The software technology field is facing new talent demands brought by the Information Technology Application Innovation(ITAI)industry.This paper takes Shanwei Institute of Technology as an example to deeply explore th...The software technology field is facing new talent demands brought by the Information Technology Application Innovation(ITAI)industry.This paper takes Shanwei Institute of Technology as an example to deeply explore the construction of a school-enterprise community education model driven by the ITAI industry.It establishes the Kirin Workshop training base to facilitate talent cultivation,integrates the ITAI Application Adaptation Center to enhance technical capabilities,cooperates with Liqi Technology to establish an industrial college for government talent training,adjusts the professional curriculum system,and arranges for students to participate in ITAI vocational skills competitions.The school-enterprise collaborative cultivation mechanism meets the talent needs of the ITAI field,with effective practical results.This paper also points out the shortcomings of the school-enterprise collaborative education model in the ITAI industry and provides optimization methods to explore new paths for industry-education integration and serve the development of regional and national ITAI industries^([1]).展开更多
In response to the current issues in the construction of software engineering(SE)degree granting program,such as insufficient resource integration,low level of internationalization,and inadequate quality control,we pr...In response to the current issues in the construction of software engineering(SE)degree granting program,such as insufficient resource integration,low level of internationalization,and inadequate quality control,we propose the Software Engineering Degree Granting Program Construction Practice Project at Harbin Institute of Technology(HIT).This project aims to explore new models for software talent cultivation,establish a superior SE degree granting program,and ultimately cultivate outstanding internationalized composite SE professionals to support the high-quality development of the national software industry.To this end,we design a distinctive overall construction idea and plan for the SE degree granting program,which are characterized by“3I3S:three highlights for specialized cultivation and strictness in three aspects to ensure quality control”.After years of practice and validation of the project at the School of Software at HIT,this project has proven effective in optimizing talent cultivation models,enhancing students’practical abilities,promoting international exchange and cooperation,advancing industry-education integration,and meeting industrial needs.展开更多
The metallurgy department of Kunm-ing Institute of Technology,with its empha-sis on nonferrous metallurgy,is one of themajor academic and technical centres underthe China National Nonferrous Metals In-dustry Corporati...The metallurgy department of Kunm-ing Institute of Technology,with its empha-sis on nonferrous metallurgy,is one of themajor academic and technical centres underthe China National Nonferrous Metals In-dustry Corporation(CNNC).The province of Yunnan,of whichKunming is the capital city,is very rich withresources of nonferrous metals,such as展开更多
Huaiyin Institute of Technology is taken as the research object.The content of horticulture curriculum system under the background of new agricultural science is constructed and elaborated,including theoretical curric...Huaiyin Institute of Technology is taken as the research object.The content of horticulture curriculum system under the background of new agricultural science is constructed and elaborated,including theoretical curriculum system of"three platforms and seven curriculum groups"and practice system of"two platforms,three levels and four modules".Moreover,the quality assurance strategy of the curriculum system is discussed from three angles of enhancing professional emotion,enhancing professional practice and strengthening innovation ability,to reach the training objective of outstanding applied horticultural talents under the background of new agricultural science.展开更多
This study was carried out at the Mamou Higher Institute of Technology during the period from March 10 to April 15, 2022, with the aim of designing and testing a solar dryer with forced convection by drying potatoes. ...This study was carried out at the Mamou Higher Institute of Technology during the period from March 10 to April 15, 2022, with the aim of designing and testing a solar dryer with forced convection by drying potatoes. The dryer was designed using local materials. Its main geometric parameters are: 1) height of the drying chamber (90 cm), 2) length of the drying chamber (50 cm), 3) width of the drying chamber (43 cm), 4) surface of the racks (0.1806 m<sup>2</sup>), 5) surface of the heat accumulator (0.2537 m<sup>2</sup>). The experiment focused on the vacuum test of the dryer for two days and that of the drying of the sweet potato for three days from 8:30 a.m. to 5:30 p.m. The average vacuum test temperature values of the three environments are respectively accumulator (43°C), dryer chamber (41°C) and ambient environment (34°C). Four kilograms (4 kg) of boiled sweet potato were dried. The average temperatures in the accumulator and in the drying chamber during the three days of drying are respectively 33°C and 39°C. The final mass of the dried product is 1.2 kg, with a quantity of water extracted of 2 liters or 63% of the initial mass of the product. The average drying rate is 0.074 kg/h. The drying kinetics showed a decreasing rate in the absence of the heating period and the constant rate period.展开更多
