Lightweight roof greening is an important way for improving urban ecological environment and has good ecological and social benefits, but the investment is- too-high for the investors. Therefore, it is necessary to im...Lightweight roof greening is an important way for improving urban ecological environment and has good ecological and social benefits, but the investment is- too-high for the investors. Therefore, it is necessary to improve the system of lightweight roof greening. This study introduced a lightweight roof greening mode with low cost, simple construction, rapid formation, good economic benefit and convenient curing.展开更多
Roof greening is crucial for improving urban eco-environment, showing benefits, ecological y or social y, but it is so hard for investors in terms of capitals or promotion. The research introduced sponge-type composit...Roof greening is crucial for improving urban eco-environment, showing benefits, ecological y or social y, but it is so hard for investors in terms of capitals or promotion. The research introduced sponge-type composite vegetation carpet techniques and constructionprocess, making a breakthrough in greening form and having formulated a new one.展开更多
Aero-engines,the core of air travel,rely on advanced high strength-toughness alloys(THSAs)such as titanium alloys,nickel-based superalloys,intermetallics,and ultra-high strength steel.The precision of cutting techniqu...Aero-engines,the core of air travel,rely on advanced high strength-toughness alloys(THSAs)such as titanium alloys,nickel-based superalloys,intermetallics,and ultra-high strength steel.The precision of cutting techniques is crucial for the manufacture of key components,including blades,discs,shafts,and gears.However,machining THSAs pose significant challenges,including high cutting forces and temperatures,which lead to rapid tool wear,reduced efficiency,and compromised surface integrity.This review thoroughly explores the current landscape and future directions of cutting techniques for THSAs in aero-engines.It examines the principles,mechanisms,and benefits of energy-assisted cutting technologies like laser-assisted machining and cryogenic cooling.The review assesses various tool preparation methods,their effects on tool performance,and strategies for precise shape and surface integrity control.It also outlines intelligent monitoring technologies for machining process status,covering aspects such as tool wear,surface roughness,and chatter,contributing to intelligent manufacturing.Additionally,it highlights emerging trends and potential future developments,including multi-energy assisted cutting mechanisms,advanced cutting tools,and collaborative control of structure shape and surface integrity,alongside intelligent monitoring software and hardware.This review serves as a reference for achieving efficient and high-quality manufacturing of THSAs in aero-engines.展开更多
In this Letter, we provide a novel maximum a posteriori probability detection-based decision-directed carrier phase estimation(MAP-DDCPE) algorithm. The introduced probability-aware maximum a posteriori probability(MA...In this Letter, we provide a novel maximum a posteriori probability detection-based decision-directed carrier phase estimation(MAP-DDCPE) algorithm. The introduced probability-aware maximum a posteriori probability(MAP) detection avoids the decision errors brought by an ununiform probability distribution, which enhances the phase-tracking ability for the probabilistic shaping(PS) signals. With the proposed MAP-DDCPE, we experimentally demonstrate the 96-channel transmission that delivers 40-GBaud polarization division multiplexing(PDM) PS-64-ary quadrature amplitude modulation(64QAM) signals over the 2-km nested anti-resonant nodeless fiber(NANF). We believe the PS-assisted broadband NANF transmission enabled by the MAP-DDCPE is a promising solution for large-capacity optical communication.展开更多
The digital transformation of traditional manufacturing industry is an inevitable trend and inherent development requirement of China’s digital economy.This paper systematically researches the digital transformation ...The digital transformation of traditional manufacturing industry is an inevitable trend and inherent development requirement of China’s digital economy.This paper systematically researches the digital transformation mechanism of traditional manufacturing industry enabled by digital economy from the social,technical,innovative environmental and organizational sub-systems based on the system dynamics(SD)and the social shaping of technology theory(SST).The simulated experiments predicate the different digital transformation paths of the labor-intensive,capital-intensive and technology-intensive traditional manufacturing enterprises under the guidance of Industry 4.0 or"Industry of the future"policy by constructing the system dynamics model of causality,stock flow process,which has vital significance for China’s manufacturing industry to transform from a giant towards a manufacturing power.展开更多
基金Supported by Science and Technology Planning Project of Guangdong Province,China(No.2015B090904008)Soft Science Planning Project of Guangdong Province(2014B090903015)Ecological Environment Construction and Protection(Techand)Engineering and Technological Research Center(YKHZZ[2013]1589)~~
文摘Lightweight roof greening is an important way for improving urban ecological environment and has good ecological and social benefits, but the investment is- too-high for the investors. Therefore, it is necessary to improve the system of lightweight roof greening. This study introduced a lightweight roof greening mode with low cost, simple construction, rapid formation, good economic benefit and convenient curing.
