strive for the great rejuvenation of the Chinese nation enlightens us that the CPC,as the“visible hand”of the cause of socialism with Chinese characteristics,is the fundamental guarantee for the great rejuvenation of the Chinese nation,and China must adhere to the CPC’s leadership.展开更多
Healthy aging is a common goal for humanity and society,and one key to achieving it is the rejuvenation of senescent resident stem cells and empowerment of aging organ regeneration.However,the mechanistic understandin...Healthy aging is a common goal for humanity and society,and one key to achieving it is the rejuvenation of senescent resident stem cells and empowerment of aging organ regeneration.However,the mechanistic understandings of stem cell senescence and the potential strategies to counteract it remain elusive.Here,we reveal that the aging bone microenvironment impairs the Golgi apparatus thus diminishing mesenchymal stem cell(MSC)function and regeneration.Interestingly,replenishment of cell aggregates-derived extracellular vesicles(CA-EVs)rescues Golgi dysfunction and empowers senescent MSCs through the Golgi regulatory protein Syntaxin 5.Importantly,in vivo administration of CA-EVs significantly enhanced the bone defect repair rate and improved bone mass in aging mice,suggesting their therapeutic value for treating age-related osteoporosis and promoting bone regeneration.Collectively,our findings provide insights into Golgi regulation in stem cell senescence and bone aging,which further highlight CA-EVs as a potential rejuvenative approach for aging bone regeneration.展开更多
The“longevity protein”SIRT5 could hold the key to delaying age-related muscle decline.A study led by researchers from the Institute of Zoology(IOZ)of the Chinese Academy of Sciences and Capital Medical University in...The“longevity protein”SIRT5 could hold the key to delaying age-related muscle decline.A study led by researchers from the Institute of Zoology(IOZ)of the Chinese Academy of Sciences and Capital Medical University in Beijing reveals that SIRT5 mitigates skeletal muscle aging by blocking pro-inflammatory pathways.Published in Nature Metabolism on March 14,2025,the work identifies SIRT5’s interaction with protein kinase TBK1 as critical to preserving muscle mass and function.展开更多
By summarizing the characteristics of the global energy structure and China’s energy resource endowment, this study analyzes the historical context and opportunities for China to build an “energy powerhouse”, and p...By summarizing the characteristics of the global energy structure and China’s energy resource endowment, this study analyzes the historical context and opportunities for China to build an “energy powerhouse”, and proposes pathways and measures for its realization. It is indicated that the energy resource endowment in China is characterized by abundant coal, limited oil and gas, and vast renewable potential, coupled with an energy consumption structure characterized by high coal consumption, low oil and gas consumption, and rapidly growing renewable energy use. The “whole-energy system” approach that integrates multi-energy complementarity, green development, stable supply, smart utilization and carbon neutrality is an effective solution to addressing energy transition and energy independence. To build an “energy powerhouse”, China can follow the approach of the steady and orderly low-carbon development of fossil fuels, the safe and scaled development of new energy, the integrated development of a carbon-neutral “whole-energy system”, and the shared development of the “Belt and Road” energy corridor. The construction of an “energy powerhouse” should follow a “three-phase” strategic pathway: from 2025 to 2030, achieving peak primary energy consumption and “carbon peaking”;from 2031 to 2050, energy production will achieve parity with consumption for the first time, striving for “energy independence”;and from 2051 to 2060, aiming for “carbon neutrality”, and establishing an “energy powerhouse”. Building an “energy powerhouse” will fundamentally safeguard national energy security, advance the achievement of carbon neutrality goals, provide Chinese solutions for global energy transition and green Earth construction, and support the modernization and great rejuvenation of the Chinese nation.展开更多
The performance evaluation and chemical property analysis of the recycled warm mix asphalt (RWMA) binders containing 100% artificial reclaimed asphalt ( RA) are presented, and the combined effects of different p...The performance evaluation and chemical property analysis of the recycled warm mix asphalt (RWMA) binders containing 100% artificial reclaimed asphalt ( RA) are presented, and the combined effects of different percentages of the rejuvenator and warm mix additive (WMA) additives on RWMA binders are analyzed through laboratory tests. Three types of WMA additives ad one commercial rejuvenator named GST were selected to restore the artificial RA. The laboratory performace tests including the penetration test, softening test ad rotary, viscosity (RV) test were carried out. In addition, the Fourier transform infrared spectroscopy (FTIR) test was performed to explore the chemical property of RWMA binders. The results of the performance tests indicate that the rejuvenator GST has the ability to restore the artificial RA; choosing the optimum content of WMA additives and rejuvenator is the key to restoring 100% artificial RA, since the combined effects of them play an important role in determining the basic laboratory performance of RWMA binders. The FTIR tests show that the process of recycling mainly adjusts the chemical component of aged asphalt and no remarkable change is observed in the FTI1R spectra of RWMA binders in terms of chemical functional groups with the introduction of WMA additives.展开更多
文摘Research shows that workers drift from their contracted tasks to personal email,social networks and the far corners of the internet for anything between a few hours a week to a few hours a day.Six out of 10people admit they can’t get through the workday without checking their social media.
