In view of the imperfect supply chain management of prefabricated building,inadequate information interaction among the participating subjects,and untimely information updates,the integration and development of BIM te...In view of the imperfect supply chain management of prefabricated building,inadequate information interaction among the participating subjects,and untimely information updates,the integration and development of BIM technology plus the supply chain of prefabricated building is analyzed,and the problems existing in the current supply chain and the application of BIM technology at various stages are elaborated.By analyzing the structural composition of the prefabricated building supply chain,an information sharing platform framework for prefabricated building supply chain based on BIM was established,which serves as a valuable reference for managing prefabricated building supply chains.BIM technology aligns well with assembly construction,laying a solid foundation for their synergistic development and offering novel research avenues for the prefabricated building supply chain.展开更多
Driven by the goal of carbon neutrality,prefabricated buildings,as an important form of green construction,have become a key focus in the study of lifecycle carbon footprint management.Based on this,this paper starts ...Driven by the goal of carbon neutrality,prefabricated buildings,as an important form of green construction,have become a key focus in the study of lifecycle carbon footprint management.Based on this,this paper starts from the perspective of carbon footprint and combines the digital and visual advantages of BIM technology to construct a green evaluation system for prefabricated buildings.It explores the carbon emissions in each stage of the building and proposes corresponding improvement measures,aiming to provide necessary references for the low-carbon transformation of prefabricated buildings.展开更多
Today we are in a technologically explosive information society. The cross-</span></span><span style="white-space:normal;"><span style="font-family:""> </span&g...Today we are in a technologically explosive information society. The cross-</span></span><span style="white-space:normal;"><span style="font-family:""> </span></span><span style="white-space:normal;"><span style="font-family:"">border integration of manufacturing and construction is prefabricated buildings. The cross-border integration of construction and IT is BIM technology, and the emergence of BIM technology provides new ideas for prefabricated building, and the integration of prefabricated building and BIM technology realizes the construction industrialization. This paper studies the application of BIM technology in prefabricated buildings, including the design phase, construction and assembly phase, operation and maintenance phase, and application analysis of related software, so as to improve the high efficiency, high quality and high precision development of prefabricated projects, and promote domestic green environmental protection. The development of the construction industry provides reference value for the application of BIM technology in prefabricated buildings.展开更多
This paper focuses on the ideological and political construction of the course“Comprehensive Practical Training of Prefabricated Building Construction”and deeply discusses its exploration and practice process.By bui...This paper focuses on the ideological and political construction of the course“Comprehensive Practical Training of Prefabricated Building Construction”and deeply discusses its exploration and practice process.By building an ideological and political teaching system in line with the characteristics of“Comprehensive Training of Prefabricated Building Construction,”ideological and political elements such as industry spirit,professional ethics,and social responsibility are organically integrated into all links of practical training and teaching.In terms of teaching methods,various innovative means such as case analysis,role-playing,and group discussion are adopted,and modern information technologies such as virtual reality and augmented reality are used to improve the teaching effect.At the same time,a diversified teaching evaluation system is formulated to ensure the sustainability and effectiveness of ideological and political education.This study not only enriches the theoretical research of ideological and political courses but also provides a practical reference for the ideological and political construction of similar courses,which is of great significance for promoting the overall improvement of the quality of talent training in higher education.展开更多
With the continuous development of society and the market economy,people are putting forward higher and higher requirements for the construction,technology,and environmental friendliness of buildings.The prefabricated...With the continuous development of society and the market economy,people are putting forward higher and higher requirements for the construction,technology,and environmental friendliness of buildings.The prefabricated building not only has high installation efficiency,but is also safe and environmentally friendly,which is in line with the green building concept.The drainage design is a critical part of prefabricated buildings.In order to ensure the quality and construction efficiency of the building project,it is necessary to design the building water supply and drainage properly.Therefore,an in-depth investigation on prefabricated buildings was carried out in this paper,and water supply and drainage design for prefabricated buildings under the green building concept is proposed,in hopes of providing references for future water supply and drainage designs.展开更多
