Experimental and numerical analyses for the effect of the thickness of gap generator blank(GGB) on the formability of the outer blanks were investigated. The thickness of the GGB has the greatest impact on the thinn...Experimental and numerical analyses for the effect of the thickness of gap generator blank(GGB) on the formability of the outer blanks were investigated. The thickness of the GGB has the greatest impact on the thinning of the lowest blank. In addition, the friction at different regions and the additional interlayer contacts can also affect the thinning of different regions as well as increase the punch force. This work will enhance the understanding of simultaneous multi-layered blanks forming and will help the composite design engineers to tailor requirement-specific hybrid parts such as fiber metal laminates(FMLs) and functionally graded structures(FGSs) for hi-tech applications.展开更多
The research of micro-forces between micro-parts forms the base for micro-machine (MEMS) development. According to the characteristics of the interactions between micro-parts in MEMS, three models were simplified. Bas...The research of micro-forces between micro-parts forms the base for micro-machine (MEMS) development. According to the characteristics of the interactions between micro-parts in MEMS, three models were simplified. Based on these models, micro-forces between micro-parts were analyzed, and the analytical formulas were formulated. Factors which may affect the micro-forces, such as surface condition, media and constitutive material of micro-parts were discussed. A coefficient of surface roughness on micro-forces was introduced, which facilitated the analysis of the influence of surface roughness.展开更多
基金Project(2010DFA52030)supported by the International Scientific Cooperation,ChinaProject(51175024)supported by the National Natural Science Foundation of China
文摘Experimental and numerical analyses for the effect of the thickness of gap generator blank(GGB) on the formability of the outer blanks were investigated. The thickness of the GGB has the greatest impact on the thinning of the lowest blank. In addition, the friction at different regions and the additional interlayer contacts can also affect the thinning of different regions as well as increase the punch force. This work will enhance the understanding of simultaneous multi-layered blanks forming and will help the composite design engineers to tailor requirement-specific hybrid parts such as fiber metal laminates(FMLs) and functionally graded structures(FGSs) for hi-tech applications.
文摘The research of micro-forces between micro-parts forms the base for micro-machine (MEMS) development. According to the characteristics of the interactions between micro-parts in MEMS, three models were simplified. Based on these models, micro-forces between micro-parts were analyzed, and the analytical formulas were formulated. Factors which may affect the micro-forces, such as surface condition, media and constitutive material of micro-parts were discussed. A coefficient of surface roughness on micro-forces was introduced, which facilitated the analysis of the influence of surface roughness.