文摘The system of investing and financing in northeastern area has the character of planned economy.Project conducting is our main strategy in any large-scale area rejuvenating plan,which has been proved lack of sustainable development.This paper proposes some suggestion to reform the system of investing and financing.
基金National Natural Science Foundation of China(82172430 and 82272505)University Grants Committee,Research Grants Council of the Hong Kong Special Administrative Region,China(14113723,14108720,14121721,14202920,N_CUHK472/22,C7030-18G,T13-402/17-N and AoE/M-402/20)+1 种基金Heath and Medical Research Fund(HMRF)Hong Kong(17180831,08190416 and 09203436)Hong Kong Innovation Technology Commission Funds(PRP/050/19FX),CUHK direct grant(2022.042).
文摘Osteoporotic bone defects pose a significant challenge for bone regeneration as they exhibit impaired healing capacity and delayed healing period.To address this issue,this study introduces a hydrogel that creates a rejuvenating microenvironment,thereby facilitating efficient bone repair during the initial two weeks following bone defect surgery.The hydrogel,named GelHFS,was created through host-vip polymerization of gelatin and acrylatedβ-cyclodextrin.Incorporation of the human fetal mesenchymal stem cell secretome(HFS)formed GelHFS hydrogel aimed at mimicking a rejuvenated stem cell niche.Our results demonstrated that GelHFS hydrogel promotes cell stellate spreading and osteogenic differentiation via integrinβ1-induced focal adhesion pathway.Implantation of GelHFS hydrogel in an osteoporotic bone defect rat model recruited endogenous integrinβ1-expressing cells and enhanced new bone formation and bone strength.Our findings reveal that GelHFS hydrogel provides a rejuvenating niche for endogenous MSCs and enhances bone regeneration in osteoporotic bone defect.These findings highlight the potential of GelHFS hydrogel as an effective therapeutic strategy for addressing challenging bone healing such as osteoporotic bone regeneration.
文摘Politely speaking, immaculately dressed and wearing a pair of glasses, John Dick is a typical British gentleman.He represents the Langham hotel brand well. Dick was recently appointed managing director of Langham Place,Beijing, a 26-story five-star hotel located in
基金financially supported by the National Natural Science Foundation of China(Grant Nos.52378432 and 52278426)the Key Research and Development Program of Shaanxi Province(Grant No.2022SF-169).