Accelerating the development of students is the basic goal of postgraduate talent cultivation.The final research results,employment situation and satisfaction of postgraduate students with school education are more im...Accelerating the development of students is the basic goal of postgraduate talent cultivation.The final research results,employment situation and satisfaction of postgraduate students with school education are more important indicators of the quality of talent cultivation in a university.For having a deeper understanding of the satisfaction of postgraduates in Harbin Institute of Technology(Weihai)in terms of motivation,tutor situation,management service and employment situation,a questionnaire survey was conducted on postgraduates.The survey results show that the overall satisfaction of postgraduates is high.In terms of studying motivation,most postgraduates think that their majors are more related to employment;in terms of professors,most of them can get along well with their professors and learn from the advantages of their professors;in terms of school management,they respond well to the"library",but think that the"dormitory"and"canteen"need further improvement;in terms of employment,most of postgraduates choose to be employed,while a few of them choose to further their studies,most of which have applied to study in domestic or foreign universities.展开更多
Graduate student recruitment publicity is a very important link in graduate student recruitment,the quality of students directly affects the quality of graduate education.Taking Harbin Institute of Technology(Weihai)a...Graduate student recruitment publicity is a very important link in graduate student recruitment,the quality of students directly affects the quality of graduate education.Taking Harbin Institute of Technology(Weihai)as the research object,this paper analyzes the internal and external factors affecting the improvement of graduate student quality in the branch campus,and carries out the corresponding countermeasures,puts forward the propaganda strategy of all-round research and recruitment,and effectively improves the quality of graduate student in the branch campus.展开更多
Combined with the content of the five responsible parties system, this paper probes into the core function of the owners project management and analyzes its existing problems with engineering cases. Taking phase II pr...Combined with the content of the five responsible parties system, this paper probes into the core function of the owners project management and analyzes its existing problems with engineering cases. Taking phase II project construction of Changzhou Institute of Technology as an example, this paper briefly describes the project overview, analyzes the authorization of the owners representative and the core functions of the owner and proposes that the supervision and assessment of the owner to the PM should be strengthened when the PM is introduced to achieve the balance of responsibilities and rights.展开更多
With the government’s strong support and investment in higher education,private colleges and universities have become an important part of higher education.Teaching evaluation is an important means of monitoring the ...With the government’s strong support and investment in higher education,private colleges and universities have become an important part of higher education.Teaching evaluation is an important means of monitoring the quality of teaching in colleges and universities and a crucial way to improve teaching quality.This article takes Xi’an Mingde Institute of Technology as an example to explore the practice and development of teaching evaluation in private colleges and universities.展开更多
Under the background of engineering education, the result-oriented reverse instructional design method has become one of the mainstream teaching methods. Based on the reverse teaching design method, this paper integra...Under the background of engineering education, the result-oriented reverse instructional design method has become one of the mainstream teaching methods. Based on the reverse teaching design method, this paper integrates Arduino with the teaching mode and content of the robot sensor course. Taking the course of "Robot Detection Technology and Sensor" as a case and project-based teaching as a carrier, this paper studies from the aspects of hierarchical and progressive multi-dimensional teaching target matrix design, course teaching content integration and hierarchical project module division, teaching activity design based on online and offline hybrid, ideological and political education elements integrated throughout the teaching process, and the construction of diversified evaluation methods, etc., and forms a perfect project-based reverse teaching design system, which provides a reference for the specific implementation of robot engineering professional courses, with a view to providing theoretical support and reference for future research.展开更多
The Sn−2Al filler metal was utilized to bond W90 tungsten heavy alloys by the ultrasonic-assisted coating technology in atmospheric environment at 250℃.The effects of ultrasonic power and ultrasonic time on microstru...The Sn−2Al filler metal was utilized to bond W90 tungsten heavy alloys by the ultrasonic-assisted coating technology in atmospheric environment at 250℃.The effects of ultrasonic power and ultrasonic time on microstructure and interfacial strength of Sn−2Al/W90 interface were investigated.The ultrasound improved the wettability of Sn−2Al filler metal on W90 surface.As the ultrasonic power increased and ultrasonic time increased,the size of Al phase in seam decreased.The maximum value of Sn−2Al/W90 interfacial strength reached 30.1 MPa.Based on the acoustic pressure simulation and bubble dynamics,the intensity of cavitation effect was proportional to ultrasonic power.The generated high temperature and high pressure by cavitation effect reached 83799.6 K and 1.26×10^(14) Pa,respectively.展开更多
