In order to meet the rapid needs of processing square hole in mechanical equipment, the paper expounds the square hole processing method: planetary wheel method, and analyze the principle of tooling structure and pro...In order to meet the rapid needs of processing square hole in mechanical equipment, the paper expounds the square hole processing method: planetary wheel method, and analyze the principle of tooling structure and process with computer graphics parameters design. The results that, as long as the appropriate parameters, using the above method not only can punch the square hole, can also be processed triangle, the five angle and hexagonal regular polygon holes. The square hole processing method can provide theoretical basis and engineering reliable reference for related engineering and technical personnel.展开更多
Friction stir welding (FSW) has many advantages rather than fusion welding, but details of internal phenomena during its processes have not yet been clarified. In this study, a thermo-mechanically coupled process mode...Friction stir welding (FSW) has many advantages rather than fusion welding, but details of internal phenomena during its processes have not yet been clarified. In this study, a thermo-mechanically coupled process model was developed to investigate FSW phenomena inside a tool and workpiece. As a workpiece, 6061-T6 aluminum alloy was employed. The system of FSW process model includes several thermal boundaries. Among heat flows through these boundaries, heat transfers into the exterior of the system become more sensitive to tool and workpiece temperatures than heat transfers within the system. This paper especially focused on a heat transfer coefficient at a workpiece bottom, and optimized it through experiments and finite element method (FEM) analyses. The tool temperatures during FSW were measured with a special tooling system with imbedded thermocouples within a tool. As a result, an analysis model that is able to investigate details at a wide range of traverse speeds was developed for practical high speed welding. Then, the accuracy of developed FEM model was validated with them. Finally, the temperatures and stress distribution around workpiece/tool interfaces were investigated with the developed model.展开更多
为解决发动机气缸盖气门阀座底孔深度检测困难问题,对气门阀座底孔的技术要求进行详细分析,设计阀座深度测量方案及专用工具。测量工具由测量块、探针、螺钉、紧固套、千分表和标准块组成,以标准块U型槽的深度为基准,根据千分表指针的...为解决发动机气缸盖气门阀座底孔深度检测困难问题,对气门阀座底孔的技术要求进行详细分析,设计阀座深度测量方案及专用工具。测量工具由测量块、探针、螺钉、紧固套、千分表和标准块组成,以标准块U型槽的深度为基准,根据千分表指针的摆动距离计算阀座底孔深度。测量工具的测量系统分析(measurement system analysis,MSA)验证结果表明,量具的重复性和再现性符合要求,适用于阀座底孔深度的测量。该量具能快速准确地测量阀座底孔深度,结构简单紧凑,使用方便,满足生产线的检测效率和精度要求。展开更多
文摘In order to meet the rapid needs of processing square hole in mechanical equipment, the paper expounds the square hole processing method: planetary wheel method, and analyze the principle of tooling structure and process with computer graphics parameters design. The results that, as long as the appropriate parameters, using the above method not only can punch the square hole, can also be processed triangle, the five angle and hexagonal regular polygon holes. The square hole processing method can provide theoretical basis and engineering reliable reference for related engineering and technical personnel.
文摘Friction stir welding (FSW) has many advantages rather than fusion welding, but details of internal phenomena during its processes have not yet been clarified. In this study, a thermo-mechanically coupled process model was developed to investigate FSW phenomena inside a tool and workpiece. As a workpiece, 6061-T6 aluminum alloy was employed. The system of FSW process model includes several thermal boundaries. Among heat flows through these boundaries, heat transfers into the exterior of the system become more sensitive to tool and workpiece temperatures than heat transfers within the system. This paper especially focused on a heat transfer coefficient at a workpiece bottom, and optimized it through experiments and finite element method (FEM) analyses. The tool temperatures during FSW were measured with a special tooling system with imbedded thermocouples within a tool. As a result, an analysis model that is able to investigate details at a wide range of traverse speeds was developed for practical high speed welding. Then, the accuracy of developed FEM model was validated with them. Finally, the temperatures and stress distribution around workpiece/tool interfaces were investigated with the developed model.
文摘为解决发动机气缸盖气门阀座底孔深度检测困难问题,对气门阀座底孔的技术要求进行详细分析,设计阀座深度测量方案及专用工具。测量工具由测量块、探针、螺钉、紧固套、千分表和标准块组成,以标准块U型槽的深度为基准,根据千分表指针的摆动距离计算阀座底孔深度。测量工具的测量系统分析(measurement system analysis,MSA)验证结果表明,量具的重复性和再现性符合要求,适用于阀座底孔深度的测量。该量具能快速准确地测量阀座底孔深度,结构简单紧凑,使用方便,满足生产线的检测效率和精度要求。