This paper investigates the thermal performance of prefabricated exterior walls using the Computational Fluid Dynamics method to reduce energy consumption.The thermal performance of the prefabricated exterior wall was...This paper investigates the thermal performance of prefabricated exterior walls using the Computational Fluid Dynamics method to reduce energy consumption.The thermal performance of the prefabricated exterior wall was numerically simulated using the software ANSYS Fluent.The composite wall containing the cavity is taken as the research object in this paper after analysis.The simulation suggests that when the cavity thickness is 20 mm and 30 mm,the heat transfer coefficient of the air-sandwich wall is 1.3 and 1.29,respectively.Therefore,the optimal width of the cavity is 20 mm,and the most suitable material is the aerated concrete block.In addition,a comparative analysis is conducted on the cavity temperature in the wall under different conditions.It is proven that an intelligent environment control system can significantly improve thermal efficiency and provide a solid theoretical basis for further research in the external insulation of prefabricated buildings.展开更多
The measurement and calculation of the carbon emission from the production of prefabricated building components were studied.Based on the carbon emission factor method,a carbon emission calculation model of the compon...The measurement and calculation of the carbon emission from the production of prefabricated building components were studied.Based on the carbon emission factor method,a carbon emission calculation model of the components in the production phase was established.Besides,the actual measurement method and calculated at rated power method were proposed for the measurement and calculation of carbon emission,and several measurements were carried out in a component factory located in a coastal area of south China and a component factory located in Beijing,respectively.The results of the study show that the carbon emission factors of laminates and wallboards produced by factories located in coastal areas of southern China under natural curing conditions were 7.61 kg CO2/m3 and 5.84 kg CO2/m3 respectively.The carbon emissions conversion coefficients of concrete mixer,reinforcing bar production line and travelling crane between actual operation and with per the rated power were approximately 0.44,0.34 and 0.34 respectively.When the actual measurement cannot be performed,the conversion coefficient can be used to correct the data of the calculated at rated power to make it closer to the true value.The carbon emission factor of the laminated panels produced by the component factory in Beijing under steam curing concrete conditions was 132.15 kg CO2/m3,and the factory is used as a prototype,a complementary steam generation system model of solar energy and boiler was established,and it was calculated that the system can reduce CO2 emissions by about 300 tons throughout the year.展开更多
For a long time,Chinese construction industry has had disadvantages such as waste of resources,environmental pollution,long construction period,great influence by weather,low enterprise efficiency and poor benefit.Whi...For a long time,Chinese construction industry has had disadvantages such as waste of resources,environmental pollution,long construction period,great influence by weather,low enterprise efficiency and poor benefit.While being able to solve the disadvantages of traditional buildings,prefabricated buildings,as an important starting point to achieve the carbon peaking and carbon neutrality goals,are far superior to traditional buildings in green and low-carbon,energy conservation and emission reduction,which can accelerate the transformation and upgrading of the construction industry.In recent years,the government has vigorously promoted prefabricated buildings,but the implementation of prefabricated buildings has been frequently hindered and the development of prefabricated buildings in China has not achieve the expected goal in many aspects.Under the high-quality development strategy proposed by the central government,how to promote the high-quality development of prefabricated buildings in China is one of the key difficulties of Chinese construction industry in the future.Therefore,it is necessary to proceed from the connotation of the high-quality development of prefabricated buildings,establish an evaluation model for the high-quality development level of prefabricated buildings through AHP and comprehensive fuzzy evaluation to master the high-quality development level of prefabricated buildings in China,and explore the reasonable paths selection forthe high-quality development of prefabricated buildings in China.展开更多
Nowadays, China is promoting the urbanization construction in an all-round way, which puts forward higher requirements for the quality and structure of construction projects. In the past, the control methods caused gr...Nowadays, China is promoting the urbanization construction in an all-round way, which puts forward higher requirements for the quality and structure of construction projects. In the past, the control methods caused great pollution to the natural environment, and extensive control also caused various problems in the quality of construction projects. In recent years, many new technologies and methods have been applied to the architectural design industry in China, especially the application of BIM technology in the design of prefabricated buildings, which has attracted the general attention of technical experts and staff. It can not only improve the efficiency of architectural design, but also ensure the quality of architectural engineering. This paper explores the design and application of prefabricated buildings, hoping to provide reference for practitioners.展开更多
To ensure the quality of prefabricated construction engineering is the basis of promoting the development of prefabricated construction industry. High quality prefabricated construction engineering can create a good l...To ensure the quality of prefabricated construction engineering is the basis of promoting the development of prefabricated construction industry. High quality prefabricated construction engineering can create a good living environment for people, and also can better promote the development of prefabricated industry. However, the prefabricated building has great volatility, concealment, limitations and other characteristics, and there are many quality problems in the completed prefabricated building projects. Therefore, in order to improve the construction quality of prefabricated construction project, we should strengthen the quality management, and ensure the overall construction quality of prefabricated construction project through effective management. In recent years, BIM technology has been widely used in the construction industry, and its application in the construction process of prefabricated building engineering has achieved good results, so its application is more and more widely. From the actual project use, BIM technology has a good application effect and prospect in the three target management of quality, safety and cost of prefabricated construction project. This provides a new idea and solution for the quality management of prefabricated construction engineering.展开更多