Background:With the rapid development of modern emerging technologies,the ethical dilemmas and social controversies triggered by scientific and technological activities have become increasingly prominent.How to guide ...Background:With the rapid development of modern emerging technologies,the ethical dilemmas and social controversies triggered by scientific and technological activities have become increasingly prominent.How to guide technology for good and prevent and control technological risks has become an important issue of global concern.Research on science and technology ethics is dedicated to integrating ethical theories into governance practices and constructing ethical models that adapt to the development of the times.Methods:This article systematically reviews the six core approaches of scientific and technological ethics thought,including technological autonomy and political philosophy criticism,responsibility ethics and intergenerational obligations,technological intermediation and the integration of life and the world,ethical principles and normative frameworks,participatory governance and ethical practice innovation,as well as domain-specific ethical norms,thereby constructing an ethical analysis framework applicable to medical technology risks.And cross-analysis was conducted by taking medical events such as gene editing and xenotransplantation as examples.Results:Research shows that a single ethical approach has limitations in addressing complex medical ethical challenges,while the six approaches are complementary and synergistic.By criticizing technological autonomy,establishing a responsibility ethics orientation,setting the bottom line of ethical principles,promoting participatory governance,formulating domain norms,and continuously reflecting on the intermediary nature of technology,a multi-level and dynamically adaptive governance system for scientific and technological ethics can be constructed.Conclusion:The key to addressing contemporary medical ethics challenges lies in the comprehensive application of science and technology ethics theories and the integration of ethical considerations throughout the entire process of scientific and technological research and development.In the future,a governance framework that adapts to the development of new technologies should be established to promote cross-cultural and cross-disciplinary ethical dialogue and public participation,ensuring that scientific and technological innovation always serves the dignity of human life and overall well-being.展开更多
To scientifically evaluate the restoration performance of ancient city walls,Terahertz time-domain spectroscopy(THz-TDS)and infrared thermal imaging technology were applied to assess the Desheng Fortress(Ming Dynasty)...To scientifically evaluate the restoration performance of ancient city walls,Terahertz time-domain spectroscopy(THz-TDS)and infrared thermal imaging technology were applied to assess the Desheng Fortress(Ming Dynasty).Three representative sections were examined:adobe brick masonry repaired(Area 1),well-preserved original(Area 2),and layer-by-layer ramming repaired(Area 3).THz spectral data revealed significant differences between Area 1(time delay:3.72 ps;refractive index:2.224)and Area 2(time delay:3.02 ps;refractive index:2.107),while Area 3(time delay:3.12 ps;refractive index:2.098)demonstrated nearly identical THz spectral data to Area 2.Infrared thermal imaging also showed that the Area 3 restored by layer-by-layer ramming exhibited greater uniformity with fewer instances of cracks,capillary phenomena,or biological diseases.The proposed point-surface integrated evaluation methodology synergistically combines infrared thermography mapping of heritage surfaces with THz spectral datasets acquired through in-situ micro-sampling,enabling quantitative restoration assessment and providing a novel approach for scientifically validating traditional conservation techniques.展开更多
This paper presents an Eulerian-Lagrangian algorithm for direct numerical simulation(DNS)of particle-laden flows.The algorithm is applicable to perform simulations of dilute suspensions of small inertial particles in ...This paper presents an Eulerian-Lagrangian algorithm for direct numerical simulation(DNS)of particle-laden flows.The algorithm is applicable to perform simulations of dilute suspensions of small inertial particles in turbulent carrier flow.The Eulerian framework numerically resolves turbulent carrier flow using a parallelized,finite-volume DNS solver on a staggered Cartesian grid.Particles are tracked using a point-particle method utilizing a Lagrangian particle tracking(LPT)algorithm.The proposed Eulerian-Lagrangian algorithm is validated using an inertial particle-laden turbulent channel flow for different Stokes number cases.The particle concentration profiles and higher-order statistics of the carrier and dispersed phases agree well with the benchmark results.We investigated the effect of fluid velocity interpolation and numerical integration schemes of particle tracking algorithms on particle dispersion statistics.The suitability of fluid velocity interpolation schemes for predicting the particle dispersion statistics is discussed in the framework of the particle tracking algorithm coupled to the finite-volume solver.In addition,we present parallelization strategies implemented in the algorithm and evaluate their parallel performance.展开更多
To investigate the targets and mechanism of Hedysarum Multijugum Maxim(HMM)in treatment of bladder cancer(BC).Based on Traditional Chinese Medicine Systems Pharmacology(TCMSP)and gene databases,active substances and p...To investigate the targets and mechanism of Hedysarum Multijugum Maxim(HMM)in treatment of bladder cancer(BC).Based on Traditional Chinese Medicine Systems Pharmacology(TCMSP)and gene databases,active substances and potential targets of HMM were screened,and the HMM-active substances-targets-BC(HATB)regulatory network and PPI network were constructed.Hub targets were screened by Cytoscape.The main active substances and Hub targets were molecularly docked with AutoDock and visualized by PyMOL.12 Hub targets were screened.Molecular docking showed that active substances mainly acted on MAPK14,MAPK1 and CCND1.The bindings of calycosin to MAPK14,formononetin to MAPK14,and calycosin to CCND1 were stable.展开更多
