Shapeability

Shapeability refers to the degree to which a material or object can be molded, formed, or altered into a desired shape. It encompasses the ease with which something can be manipulated physically, ranging from bending and stretching to casting and compressing. Factors influencing shapeability include material properties such as ductility, malleability, viscosity, and elasticity, alongside external forces or processes like heat, pressure, and tooling. High shapeability indicates greater flexibility and responsiveness to shaping processes, while low shapeability implies resistance to deformation.

Shapeability meaning with examples

• The clay's impressive shapeability allowed the artist to effortlessly sculpt intricate details. Its malleability made it ideal for hand-building techniques, enabling the creation of diverse forms. The artist could easily pinch, coil, and smooth the clay, shaping the masterpiece with fluidity and precision. The clay's shapeability was the key to the artwork's visual impact.
• Aluminum's shapeability makes it a popular choice in aircraft manufacturing. Its ductility allows it to be drawn into complex profiles, like the aircraft's wings, with ease. The sheets can then be bent and shaped using powerful presses, providing structural integrity with lightweight design benefits, due to its inherent shapeability.
• During the experiment, the molten glass displayed excellent shapeability, adapting to the molds and forming the desired contours with minimal effort. The liquid glass's viscosity affected the shapeability during pouring and setting, enabling the creation of beautiful forms. The glass readily conformed to the mold's structure due to its shapeability.
• The chef marvelled at the dough's shapeability; it could be stretched thin for pizza or kneaded into rustic loaves. Its elasticity meant it held its form, yet it could also be easily manipulated and the resultant pastries formed to desired shape. The flour's properties ensured good shapeability which was key for the delicate process
• The designer prioritized shapeability when selecting the plastic polymer for the product. It had to be pliable enough to be injection molded into a complex casing design without cracking. The polymer's ability to maintain its shape after cooling made it an ideal choice. Its high degree of shapeability translated to manufacturing efficiency.