Prefabricated buildings can speed up construction and bring great benefits in energy conservation and environmental protection. This is very important to improve the economic and social benefits of construction enterp...Prefabricated buildings can speed up construction and bring great benefits in energy conservation and environmental protection. This is very important to improve the economic and social benefits of construction enterprises. However, due to a series of quality problems in the process of production and construction, the efficiency of this process has been seriously affected. Therefore, in order to ensure the sustainable development of the construction sector, it is necessary to adopt the assembly method while paying attention to its quality and, on this basis, to adopt reasonable and effective improvement measures in order to play its role and promote the stable development of the construction sector.展开更多
Prefabricated buildings are an important part of modern urban construction, and the development in recent years tends to be stable. Prefabricated buildings use the characteristics of structural members to shorten the ...Prefabricated buildings are an important part of modern urban construction, and the development in recent years tends to be stable. Prefabricated buildings use the characteristics of structural members to shorten the construction period and improve the construction efficiency, laying a good foundation for the sustainable development of modern cities and promoting the civilization construction of low carbon and carbon reduction. However, as the design of prefabricated buildings is a rather complicated design task, designers must improve their professional level to ensure the rationality of the design scheme and make continuous improvement during the construction to ensure the quality of prefabricated buildings.展开更多
Prefabricated buildings have become an important development trend in the field of modern architecture because of their high efficiency and environmental friendliness. Artificial intelligence and deep learning technol...Prefabricated buildings have become an important development trend in the field of modern architecture because of their high efficiency and environmental friendliness. Artificial intelligence and deep learning technology have been increasingly applied in prefabricated buildings. Deep learning technology provides comprehensive optimization of building design, construction, quality control, and cost and schedule management through the learning and analysis of large amounts of data. This paper aims to explore the application of deep learning technology in prefabricated buildings, analyze the revolutionary changes it brings in different stages, and discuss the problems faced when implementing this technology.展开更多
BIM Technology is the key to reduce the complexity of construction, in which environmental factors and human factors are the main factors, which reduce the reliability of the building to a certain extent. For assembly...BIM Technology is the key to reduce the complexity of construction, in which environmental factors and human factors are the main factors, which reduce the reliability of the building to a certain extent. For assembly buildings, the prefabrication characteristics increase the difficulty of construction control. The market environment of BIM Technology is relatively backward, which can not meet the requirements of architectural design and use. Therefore, researchers should use scientific and technical means (especially modeling, visualization and modifying information) to enhance the scientific rationality of BIM Technology, so as to improve the safety and stability of assembly buildings.展开更多
Prefabricated building is the key point of the development of the construction industry in the future. Because prefabricated building can effectively reduce environmental pollution and improve economic benefits by pre...Prefabricated building is the key point of the development of the construction industry in the future. Because prefabricated building can effectively reduce environmental pollution and improve economic benefits by prefabricated components. With the construction of prefabricated buildings in China, the construction quality management should be improved simultaneously. Therefore, BIM Technology is increasingly replacing the traditional construction quality management. It is characterized by accurate positioning of construction quality problems, clear information and detailed records of quality process, so that the problems existing in the construction quality can be found and handled in time. Based on this, the paper discusses the application of BIM Technology in the quality management of prefabricated building construction.展开更多
In the structural design of prefabricated buildings, it is of great significance to ensure the effectiveness of structural design, and this work is the focus that cannot be ignored in the prefabricated building design...In the structural design of prefabricated buildings, it is of great significance to ensure the effectiveness of structural design, and this work is the focus that cannot be ignored in the prefabricated building design. It not only needs to meet the current functional requirements of the current use of prefabricated buildings, but also to ensure the rationality and safety of the structure while taking into account the economic, social, environmental and other benefits. Effectively carrying out the structural design and management of prefabricated buildings can strengthen the quality of prefabricated buildings from many aspects and also promote the healthy development of the prefabricated building industry.展开更多