In recent years,thixomolding technology has injected new vitality into the large-scale application of magnesium(Mg)alloys in multiple fields of manufacturing,promoting the lightweighting and green manufacturing of str...In recent years,thixomolding technology has injected new vitality into the large-scale application of magnesium(Mg)alloys in multiple fields of manufacturing,promoting the lightweighting and green manufacturing of structural component products.This article aims to comprehensively summarize the development and progress of Mg alloy thixomolding technology.This paper first reviews the materials including Mg alloys and Mg based composites for thixomolding applications,as well as thixomolding process including process characteristic,influence of process parameters,process defects,process optimization.Subsequently,properties of thixomolded Mg alloys and Mg based composites are discussed in detail.Then,development of thixomolding machine,progress of equipment units,advanced and large-scale thixomolding equipment are discussed.The current industrial application of Mg alloy thixomolding technology and present successful application cases are also summarized.Finally,perspectives on Mg alloy thixomolding technology in terms of developing specialized Mg alloys,technological barriers and breakthroughs,advanced thixomolding equipment,talent cultivation and sustainable development are proposed.Overall,this paper offers an in-depth insight of Mg alloy thixomolding technology,highlighting its potential in manufacturing high-performance and high-quality Mg alloy components for multiple fields.展开更多
In order to reveal the multi-target pharmacological mechanism of Zedoary turmeric oil combined with docetaxel in the treatment of breast cancer,we used network pharmacology and molecular docking.The targets of docetax...In order to reveal the multi-target pharmacological mechanism of Zedoary turmeric oil combined with docetaxel in the treatment of breast cancer,we used network pharmacology and molecular docking.The targets of docetaxel were retrieved from the Swiss Target Prediction database.The active components of Curcuma Zedoary turmeric were screened using the Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform(TCMSP),with criteria set as oral bioavailability OB≥30%and drug-likeness DL≥0.1.Potential targets of these components were subsequently predicted.Breast cancer-related targets were retrieved from the OMIM and GeneCards databases.The Venny tool was used to identify 177 overlapping targets between docetaxel,Zedoary turmeric oil,and breast cancer,followed by protein-protein interaction(PPI)analysis.Gene Ontology(GO)functional enrichment and Kyoto Encyclopedia of Genes and Genomes(KEGG)pathway enrichment analyses were performed using the Metascape database.A drug-breast cancer-KEGG pathway target network was constructed using Cytoscape 3.8.0.Molecular docking was employed to verify the binding ability between drugs and core targets.Results showed that the combined treatment may exert anti-breast cancer effects through key targets such as MAPK1,PIK3CA,and HSP90AA1,primarily implicating the biological process of protein phosphorylation and engaging the PI3K-Akt signaling pathway.This study successfully predicted the key targets and enriched pathways of Zedoary turmeric oil combined with docetaxel for breast cancer treatment,providing new insights for further research and development.展开更多
With the rapid development of science and technology,the application of intelligent technology in the field of civil engineering is more extensive,especially in the safety evaluation and management of engineering stru...With the rapid development of science and technology,the application of intelligent technology in the field of civil engineering is more extensive,especially in the safety evaluation and management of engineering structures.This paper discusses the role of intelligent technologies(such as artificial intelligence,Internet of Things,BIM,big data analysis,etc.)in the monitoring,evaluation,and maintenance of engineering structure safety.By studying the principle,application scenarios,and advantages of intelligent technology in structural safety evaluation,this paper summarizes how intelligent technology can improve engineering management efficiency and reduce safety risks,and puts forward the trend and challenge of future development.展开更多
Two-dimensional(2D)materials have attracted considerable research interest due to their precisely defined properties and versatile applications.In this realm,borophene-a single atomic sheet of boron atoms arranged in ...Two-dimensional(2D)materials have attracted considerable research interest due to their precisely defined properties and versatile applications.In this realm,borophene-a single atomic sheet of boron atoms arranged in a honeycomb lattice-has emerged as a promising candidate.While borophenes were theoretically predicted to have unique structural,optical,and electronic properties,the experimental synthesis of crystalline borophene sheets was first demonstrated on metal substrates in 2015,marking a crucial milestone.Since then,research efforts have focused on controlling the synthesis of semiconducting borophene polymorphs and exploring their novel physical characteristics.This review aims to explore the potential of 2D materials,specifically borophene,in various technological fields such as batteries,supercapacitors,fuel cells,and more.The analysis emphasises meticulous scrutiny of synthesis techniques due to their fundamental importance in realising borophene's properties.Specifically,the high carrier mobilities,tuneable bandgaps,and exceptional thermal conductivity of borophene are highlighted.By providing a comprehensive outlook on the significance of borophene in advancing materials science and technologies,this review contributes to shaping the landscape of 2D material research.展开更多
Traditional approaches to teaching the power system analysis course face challenges such as abstract and difficult-to-understand content,single teaching method,and limited practical links.In response,this paper explor...Traditional approaches to teaching the power system analysis course face challenges such as abstract and difficult-to-understand content,single teaching method,and limited practical links.In response,this paper explores in depth the significance and strategies of applying AI technology in the teaching of the course.The aim is to enhance students’ability to understand and apply knowledge,and to cultivate well-qualified technical professionals who can adapt to the intelligent development needs of the power industry.The proposed strategies include building an intelligent learning diagnosis platform,providing personalized learning guidance,developing an AI-integrated curriculum system,fostering a“dual-qualified and interdisciplinary”teaching team,and establishing a diversified assessment and evaluation system.展开更多
基金supported by the Foundation of Shanwei Institute of Technology(swjy23-008).