基金Supported by Guangdong Province Soft Science Research Program(2014B090903015)Guangdong Province Science&Technology Cooperation Program([2015]162)~~
文摘Roof greening is crucial for improving urban eco-environment, showing benefits, ecological y or social y, but it is so hard for investors in terms of capitals or promotion. The research introduced sponge-type composite vegetation carpet techniques and constructionprocess, making a breakthrough in greening form and having formulated a new one.
基金National Natural Science Foundation of China(Nos.92160301,92060203,52175415,and 52205475)Science Center for Gas Turbine Project(No.P2023-B-IV-003-001)+1 种基金Natural Science Foundation of Jiangsu Province(No.BK20210295)Fundamental Research Funds for the Central Universities(Nos.NS2023028 and NG2024015)。
文摘Aero-engines,the core of air travel,rely on advanced high strength-toughness alloys(THSAs)such as titanium alloys,nickel-based superalloys,intermetallics,and ultra-high strength steel.The precision of cutting techniques is crucial for the manufacture of key components,including blades,discs,shafts,and gears.However,machining THSAs pose significant challenges,including high cutting forces and temperatures,which lead to rapid tool wear,reduced efficiency,and compromised surface integrity.This review thoroughly explores the current landscape and future directions of cutting techniques for THSAs in aero-engines.It examines the principles,mechanisms,and benefits of energy-assisted cutting technologies like laser-assisted machining and cryogenic cooling.The review assesses various tool preparation methods,their effects on tool performance,and strategies for precise shape and surface integrity control.It also outlines intelligent monitoring technologies for machining process status,covering aspects such as tool wear,surface roughness,and chatter,contributing to intelligent manufacturing.Additionally,it highlights emerging trends and potential future developments,including multi-energy assisted cutting mechanisms,advanced cutting tools,and collaborative control of structure shape and surface integrity,alongside intelligent monitoring software and hardware.This review serves as a reference for achieving efficient and high-quality manufacturing of THSAs in aero-engines.
基金supported by the National Key R&D Program of China (No. 2018YFB1800905)the National Natural Science Foundation of China (Nos. 61935005, 61720106015, 61835002, and 62127802)。
文摘In this Letter, we provide a novel maximum a posteriori probability detection-based decision-directed carrier phase estimation(MAP-DDCPE) algorithm. The introduced probability-aware maximum a posteriori probability(MAP) detection avoids the decision errors brought by an ununiform probability distribution, which enhances the phase-tracking ability for the probabilistic shaping(PS) signals. With the proposed MAP-DDCPE, we experimentally demonstrate the 96-channel transmission that delivers 40-GBaud polarization division multiplexing(PDM) PS-64-ary quadrature amplitude modulation(64QAM) signals over the 2-km nested anti-resonant nodeless fiber(NANF). We believe the PS-assisted broadband NANF transmission enabled by the MAP-DDCPE is a promising solution for large-capacity optical communication.
基金the major research achievements of NSSF project"Research on deep fusion mechanism,spillover effect and realization path of digital economy and traditional manufacturing industry"supported by the National Social Science Foundation of China(Grant No.20BJY092)
文摘The digital transformation of traditional manufacturing industry is an inevitable trend and inherent development requirement of China’s digital economy.This paper systematically researches the digital transformation mechanism of traditional manufacturing industry enabled by digital economy from the social,technical,innovative environmental and organizational sub-systems based on the system dynamics(SD)and the social shaping of technology theory(SST).The simulated experiments predicate the different digital transformation paths of the labor-intensive,capital-intensive and technology-intensive traditional manufacturing enterprises under the guidance of Industry 4.0 or"Industry of the future"policy by constructing the system dynamics model of causality,stock flow process,which has vital significance for China’s manufacturing industry to transform from a giant towards a manufacturing power.