In order to transmit more application-oriented talents to the society,and to give full play to the value of vocational college training and education in the society,by taking the practical teaching of architecture maj...In order to transmit more application-oriented talents to the society,and to give full play to the value of vocational college training and education in the society,by taking the practical teaching of architecture major in vocational colleges as an example,this paper analyzes the form of teaching in vocational colleges and the application value of prefabricated building model in the practical teaching.Additionally,the application of the prefabricated building model combined with BIM Technology in the practical teaching of architecture major in vocational colleges as a reference was analyzed in this paper.展开更多
At present, the concept of environmental protection is in vogue, and the cost of labor services is gradually increasing. The previous construction mode has been strongly impacted. Prefabricated construction has become...At present, the concept of environmental protection is in vogue, and the cost of labor services is gradually increasing. The previous construction mode has been strongly impacted. Prefabricated construction has become the focus of people's attention, which can effectively overcome the disadvantages of traditional construction in terms of cycle, material consumption, quantities, etc. However, the domestic assembly construction industry is in the initial stage, and there are defects in construction and fabrication, architectural design, anti-seismic function and other aspects, resulting in the gap between the structural design and the expectation, and increasing the cost investment. In this regard, we should adhere to the principle of safety and practicality, formulate a scientific and feasible optimization plan, and optimize the design of the building structure, so as to ensure the construction quality and promote the steady development of the entire assembly construction industry.展开更多
With the deepening of Chinas economic construction, the acceleration of urbanization and the rapid development of the construction industry, the balance between construction technology and design concepts is broken, a...With the deepening of Chinas economic construction, the acceleration of urbanization and the rapid development of the construction industry, the balance between construction technology and design concepts is broken, and the problems of traditional architectural design are gradually exposed. For example, construction materials and equipment are seriously polluted;The energy consumption of resources is relatively high, and they do not have the awareness of scientific allocation of resources;Blind pursuit of architectural effect, ignoring commodity quality and engineering cost, etc. BIM technology, as a modern new technology, is in line with the concept of energy conservation and environmental protection advocated by the society. Building a building model by establishing systematic and simulated project basic information and expressing real data in a virtual building is an impact and innovation on the traditional architectural design model. In recent years, Chinas fabricated buildings are very popular. The effective application of BIM technology can not only optimize the structural design of buildings and simplify the construction process, but also reduce the project cost and improve the construction quality and efficiency. This paper will focus on the application and practice of BIM technology in fabricated building design, hoping to have reference value.展开更多
Prefabricated building technology is a new and efficient building technology under the background of green building, and it is also the key development direction of the future building construction. In order to realiz...Prefabricated building technology is a new and efficient building technology under the background of green building, and it is also the key development direction of the future building construction. In order to realize the harmonious development of construction industry and natural environment, this paper through the analysis of the application of prefabricated building technology status quo, advantages and application principles, on how to effectively apply prefabricated building technology for detailed exploration, hope to achieve energy conservation and emission reduction, environmental environment effect, so as to promote the sustainable development of the construction industry.展开更多
基金“Education Department of Hebei Funding Project for Cultivating the Innovative Capabilities of Graduate Students”(Project No.:XJCX202510)。
文摘In view of the imperfect supply chain management of prefabricated building,inadequate information interaction among the participating subjects,and untimely information updates,the integration and development of BIM technology plus the supply chain of prefabricated building is analyzed,and the problems existing in the current supply chain and the application of BIM technology at various stages are elaborated.By analyzing the structural composition of the prefabricated building supply chain,an information sharing platform framework for prefabricated building supply chain based on BIM was established,which serves as a valuable reference for managing prefabricated building supply chains.BIM technology aligns well with assembly construction,laying a solid foundation for their synergistic development and offering novel research avenues for the prefabricated building supply chain.
文摘Driven by the goal of carbon neutrality,prefabricated buildings,as an important form of green construction,have become a key focus in the study of lifecycle carbon footprint management.Based on this,this paper starts from the perspective of carbon footprint and combines the digital and visual advantages of BIM technology to construct a green evaluation system for prefabricated buildings.It explores the carbon emissions in each stage of the building and proposes corresponding improvement measures,aiming to provide necessary references for the low-carbon transformation of prefabricated buildings.