文摘The software technology field is facing new talent demands brought by the Information Technology Application Innovation(ITAI)industry.This paper takes Shanwei Institute of Technology as an example to deeply explore the construction of a school-enterprise community education model driven by the ITAI industry.It establishes the Kirin Workshop training base to facilitate talent cultivation,integrates the ITAI Application Adaptation Center to enhance technical capabilities,cooperates with Liqi Technology to establish an industrial college for government talent training,adjusts the professional curriculum system,and arranges for students to participate in ITAI vocational skills competitions.The school-enterprise collaborative cultivation mechanism meets the talent needs of the ITAI field,with effective practical results.This paper also points out the shortcomings of the school-enterprise collaborative education model in the ITAI industry and provides optimization methods to explore new paths for industry-education integration and serve the development of regional and national ITAI industries^([1]).
基金supported in part by the Education Reform Key Projects of Heilongjiang Province under Grant Nos.SJGZ20220011,SJGZ20220012,and SJGZY2024008。
文摘In response to the current issues in the construction of software engineering(SE)degree granting program,such as insufficient resource integration,low level of internationalization,and inadequate quality control,we propose the Software Engineering Degree Granting Program Construction Practice Project at Harbin Institute of Technology(HIT).This project aims to explore new models for software talent cultivation,establish a superior SE degree granting program,and ultimately cultivate outstanding internationalized composite SE professionals to support the high-quality development of the national software industry.To this end,we design a distinctive overall construction idea and plan for the SE degree granting program,which are characterized by“3I3S:three highlights for specialized cultivation and strictness in three aspects to ensure quality control”.After years of practice and validation of the project at the School of Software at HIT,this project has proven effective in optimizing talent cultivation models,enhancing students’practical abilities,promoting international exchange and cooperation,advancing industry-education integration,and meeting industrial needs.
文摘The metallurgy department of Kunm-ing Institute of Technology,with its empha-sis on nonferrous metallurgy,is one of themajor academic and technical centres underthe China National Nonferrous Metals In-dustry Corporation(CNNC).The province of Yunnan,of whichKunming is the capital city,is very rich withresources of nonferrous metals,such as
基金Supported by Higher Education Research Project of Huaiyin Institute of Technology(2019GJ12).
文摘Huaiyin Institute of Technology is taken as the research object.The content of horticulture curriculum system under the background of new agricultural science is constructed and elaborated,including theoretical curriculum system of"three platforms and seven curriculum groups"and practice system of"two platforms,three levels and four modules".Moreover,the quality assurance strategy of the curriculum system is discussed from three angles of enhancing professional emotion,enhancing professional practice and strengthening innovation ability,to reach the training objective of outstanding applied horticultural talents under the background of new agricultural science.
文摘This study was carried out at the Mamou Higher Institute of Technology during the period from March 10 to April 15, 2022, with the aim of designing and testing a solar dryer with forced convection by drying potatoes. The dryer was designed using local materials. Its main geometric parameters are: 1) height of the drying chamber (90 cm), 2) length of the drying chamber (50 cm), 3) width of the drying chamber (43 cm), 4) surface of the racks (0.1806 m<sup>2</sup>), 5) surface of the heat accumulator (0.2537 m<sup>2</sup>). The experiment focused on the vacuum test of the dryer for two days and that of the drying of the sweet potato for three days from 8:30 a.m. to 5:30 p.m. The average vacuum test temperature values of the three environments are respectively accumulator (43°C), dryer chamber (41°C) and ambient environment (34°C). Four kilograms (4 kg) of boiled sweet potato were dried. The average temperatures in the accumulator and in the drying chamber during the three days of drying are respectively 33°C and 39°C. The final mass of the dried product is 1.2 kg, with a quantity of water extracted of 2 liters or 63% of the initial mass of the product. The average drying rate is 0.074 kg/h. The drying kinetics showed a decreasing rate in the absence of the heating period and the constant rate period.