文摘The objective of this paper is to comprehensively review the research progress of bio-oil properties and hot rejuvenation behavior and mechanism to aged asphalt.The preparation process,composition characteristics of bio-oils and their component correspondence with petroleum asphalt were compared.The diffusion and fusion effects of various bio-oils in aged asphalt were introduced.Bio-oil cannot be used as a direct alternative of petroleum asphalt,but it has the potential to effectively rejuvenate aged asphalt binders due to the component similarity with petroleum asphalt and good diffusion properties.For the asphalt rejuvenation,the functionalization treatment methods of bio-oil were discussed such as purification,composition modification and component conversion.The active groups and derivatives in bio-oil can be converted into the missing components of the aged binder through phenolate,grafting,polycondensation,resinifying,but the conversion process and mechanism are still unclear.From the perspectives of diffusion behavior,components regulation,dissolving asphaltene and micro-rejuvenation effect,the rejuvenation behavior and mechanism of bio-oil on aged asphalt were elaborated,and the effects of various types of bio-oil and aged asphalt on rejuvenation behavior were analyzed.The preparation process and dosage of bio-rejuvenator were summarized.The rejuvenation effects of bio-oil on aged asphalt were comprehensively investigated from the aspects of high and low temperature performances,rheological properties,microstructure and chemical composition of bio-rejuvenated asphalt binders.Finally,the limitations of bio-oil used as asphalt rejuvenators were discussed,and future research directions were prospected,which can provide reference and theoretical basis for the development of high-performance bio-oil rejuvenating agents and the engineering application of bio-oil to improve the properties of aged asphalt materials.
基金funding support from the National Natural Science Foundation of China(Nos.51301078,51361017,51461026,51861016,52061021)the European Research Council(Nos.ERC-2013-ADG-340025,ERC-2019-PoC-862485)the Austrian Science Fund(No.I3937-N36).
文摘Recent attention has been directed towards tailoring the internal structure and enhancing the plasticity of metallic glasses(MGs)via rejuvenation treatments.This work aims to comprehensively review the various approaches and underlying mechanisms of inducing rejuvenation in MGs,including thermal-activated methods for deep-cooling cycling treatments and annealing-induced regeneration,mechanical-driven methods of pre-elastic loading and plastic deformation,thermo-mechanically coupled methods for thermo-mechanical creep and thermoplastic forming,and irradiation-induced rejuvenation.Additionally,strategies such as gradient rejuvenation for promoting a favorable distribution of free volume gradients to deflect shear bands are discussed for enhancing plasticity.Finally,the review delves into the challenges and prospects associated with advancing the development of MGs exhibiting high plasticity at ambient conditions.This review is anticipated to contribute to fostering a systematic understanding of the diverse methods and mechanisms employed to enhance the plasticity of MGs via rejuvenation treatments.
文摘Technological advancements have produced sustainable approaches to pavement preservation and reconstruction procedures.Specific recycling processes are being developed to reuse the asphalt concrete guaranteeing costs and environmental effects reduction.Reclaimed asphalt pavement(RAP)is the material worldwide used in the road construction sector to ensure the sustainability of asphalt pavement.RAP employment percentages in asphalt concrete layers are increasing.The development of cold mix asphalt(CMA)recycling technique including high amount of RAP is becoming popular especially for localized patching and potholes.Wearing course layers designed for bicycle lanes realized with 100%RAP and CMA technologies are presented in this research.Two cycle paths rehabilitated with different construction technologies in-plant and in-place recycling techniques are compared by performing a trial field and laboratory analysis on compacted and cored samples.An innovative rejuvenator used as additive specifically designed for CMAs is added as rejuvenator in both RAPs.The main goal is to determine the frictional,physical and mechanical characteristics of solutions produced by using high quantity of recycled materials.British pendulum tester(BPT)and Micro GripTester are applied to assess skid performance and indirect tensile strength test(ITS)and Marshall stability is performed to analyse the mechanical behaviour.RAPs skid resistance and physical-mechanical properties provide positive outcomes with viable characteristics for urban soft-mobility solutions.The innovative machine used in the in-place technique demonstrated excellent performance in terms of milling and mixing,representing a valid alternative for repaving applications in the urban context.