文摘Today we are in a technologically explosive information society. The cross-</span></span><span style="white-space:normal;"><span style="font-family:""> </span></span><span style="white-space:normal;"><span style="font-family:"">border integration of manufacturing and construction is prefabricated buildings. The cross-border integration of construction and IT is BIM technology, and the emergence of BIM technology provides new ideas for prefabricated building, and the integration of prefabricated building and BIM technology realizes the construction industrialization. This paper studies the application of BIM technology in prefabricated buildings, including the design phase, construction and assembly phase, operation and maintenance phase, and application analysis of related software, so as to improve the high efficiency, high quality and high precision development of prefabricated projects, and promote domestic green environmental protection. The development of the construction industry provides reference value for the application of BIM technology in prefabricated buildings.
基金2024 Ideological and Political Pilot Course Project of Guangxi Polytechnic of Construction“Comprehensive Training of Prefabricated Building Construction”(KCSZSD202441)2023 Guangxi University Young and Middle-Aged Teachers’Scientific Research Basic Ability Improvement Project“Research on Seismic Performance of Prefabricated CFST Column-SRC Beam Composite Joints”(2023KY1204)2023 Guangxi Vocational Education Teaching Reform Research Project“Research and Practice on the Cultivation of Digital Talents in Prefabricated Buildings in the Context of Deepening the Integration of Industry and Education”(GXGZJG2023B052)。
文摘This paper focuses on the ideological and political construction of the course“Comprehensive Practical Training of Prefabricated Building Construction”and deeply discusses its exploration and practice process.By building an ideological and political teaching system in line with the characteristics of“Comprehensive Training of Prefabricated Building Construction,”ideological and political elements such as industry spirit,professional ethics,and social responsibility are organically integrated into all links of practical training and teaching.In terms of teaching methods,various innovative means such as case analysis,role-playing,and group discussion are adopted,and modern information technologies such as virtual reality and augmented reality are used to improve the teaching effect.At the same time,a diversified teaching evaluation system is formulated to ensure the sustainability and effectiveness of ideological and political education.This study not only enriches the theoretical research of ideological and political courses but also provides a practical reference for the ideological and political construction of similar courses,which is of great significance for promoting the overall improvement of the quality of talent training in higher education.
文摘With the continuous development of society and the market economy,people are putting forward higher and higher requirements for the construction,technology,and environmental friendliness of buildings.The prefabricated building not only has high installation efficiency,but is also safe and environmentally friendly,which is in line with the green building concept.The drainage design is a critical part of prefabricated buildings.In order to ensure the quality and construction efficiency of the building project,it is necessary to design the building water supply and drainage properly.Therefore,an in-depth investigation on prefabricated buildings was carried out in this paper,and water supply and drainage design for prefabricated buildings under the green building concept is proposed,in hopes of providing references for future water supply and drainage designs.
基金This study was sponsored by the“Civil Engineering,Brand Major Construction Site of Private Universities of Education Department of Henan Province 2017”(Henan Finance and Education:[2016]119).
文摘This paper investigates the thermal performance of prefabricated exterior walls using the Computational Fluid Dynamics method to reduce energy consumption.The thermal performance of the prefabricated exterior wall was numerically simulated using the software ANSYS Fluent.The composite wall containing the cavity is taken as the research object in this paper after analysis.The simulation suggests that when the cavity thickness is 20 mm and 30 mm,the heat transfer coefficient of the air-sandwich wall is 1.3 and 1.29,respectively.Therefore,the optimal width of the cavity is 20 mm,and the most suitable material is the aerated concrete block.In addition,a comparative analysis is conducted on the cavity temperature in the wall under different conditions.It is proven that an intelligent environment control system can significantly improve thermal efficiency and provide a solid theoretical basis for further research in the external insulation of prefabricated buildings.
基金This work was financially supported by National Key R&D Plan(2016YFC0701807).