基金was supported by Postgraduate Education and Teaching Reform Project of Shandong Province(SDYJG21018)Postgraduate Education and Teaching Reform Project of Harbin Institute of Technology at Weihai(WH2019002)Postgraduate Education and Teaching Reform Project of Harbin Institute of Technology(21HX1001).
文摘Accelerating the development of students is the basic goal of postgraduate talent cultivation.The final research results,employment situation and satisfaction of postgraduate students with school education are more important indicators of the quality of talent cultivation in a university.For having a deeper understanding of the satisfaction of postgraduates in Harbin Institute of Technology(Weihai)in terms of motivation,tutor situation,management service and employment situation,a questionnaire survey was conducted on postgraduates.The survey results show that the overall satisfaction of postgraduates is high.In terms of studying motivation,most postgraduates think that their majors are more related to employment;in terms of professors,most of them can get along well with their professors and learn from the advantages of their professors;in terms of school management,they respond well to the"library",but think that the"dormitory"and"canteen"need further improvement;in terms of employment,most of postgraduates choose to be employed,while a few of them choose to further their studies,most of which have applied to study in domestic or foreign universities.
基金This research was supported by Postgraduate Education and Teaching Reform Project of Shandong Province(SDYJG21018)Postgraduate Education and Teaching Reform Project of Harbin Institute of Technology at Weihai(WH2019002)Postgraduate Education and Teaching Reform Project of Harbin Institute of Technology(21HX1001).
文摘Graduate student recruitment publicity is a very important link in graduate student recruitment,the quality of students directly affects the quality of graduate education.Taking Harbin Institute of Technology(Weihai)as the research object,this paper analyzes the internal and external factors affecting the improvement of graduate student quality in the branch campus,and carries out the corresponding countermeasures,puts forward the propaganda strategy of all-round research and recruitment,and effectively improves the quality of graduate student in the branch campus.
文摘Combined with the content of the five responsible parties system, this paper probes into the core function of the owners project management and analyzes its existing problems with engineering cases. Taking phase II project construction of Changzhou Institute of Technology as an example, this paper briefly describes the project overview, analyzes the authorization of the owners representative and the core functions of the owner and proposes that the supervision and assessment of the owner to the PM should be strengthened when the PM is introduced to achieve the balance of responsibilities and rights.
基金Research on the Current Situation and Countermeasures of Teaching Evaluation in Private Universities-A Case Study of Xi'an Mingde Institute of Technology[Project number:JG2023ZD10(Z)]。
文摘With the government’s strong support and investment in higher education,private colleges and universities have become an important part of higher education.Teaching evaluation is an important means of monitoring the quality of teaching in colleges and universities and a crucial way to improve teaching quality.This article takes Xi’an Mingde Institute of Technology as an example to explore the practice and development of teaching evaluation in private colleges and universities.
文摘Under the background of engineering education, the result-oriented reverse instructional design method has become one of the mainstream teaching methods. Based on the reverse teaching design method, this paper integrates Arduino with the teaching mode and content of the robot sensor course. Taking the course of "Robot Detection Technology and Sensor" as a case and project-based teaching as a carrier, this paper studies from the aspects of hierarchical and progressive multi-dimensional teaching target matrix design, course teaching content integration and hierarchical project module division, teaching activity design based on online and offline hybrid, ideological and political education elements integrated throughout the teaching process, and the construction of diversified evaluation methods, etc., and forms a perfect project-based reverse teaching design system, which provides a reference for the specific implementation of robot engineering professional courses, with a view to providing theoretical support and reference for future research.
基金supported by the National Natural Science Foundation of China(Nos.52105330,52175307)the Natural Science Foundation of Shandong Province,China(No.ZR2023JQ021)。
文摘The Sn−2Al filler metal was utilized to bond W90 tungsten heavy alloys by the ultrasonic-assisted coating technology in atmospheric environment at 250℃.The effects of ultrasonic power and ultrasonic time on microstructure and interfacial strength of Sn−2Al/W90 interface were investigated.The ultrasound improved the wettability of Sn−2Al filler metal on W90 surface.As the ultrasonic power increased and ultrasonic time increased,the size of Al phase in seam decreased.The maximum value of Sn−2Al/W90 interfacial strength reached 30.1 MPa.Based on the acoustic pressure simulation and bubble dynamics,the intensity of cavitation effect was proportional to ultrasonic power.The generated high temperature and high pressure by cavitation effect reached 83799.6 K and 1.26×10^(14) Pa,respectively.
基金supported by the National Key Research and Development Program(Grant No.2024YFA0917200)the Projects of the Chinese Center for Disease Control and Prevention(Grant No.BB2110240093)World Medical History under the Education Innovation Plan of the University of Science and Technology of China(Grant No.2024YCHX07).