基金Supported by National Natural Science Foundation of China(Grant No.52275142)Science Center for Gas Turbine Project(Grant Nos.P2022-AIII-003-001,P2022-B-III-005-001)+1 种基金National Science and Technology Major Project(Grant Nos.J2019-IV-0009-0077,Y2022-IV-0002-0019,J2019-IV-0008-0076)National Basic Scientific Research Project(Grant No.JCKY2021601B204)。
文摘Creep is one of the most typical failure modes for the turbine blades of an aero-engine.The microstructure of the turbine blades after long-term service can be adjusted by rejuvenation heat treatment(RHT)to restore its creep properties.In this work,a series of RHT experiments were carried out on a directionally solidified(DS)nickel-based superalloy under different solution temperatures and primary aging temperatures based on the standard heat treatment(SHT)process parameters to investigate the mechanism of temperature influence on DS's microstructure after RHT.It is indicated that a more uniform microstructure can be obtained under higher solution temperatures and lower primary aging temperatures compared to the SHT process.Furthermore,by employing the image processing methods to quantify microstructural parameters,a comprehensive indicator parameter for the RHT effect(marked as Prej)was proposed to characterize the effects of RHT on DS superalloy's microstructure and creep property combined with the entropy weight method.Based on this,a regression model to describe the relationship between RHT process parameters and Prej was constructed by using the response surface methodology(RSM).It is revealed that the optimal solution temperature and primary aging temperature for this DS superalloy are 1283°C and 1095°C,respectively.Then the conclusion was validated through complete creep experiments on the DS superalloy,which showed the creep life after RHT reaches 95.5%of the SHT specimen,and the total life has increased by 20.6%.
文摘We Built Railways on the Roof of the World Author:Wang Quanquan Paperback,155 pages Published by Foreign Languages Press The jade-green Fuxing(rejuvenation)bullet train,snow white hada(prayer scarves),and beaming faces keep flashing into the photographer’s lens.
基金the Office of Research&Economic Development and Department of Civil,Coastal and Environmental Engineering at University of South Alabama for the support.
文摘The utilization of reclaimed asphalt pavement(RAP)in asphalt mixtures has gained momentum in recent years,yet concerns persist regarding the long-term performance and binder properties of high RAP content mixtures.To overcome these challenges,rejuvenators have emerged as a promising solution to enhance the properties of aged asphalt binders and improve the overall performance of asphalt mixtures.This paper provides a comprehensive state-of-the-art review of rejuvenator technology and its potential to enhance the performance and sustainability of asphalt pavements.Rejuvenators are additives used to restore the properties of aged asphalt binders,particularly when incorporating high percentages of RAP.The performance of these additives varies based on their origin,and different methods can be used to analyze the rejuvenation process.Since proper specifications for rejuvenators are not available,blending charts are used to determine the optimum dosage of rejuvenators.However,proper blending must be achieved to maximize results and reduce the effect of black rock.Laboratory tests and some field performance studies on rejuvenated aged asphalt binders and RAP mixtures have shown improved or similar performance compared to virgin materials.Additionally,the use of rejuvenators has been observed to reduce construction costs,suggesting that this is a cost-effective technology for asphalt pavements.While rejuvenators show promise in improving the performance of pavements with recycled materials,challenges remain regarding optimization,long-term durability,and environmental effects.This review paper also identifies key areas for future research,including life-cycle cost analyses,comprehensive environmental impact assessments,and long-term field performance monitoring.
基金support from the National Natural Science Foundation of China(No.52231006)Junqiang Wang acknowledges financial support from the National Key R&D Program of China(No.2018YFA0703600)the National Natural Science Foundation of China(Nos.92163108 and 52222105).
文摘Annealing has been a popular method to improve the soft magnetism of metallic glasses (MGs), which however usually makes MGs brittle and difficult to process. Here, it is demonstrated that the embrittled Fe-based MG can be reductilized and the coercivity can be further lowered through the rejuvenation of memory effect. The synchronous improvement in the plasticity and soft magnetic properties is attributed to the combination effects of releasing much residual stress, decreasing the magnetic anisotropy, and homogenizing the glasses during the rejuvenation process. The current work opens a new perspective to improve the properties of MGs by utilizing the memory effect and holds promising commercial application potential.
基金supported by the National Natural Science Foundation of China(No.52175286)the Tribology Science Fund of State Key Laboratory of Tribology in Advanced Equipment,Tsinghua University,China(No.SKLTKF20B16).
