Pattern making plays a key role in the aspect of fashion design and garment production, as it serves as the transformative process that turns a simple drawing into a consistent accumulation of garments. The process of...Pattern making plays a key role in the aspect of fashion design and garment production, as it serves as the transformative process that turns a simple drawing into a consistent accumulation of garments. The process of creating conventional or manual patterns requires a significant amount of time and a specialized skill set in various areas such as grading, marker planning, and fabric utilization. This study examines the potential of 3D technology and virtual fashion designing software in optimizing the efficiency and cost-effectiveness of pattern production processes. The proposed methodology is characterized by a higher level of comprehensiveness and reliability, resulting in time efficiency and providing a diverse range of design options. The user is not expected to possess comprehensive knowledge of traditional pattern creation procedures prior to engaging in the task. The software offers a range of capabilities including draping, 3D-to-2D and 2D-to-3D unfolding, fabric drivability analysis, ease allowance calculation, add-fullness manipulation, style development, grading, and virtual garment try-on. The strategy will cause a shift in the viewpoints and methodologies of business professionals when it comes to the use of 3D fashion design software. Upon recognizing the potential time, financial, and resource-saving benefits associated with the integration of 3D technology into their design development process, individuals will be motivated to select for its utilization over conventional pattern making methods. Individuals will possess the capacity to transfer their cognitive processes and engage in introspection regarding their professional endeavors and current activities through the utilization of 3D virtual pattern-making and fashion design technologies. To enhance the efficacy and ecological sustainability of designs, designers have the potential to integrate 3D technology with virtual fashion software, thereby compliant advantages for both commercial enterprises and the environment.展开更多
On the basis of analysis on both the typical characteristics of Chinese traditional clothing and trendy fashion on present market that is inspired from it,this paper illustrates several re-creation methods of Chinese ...On the basis of analysis on both the typical characteristics of Chinese traditional clothing and trendy fashion on present market that is inspired from it,this paper illustrates several re-creation methods of Chinese traditional clothing.These suggestions would push this oriental traditional clothing to a new high in world fashion field and adopted by more and more common people.展开更多
To date,various micro/nanofabrication techniques have been developed during the global nanotechnology race,such as electron-beam lithography[1],photolithography[2],nanoimprint lithography[3],and 3D nanoprinting[4,5].B...To date,various micro/nanofabrication techniques have been developed during the global nanotechnology race,such as electron-beam lithography[1],photolithography[2],nanoimprint lithography[3],and 3D nanoprinting[4,5].Benefiting from these functional techniques,micro/nanoscale patterns can be easily generated onto a broad range of materials,including metals,semiconductors,ceramics,and polymers.However,a bold and even visionary question can be raised,is it possible to make patterns on living organisms rather than inanimate objects?Despite the emergence of numerous electronic devices for biological applications,directly processing biological samples remains a challenge due to the poor biocompatibility of many micro/nanofabrication methods[6].Researchers have attempted to prepare and transfer micro/nanopatterns onto cell surfaces[7],the structural integrity of these modifications can be compromised by the growth and development of cells during culture.Moreover,intact animal skin presents greater challenges for integration with metal patterns compared to cell surfaces.展开更多
文摘Pattern making plays a key role in the aspect of fashion design and garment production, as it serves as the transformative process that turns a simple drawing into a consistent accumulation of garments. The process of creating conventional or manual patterns requires a significant amount of time and a specialized skill set in various areas such as grading, marker planning, and fabric utilization. This study examines the potential of 3D technology and virtual fashion designing software in optimizing the efficiency and cost-effectiveness of pattern production processes. The proposed methodology is characterized by a higher level of comprehensiveness and reliability, resulting in time efficiency and providing a diverse range of design options. The user is not expected to possess comprehensive knowledge of traditional pattern creation procedures prior to engaging in the task. The software offers a range of capabilities including draping, 3D-to-2D and 2D-to-3D unfolding, fabric drivability analysis, ease allowance calculation, add-fullness manipulation, style development, grading, and virtual garment try-on. The strategy will cause a shift in the viewpoints and methodologies of business professionals when it comes to the use of 3D fashion design software. Upon recognizing the potential time, financial, and resource-saving benefits associated with the integration of 3D technology into their design development process, individuals will be motivated to select for its utilization over conventional pattern making methods. Individuals will possess the capacity to transfer their cognitive processes and engage in introspection regarding their professional endeavors and current activities through the utilization of 3D virtual pattern-making and fashion design technologies. To enhance the efficacy and ecological sustainability of designs, designers have the potential to integrate 3D technology with virtual fashion software, thereby compliant advantages for both commercial enterprises and the environment.
文摘On the basis of analysis on both the typical characteristics of Chinese traditional clothing and trendy fashion on present market that is inspired from it,this paper illustrates several re-creation methods of Chinese traditional clothing.These suggestions would push this oriental traditional clothing to a new high in world fashion field and adopted by more and more common people.
基金supported by the National Natural Science Foundation of China(52203305,U21A20494,and 61927820)。
文摘To date,various micro/nanofabrication techniques have been developed during the global nanotechnology race,such as electron-beam lithography[1],photolithography[2],nanoimprint lithography[3],and 3D nanoprinting[4,5].Benefiting from these functional techniques,micro/nanoscale patterns can be easily generated onto a broad range of materials,including metals,semiconductors,ceramics,and polymers.However,a bold and even visionary question can be raised,is it possible to make patterns on living organisms rather than inanimate objects?Despite the emergence of numerous electronic devices for biological applications,directly processing biological samples remains a challenge due to the poor biocompatibility of many micro/nanofabrication methods[6].Researchers have attempted to prepare and transfer micro/nanopatterns onto cell surfaces[7],the structural integrity of these modifications can be compromised by the growth and development of cells during culture.Moreover,intact animal skin presents greater challenges for integration with metal patterns compared to cell surfaces.