文摘Background:With the rapid development of modern emerging technologies,the ethical dilemmas and social controversies triggered by scientific and technological activities have become increasingly prominent.How to guide technology for good and prevent and control technological risks has become an important issue of global concern.Research on science and technology ethics is dedicated to integrating ethical theories into governance practices and constructing ethical models that adapt to the development of the times.Methods:This article systematically reviews the six core approaches of scientific and technological ethics thought,including technological autonomy and political philosophy criticism,responsibility ethics and intergenerational obligations,technological intermediation and the integration of life and the world,ethical principles and normative frameworks,participatory governance and ethical practice innovation,as well as domain-specific ethical norms,thereby constructing an ethical analysis framework applicable to medical technology risks.And cross-analysis was conducted by taking medical events such as gene editing and xenotransplantation as examples.Results:Research shows that a single ethical approach has limitations in addressing complex medical ethical challenges,while the six approaches are complementary and synergistic.By criticizing technological autonomy,establishing a responsibility ethics orientation,setting the bottom line of ethical principles,promoting participatory governance,formulating domain norms,and continuously reflecting on the intermediary nature of technology,a multi-level and dynamically adaptive governance system for scientific and technological ethics can be constructed.Conclusion:The key to addressing contemporary medical ethics challenges lies in the comprehensive application of science and technology ethics theories and the integration of ethical considerations throughout the entire process of scientific and technological research and development.In the future,a governance framework that adapts to the development of new technologies should be established to promote cross-cultural and cross-disciplinary ethical dialogue and public participation,ensuring that scientific and technological innovation always serves the dignity of human life and overall well-being.
文摘To scientifically evaluate the restoration performance of ancient city walls,Terahertz time-domain spectroscopy(THz-TDS)and infrared thermal imaging technology were applied to assess the Desheng Fortress(Ming Dynasty).Three representative sections were examined:adobe brick masonry repaired(Area 1),well-preserved original(Area 2),and layer-by-layer ramming repaired(Area 3).THz spectral data revealed significant differences between Area 1(time delay:3.72 ps;refractive index:2.224)and Area 2(time delay:3.02 ps;refractive index:2.107),while Area 3(time delay:3.12 ps;refractive index:2.098)demonstrated nearly identical THz spectral data to Area 2.Infrared thermal imaging also showed that the Area 3 restored by layer-by-layer ramming exhibited greater uniformity with fewer instances of cracks,capillary phenomena,or biological diseases.The proposed point-surface integrated evaluation methodology synergistically combines infrared thermography mapping of heritage surfaces with THz spectral datasets acquired through in-situ micro-sampling,enabling quantitative restoration assessment and providing a novel approach for scientifically validating traditional conservation techniques.
基金supported by the P.G.Senapathy Center for Computing Resources at IIT Madrasfunding provided by the Ministry of Education,Government of Indiasupported by the National Natural Science Foundation of China(Grant Nos.12388101,12472224 and 92252104).
文摘This paper presents an Eulerian-Lagrangian algorithm for direct numerical simulation(DNS)of particle-laden flows.The algorithm is applicable to perform simulations of dilute suspensions of small inertial particles in turbulent carrier flow.The Eulerian framework numerically resolves turbulent carrier flow using a parallelized,finite-volume DNS solver on a staggered Cartesian grid.Particles are tracked using a point-particle method utilizing a Lagrangian particle tracking(LPT)algorithm.The proposed Eulerian-Lagrangian algorithm is validated using an inertial particle-laden turbulent channel flow for different Stokes number cases.The particle concentration profiles and higher-order statistics of the carrier and dispersed phases agree well with the benchmark results.We investigated the effect of fluid velocity interpolation and numerical integration schemes of particle tracking algorithms on particle dispersion statistics.The suitability of fluid velocity interpolation schemes for predicting the particle dispersion statistics is discussed in the framework of the particle tracking algorithm coupled to the finite-volume solver.In addition,we present parallelization strategies implemented in the algorithm and evaluate their parallel performance.
基金2025 Open Experimental Special Fund of Beijing Institute of Technology, “Applications and Practices of R Language in Bioinformatics”。
文摘To investigate the targets and mechanism of Hedysarum Multijugum Maxim(HMM)in treatment of bladder cancer(BC).Based on Traditional Chinese Medicine Systems Pharmacology(TCMSP)and gene databases,active substances and potential targets of HMM were screened,and the HMM-active substances-targets-BC(HATB)regulatory network and PPI network were constructed.Hub targets were screened by Cytoscape.The main active substances and Hub targets were molecularly docked with AutoDock and visualized by PyMOL.12 Hub targets were screened.Molecular docking showed that active substances mainly acted on MAPK14,MAPK1 and CCND1.The bindings of calycosin to MAPK14,formononetin to MAPK14,and calycosin to CCND1 were stable.
基金supported by the National Natural Science Foundation of China(NSFC)under Grant no.52431004.