文摘The measurement and calculation of the carbon emission from the production of prefabricated building components were studied.Based on the carbon emission factor method,a carbon emission calculation model of the components in the production phase was established.Besides,the actual measurement method and calculated at rated power method were proposed for the measurement and calculation of carbon emission,and several measurements were carried out in a component factory located in a coastal area of south China and a component factory located in Beijing,respectively.The results of the study show that the carbon emission factors of laminates and wallboards produced by factories located in coastal areas of southern China under natural curing conditions were 7.61 kg CO2/m3 and 5.84 kg CO2/m3 respectively.The carbon emissions conversion coefficients of concrete mixer,reinforcing bar production line and travelling crane between actual operation and with per the rated power were approximately 0.44,0.34 and 0.34 respectively.When the actual measurement cannot be performed,the conversion coefficient can be used to correct the data of the calculated at rated power to make it closer to the true value.The carbon emission factor of the laminated panels produced by the component factory in Beijing under steam curing concrete conditions was 132.15 kg CO2/m3,and the factory is used as a prototype,a complementary steam generation system model of solar energy and boiler was established,and it was calculated that the system can reduce CO2 emissions by about 300 tons throughout the year.
文摘For a long time,Chinese construction industry has had disadvantages such as waste of resources,environmental pollution,long construction period,great influence by weather,low enterprise efficiency and poor benefit.While being able to solve the disadvantages of traditional buildings,prefabricated buildings,as an important starting point to achieve the carbon peaking and carbon neutrality goals,are far superior to traditional buildings in green and low-carbon,energy conservation and emission reduction,which can accelerate the transformation and upgrading of the construction industry.In recent years,the government has vigorously promoted prefabricated buildings,but the implementation of prefabricated buildings has been frequently hindered and the development of prefabricated buildings in China has not achieve the expected goal in many aspects.Under the high-quality development strategy proposed by the central government,how to promote the high-quality development of prefabricated buildings in China is one of the key difficulties of Chinese construction industry in the future.Therefore,it is necessary to proceed from the connotation of the high-quality development of prefabricated buildings,establish an evaluation model for the high-quality development level of prefabricated buildings through AHP and comprehensive fuzzy evaluation to master the high-quality development level of prefabricated buildings in China,and explore the reasonable paths selection forthe high-quality development of prefabricated buildings in China.
文摘Nowadays, China is promoting the urbanization construction in an all-round way, which puts forward higher requirements for the quality and structure of construction projects. In the past, the control methods caused great pollution to the natural environment, and extensive control also caused various problems in the quality of construction projects. In recent years, many new technologies and methods have been applied to the architectural design industry in China, especially the application of BIM technology in the design of prefabricated buildings, which has attracted the general attention of technical experts and staff. It can not only improve the efficiency of architectural design, but also ensure the quality of architectural engineering. This paper explores the design and application of prefabricated buildings, hoping to provide reference for practitioners.
文摘To ensure the quality of prefabricated construction engineering is the basis of promoting the development of prefabricated construction industry. High quality prefabricated construction engineering can create a good living environment for people, and also can better promote the development of prefabricated industry. However, the prefabricated building has great volatility, concealment, limitations and other characteristics, and there are many quality problems in the completed prefabricated building projects. Therefore, in order to improve the construction quality of prefabricated construction project, we should strengthen the quality management, and ensure the overall construction quality of prefabricated construction project through effective management. In recent years, BIM technology has been widely used in the construction industry, and its application in the construction process of prefabricated building engineering has achieved good results, so its application is more and more widely. From the actual project use, BIM technology has a good application effect and prospect in the three target management of quality, safety and cost of prefabricated construction project. This provides a new idea and solution for the quality management of prefabricated construction engineering.
文摘Prefabricated buildings can speed up construction and bring great benefits in energy conservation and environmental protection. This is very important to improve the economic and social benefits of construction enterprises. However, due to a series of quality problems in the process of production and construction, the efficiency of this process has been seriously affected. Therefore, in order to ensure the sustainable development of the construction sector, it is necessary to adopt the assembly method while paying attention to its quality and, on this basis, to adopt reasonable and effective improvement measures in order to play its role and promote the stable development of the construction sector.
文摘Prefabricated buildings are an important part of modern urban construction, and the development in recent years tends to be stable. Prefabricated buildings use the characteristics of structural members to shorten the construction period and improve the construction efficiency, laying a good foundation for the sustainable development of modern cities and promoting the civilization construction of low carbon and carbon reduction. However, as the design of prefabricated buildings is a rather complicated design task, designers must improve their professional level to ensure the rationality of the design scheme and make continuous improvement during the construction to ensure the quality of prefabricated buildings.