文摘The effects of rejuvenation heat treatment(RHT)on the serrated flow behavior and fracture mode of nickel-based superalloys(R26)were investigated by tensile tests and microstructural characterization.The serrated flow activation energies were determined to be 41−72 and 64−81 kJ/mol before and after RHT,respectively.Dynamic strain aging in the alloy is caused by the diffusion of carbon atoms into dislocation channels in the nickel matrix.Before RHT,carbides are concentrated at the grain boundaries.Cracks initiate from these carbides and propagate along the grain boundaries.RHT dissolves carbides at grain boundaries,transferring crack initiation to the precipitated phase group in the grains.RHT increases carbon atom concentration in the nickel matrix,enhancing dynamic strain aging and serrated flow behavior.
文摘“Transformation is not simply about shutting down;it is more about eliminating outdated production capacity while nurturing new driving forces,”according to Wan Qian,a member of the Standing Committee of the Xiangxiang Municipal Party Committee,referring to an eco-friendly chemical industrial park in Xiangxiang City,central China’s Hunan Province.
基金supported by Liaoning Joint Fund of NSFC(No.U1908219)。
文摘The effects of deep cryogenic-cycling treatment(DCT)on the mechanical properties,soft magnetic properties,and atomic scale structure of the Fe_(73.5)Si_(13.5)B_(9)Nb_(3)Cu_(1)amorphous nanocrystalline alloy were investigated.The DCT samples were obtained by subjecting the as-annealed samples to a thermal cycling process between the temperature of the supercooled liquid zone and the temperature of liquid nitrogen.Through flat plate bending testing,hardness measurements,and nanoindentation experiment,it is found that the bending toughness of the DCT samples is improved and the soft magnetic properties are also slightly enhanced.These are attributed to the rejuvenation behavior of the DCT samples,which demonstrate a higher enthalpy of relaxation.Therefore,DCT is an effective method to enhance the bending toughness of Fe-based amorphous nanocrystalline alloys without degrading the soft magnetic properties.
文摘With socialism with Chinese characteristics entering into a new era,the great rejuvenation of the Chinese nation is now on an irreversible course.China has come ever closer to the center stage of the world.Grasping the international landscape,the pulse of the times,the trends of the world,and with the progress of human development in mind,General Secretary Xi Jinping has put forward a series of original diplomatic concepts and major initiatives,creating the Xi Jinping Thought on Diplomacy.
基金supported by the Research Project titled“The Role of the Global Development Initiative in Promoting Balanced,Coordinated and Inclusive Global Development”(ID:3162022ZYE03)funded by the Basic Research Funds for Centrally Administered Institutions of Tertiary Education.
文摘The history and practice of the great rejuvenation of the Chinese nation show that the founding of the Communist Party of China(CPC)has opened up a new era in the Chinese history and the CPC constitutes the fundamental leadership and organizational guarantee for the realization of the great rejuvenation of the Chinese nation.The CPC has united and led the Chinese people in having founded the People’s Republic of China(PRC),in having established the basic socialist system,in having eliminated all exploitation systems,and in having laid the fundamental political premise and institutional foundation for the great rejuvenation of the Chinese nation.The CPC has also led the Chinese people in having carried out Reform and Opening-up,in having launched the road of socialism with Chinese characteristics,and in having realized the great leap of the Chinese nation from standing up to becoming rich.Since its 18th National Congress,standing at the historical starting point of the new era,the CPC has led the people in unremitting struggle,has opened up a new realm of socialism with Chinese characteristics in the new era,and has achieved a historical breakthrough for the Chinese nation from becoming rich to becoming strong.The course of the CPC leading the Chinese people to realize the great rejuvenation of the Chinese nation reflects the systematic thinking of economic development and the integrated utilization of Marxist theory of economic development and traditional theories of economic development.The history of the CPC uniting and leading the people to strive for the great rejuvenation of the Chinese nation enlightens us that the CPC,as the“visible hand”of the cause of socialism with Chinese characteristics,is the fundamental guarantee for the great rejuvenation of the Chinese nation,and China must adhere to the CPC’s leadership.
基金supported by grants from the National Natural Science Foundation of China(81930025,82201013,82371020,82370949,82100992)the Young Science and Technology Rising Star Project of Shaanxi Province(2023KJXX-027)the China Postdoctoral Science Foundation(BX20230485).