文摘In recent years,thixomolding technology has injected new vitality into the large-scale application of magnesium(Mg)alloys in multiple fields of manufacturing,promoting the lightweighting and green manufacturing of structural component products.This article aims to comprehensively summarize the development and progress of Mg alloy thixomolding technology.This paper first reviews the materials including Mg alloys and Mg based composites for thixomolding applications,as well as thixomolding process including process characteristic,influence of process parameters,process defects,process optimization.Subsequently,properties of thixomolded Mg alloys and Mg based composites are discussed in detail.Then,development of thixomolding machine,progress of equipment units,advanced and large-scale thixomolding equipment are discussed.The current industrial application of Mg alloy thixomolding technology and present successful application cases are also summarized.Finally,perspectives on Mg alloy thixomolding technology in terms of developing specialized Mg alloys,technological barriers and breakthroughs,advanced thixomolding equipment,talent cultivation and sustainable development are proposed.Overall,this paper offers an in-depth insight of Mg alloy thixomolding technology,highlighting its potential in manufacturing high-performance and high-quality Mg alloy components for multiple fields.
基金supported by Key Cultivation Project of Qiqihar Academy of Medical Sciences(No.2022-ZDPY-003).
文摘In order to reveal the multi-target pharmacological mechanism of Zedoary turmeric oil combined with docetaxel in the treatment of breast cancer,we used network pharmacology and molecular docking.The targets of docetaxel were retrieved from the Swiss Target Prediction database.The active components of Curcuma Zedoary turmeric were screened using the Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform(TCMSP),with criteria set as oral bioavailability OB≥30%and drug-likeness DL≥0.1.Potential targets of these components were subsequently predicted.Breast cancer-related targets were retrieved from the OMIM and GeneCards databases.The Venny tool was used to identify 177 overlapping targets between docetaxel,Zedoary turmeric oil,and breast cancer,followed by protein-protein interaction(PPI)analysis.Gene Ontology(GO)functional enrichment and Kyoto Encyclopedia of Genes and Genomes(KEGG)pathway enrichment analyses were performed using the Metascape database.A drug-breast cancer-KEGG pathway target network was constructed using Cytoscape 3.8.0.Molecular docking was employed to verify the binding ability between drugs and core targets.Results showed that the combined treatment may exert anti-breast cancer effects through key targets such as MAPK1,PIK3CA,and HSP90AA1,primarily implicating the biological process of protein phosphorylation and engaging the PI3K-Akt signaling pathway.This study successfully predicted the key targets and enriched pathways of Zedoary turmeric oil combined with docetaxel for breast cancer treatment,providing new insights for further research and development.
文摘With the rapid development of science and technology,the application of intelligent technology in the field of civil engineering is more extensive,especially in the safety evaluation and management of engineering structures.This paper discusses the role of intelligent technologies(such as artificial intelligence,Internet of Things,BIM,big data analysis,etc.)in the monitoring,evaluation,and maintenance of engineering structure safety.By studying the principle,application scenarios,and advantages of intelligent technology in structural safety evaluation,this paper summarizes how intelligent technology can improve engineering management efficiency and reduce safety risks,and puts forward the trend and challenge of future development.
文摘Two-dimensional(2D)materials have attracted considerable research interest due to their precisely defined properties and versatile applications.In this realm,borophene-a single atomic sheet of boron atoms arranged in a honeycomb lattice-has emerged as a promising candidate.While borophenes were theoretically predicted to have unique structural,optical,and electronic properties,the experimental synthesis of crystalline borophene sheets was first demonstrated on metal substrates in 2015,marking a crucial milestone.Since then,research efforts have focused on controlling the synthesis of semiconducting borophene polymorphs and exploring their novel physical characteristics.This review aims to explore the potential of 2D materials,specifically borophene,in various technological fields such as batteries,supercapacitors,fuel cells,and more.The analysis emphasises meticulous scrutiny of synthesis techniques due to their fundamental importance in realising borophene's properties.Specifically,the high carrier mobilities,tuneable bandgaps,and exceptional thermal conductivity of borophene are highlighted.By providing a comprehensive outlook on the significance of borophene in advancing materials science and technologies,this review contributes to shaping the landscape of 2D material research.
文摘Traditional approaches to teaching the power system analysis course face challenges such as abstract and difficult-to-understand content,single teaching method,and limited practical links.In response,this paper explores in depth the significance and strategies of applying AI technology in the teaching of the course.The aim is to enhance students’ability to understand and apply knowledge,and to cultivate well-qualified technical professionals who can adapt to the intelligent development needs of the power industry.The proposed strategies include building an intelligent learning diagnosis platform,providing personalized learning guidance,developing an AI-integrated curriculum system,fostering a“dual-qualified and interdisciplinary”teaching team,and establishing a diversified assessment and evaluation system.
