High-performance epoxy adhesive was used to enclose the battery core and bond it to the face sheets. With this approach, a structural battery with a specific energy of 102 Wh kg−1 and a high flexural rigidity of 781 N m2 was achieved, that could still be operated under a bending ...
Magnesium alloys have some unique solidification characteristics such as excellent fluidity and less susceptibility to hydrogen porosity, and thus, better castability over other cast metals such as aluminum and copper[1] . Casting has been the dominant manufacturing process for magnesium components, repre...
4. A rolled aluminum alloy material according to claim 1 having a yield strength of 85 to 125 MPa that increases to no more than 260 MPa after forming, adhesive cure and/or paint bake. 5. A rolled aluminum alloy material according to claim 1, wherein said alloy has been subjected to ...
Lastly, it is my hope that this book, with its wide scope and information on the application of technology on aircraft structural design, will prove not only to be a valuable reference tool for designing sound airframes with structUral integrity but also as a "bridge" to carry over the valua...
The prototypes were manufactured in multiple steps and the final structures were assembled using a low temperature curing adhesive to avoid any thermal stresses for the batteries. The configurations adopted in this investigation for engineering the unmanned underwater vehicle hulls are shown in Figure 7...
which is a little more than the metallic parts, but that is because an additional design appearance was added to the design of the parts. Considering the significant difference in the density of metals, e.g., lightweight aluminum (2.7 g/cm3) and Ultem 9085 (1.27 g/cm3), by further chan...