文摘Healthy aging is a common goal for humanity and society,and one key to achieving it is the rejuvenation of senescent resident stem cells and empowerment of aging organ regeneration.However,the mechanistic understandings of stem cell senescence and the potential strategies to counteract it remain elusive.Here,we reveal that the aging bone microenvironment impairs the Golgi apparatus thus diminishing mesenchymal stem cell(MSC)function and regeneration.Interestingly,replenishment of cell aggregates-derived extracellular vesicles(CA-EVs)rescues Golgi dysfunction and empowers senescent MSCs through the Golgi regulatory protein Syntaxin 5.Importantly,in vivo administration of CA-EVs significantly enhanced the bone defect repair rate and improved bone mass in aging mice,suggesting their therapeutic value for treating age-related osteoporosis and promoting bone regeneration.Collectively,our findings provide insights into Golgi regulation in stem cell senescence and bone aging,which further highlight CA-EVs as a potential rejuvenative approach for aging bone regeneration.
文摘The“longevity protein”SIRT5 could hold the key to delaying age-related muscle decline.A study led by researchers from the Institute of Zoology(IOZ)of the Chinese Academy of Sciences and Capital Medical University in Beijing reveals that SIRT5 mitigates skeletal muscle aging by blocking pro-inflammatory pathways.Published in Nature Metabolism on March 14,2025,the work identifies SIRT5’s interaction with protein kinase TBK1 as critical to preserving muscle mass and function.
基金Supported by the National Social Science Fund Major Project(24&ZD106)。
文摘By summarizing the characteristics of the global energy structure and China’s energy resource endowment, this study analyzes the historical context and opportunities for China to build an “energy powerhouse”, and proposes pathways and measures for its realization. It is indicated that the energy resource endowment in China is characterized by abundant coal, limited oil and gas, and vast renewable potential, coupled with an energy consumption structure characterized by high coal consumption, low oil and gas consumption, and rapidly growing renewable energy use. The “whole-energy system” approach that integrates multi-energy complementarity, green development, stable supply, smart utilization and carbon neutrality is an effective solution to addressing energy transition and energy independence. To build an “energy powerhouse”, China can follow the approach of the steady and orderly low-carbon development of fossil fuels, the safe and scaled development of new energy, the integrated development of a carbon-neutral “whole-energy system”, and the shared development of the “Belt and Road” energy corridor. The construction of an “energy powerhouse” should follow a “three-phase” strategic pathway: from 2025 to 2030, achieving peak primary energy consumption and “carbon peaking”;from 2031 to 2050, energy production will achieve parity with consumption for the first time, striving for “energy independence”;and from 2051 to 2060, aiming for “carbon neutrality”, and establishing an “energy powerhouse”. Building an “energy powerhouse” will fundamentally safeguard national energy security, advance the achievement of carbon neutrality goals, provide Chinese solutions for global energy transition and green Earth construction, and support the modernization and great rejuvenation of the Chinese nation.
基金The National Natural Science Foundation of China(No.50578031)
文摘The performance evaluation and chemical property analysis of the recycled warm mix asphalt (RWMA) binders containing 100% artificial reclaimed asphalt ( RA) are presented, and the combined effects of different percentages of the rejuvenator and warm mix additive (WMA) additives on RWMA binders are analyzed through laboratory tests. Three types of WMA additives ad one commercial rejuvenator named GST were selected to restore the artificial RA. The laboratory performace tests including the penetration test, softening test ad rotary, viscosity (RV) test were carried out. In addition, the Fourier transform infrared spectroscopy (FTIR) test was performed to explore the chemical property of RWMA binders. The results of the performance tests indicate that the rejuvenator GST has the ability to restore the artificial RA; choosing the optimum content of WMA additives and rejuvenator is the key to restoring 100% artificial RA, since the combined effects of them play an important role in determining the basic laboratory performance of RWMA binders. The FTIR tests show that the process of recycling mainly adjusts the chemical component of aged asphalt and no remarkable change is observed in the FTI1R spectra of RWMA binders in terms of chemical functional groups with the introduction of WMA additives.