文摘Prefabricated buildings have become an important development trend in the field of modern architecture because of their high efficiency and environmental friendliness. Artificial intelligence and deep learning technology have been increasingly applied in prefabricated buildings. Deep learning technology provides comprehensive optimization of building design, construction, quality control, and cost and schedule management through the learning and analysis of large amounts of data. This paper aims to explore the application of deep learning technology in prefabricated buildings, analyze the revolutionary changes it brings in different stages, and discuss the problems faced when implementing this technology.
文摘BIM Technology is the key to reduce the complexity of construction, in which environmental factors and human factors are the main factors, which reduce the reliability of the building to a certain extent. For assembly buildings, the prefabrication characteristics increase the difficulty of construction control. The market environment of BIM Technology is relatively backward, which can not meet the requirements of architectural design and use. Therefore, researchers should use scientific and technical means (especially modeling, visualization and modifying information) to enhance the scientific rationality of BIM Technology, so as to improve the safety and stability of assembly buildings.
文摘Prefabricated building is the key point of the development of the construction industry in the future. Because prefabricated building can effectively reduce environmental pollution and improve economic benefits by prefabricated components. With the construction of prefabricated buildings in China, the construction quality management should be improved simultaneously. Therefore, BIM Technology is increasingly replacing the traditional construction quality management. It is characterized by accurate positioning of construction quality problems, clear information and detailed records of quality process, so that the problems existing in the construction quality can be found and handled in time. Based on this, the paper discusses the application of BIM Technology in the quality management of prefabricated building construction.
文摘In the structural design of prefabricated buildings, it is of great significance to ensure the effectiveness of structural design, and this work is the focus that cannot be ignored in the prefabricated building design. It not only needs to meet the current functional requirements of the current use of prefabricated buildings, but also to ensure the rationality and safety of the structure while taking into account the economic, social, environmental and other benefits. Effectively carrying out the structural design and management of prefabricated buildings can strengthen the quality of prefabricated buildings from many aspects and also promote the healthy development of the prefabricated building industry.
文摘In order to transmit more application-oriented talents to the society,and to give full play to the value of vocational college training and education in the society,by taking the practical teaching of architecture major in vocational colleges as an example,this paper analyzes the form of teaching in vocational colleges and the application value of prefabricated building model in the practical teaching.Additionally,the application of the prefabricated building model combined with BIM Technology in the practical teaching of architecture major in vocational colleges as a reference was analyzed in this paper.
文摘At present, the concept of environmental protection is in vogue, and the cost of labor services is gradually increasing. The previous construction mode has been strongly impacted. Prefabricated construction has become the focus of people's attention, which can effectively overcome the disadvantages of traditional construction in terms of cycle, material consumption, quantities, etc. However, the domestic assembly construction industry is in the initial stage, and there are defects in construction and fabrication, architectural design, anti-seismic function and other aspects, resulting in the gap between the structural design and the expectation, and increasing the cost investment. In this regard, we should adhere to the principle of safety and practicality, formulate a scientific and feasible optimization plan, and optimize the design of the building structure, so as to ensure the construction quality and promote the steady development of the entire assembly construction industry.
文摘With the deepening of Chinas economic construction, the acceleration of urbanization and the rapid development of the construction industry, the balance between construction technology and design concepts is broken, and the problems of traditional architectural design are gradually exposed. For example, construction materials and equipment are seriously polluted;The energy consumption of resources is relatively high, and they do not have the awareness of scientific allocation of resources;Blind pursuit of architectural effect, ignoring commodity quality and engineering cost, etc. BIM technology, as a modern new technology, is in line with the concept of energy conservation and environmental protection advocated by the society. Building a building model by establishing systematic and simulated project basic information and expressing real data in a virtual building is an impact and innovation on the traditional architectural design model. In recent years, Chinas fabricated buildings are very popular. The effective application of BIM technology can not only optimize the structural design of buildings and simplify the construction process, but also reduce the project cost and improve the construction quality and efficiency. This paper will focus on the application and practice of BIM technology in fabricated building design, hoping to have reference value.
文摘Prefabricated building technology is a new and efficient building technology under the background of green building, and it is also the key development direction of the future building construction. In order to realize the harmonious development of construction industry and natural environment, this paper through the analysis of the application of prefabricated building technology status quo, advantages and application principles, on how to effectively apply prefabricated building technology for detailed exploration, hope to achieve energy conservation and emission reduction, environmental environment effect, so as to promote the sustainable development of the construction industry.
