In fact, the rectangle is the most used area shape in logo design. Squares and rectangle shapes represent stability. To give you an example, icons are abstract shapes that represent concepts and ideas, a stick figure is an abstract shape of a person etc. Abstract shapesĪbstract shapes are recognisable in form, but are essentially not real as they are simplified versions of organic shapes. Represented in the shapes of rocks, clouds, leaves and flowers, they are mainly nature based, but can be man made with elements such as paint blobs or free drawing that are created through spontaneity. Like most things in nature, these shapes tend to be comforting and approachable. Natural/Organic shapesīy nature these are irregular shapes and are more often than not curved or uneven. The shapes with straight lines and angles usually symbolise structure and order, while the shapes with curves are softer and represent connection and community. These shapes are easily identified and have been given names. They include squares, rectangles, triangles, diamonds, circles, ovals etc. When thinking of shapes these are the first to come to mind. Let’s take a look at the meaning of shapes Geometric shapes connect content and imagery in a layout.create a travel path for the eye around the design. When it comes to the use of shape in design and layout, designers use shapes to: Are you aware how the meaning of shapes can effect your brand? TEM observation suggests that the variation in the mechanical strength depending on the shape can be attributed to differences in the aggregation structure of the alumina particles, thus indicating the possibility of tuning the mechanical strength of ion gels by altering not only particle kinds but its shape.Did you know that certain shapes make us feel a certain way? Shapes with rounded edges are softer and more approachable, while shapes with sharp lines and edges, depict strength and presence. Cyclic tensile tests were performed, and the results indicate that the loading energy on the ion gel was dissipated through the fracture of the alumina network. Notably, the fracture energies of the rod-shaped alumina/PIL DN ion gels were approximately 2.6 times higher than those of the spherical alumina/PIL DN ion gels. The results revealed that the mechanical strengths of the alumina/PIL DN ion gels were superior to those of PIL single-network ion gels without particles. Consequently, alumina/poly(ionic liquid) (PIL) double-network (DN) ion gels consisting of clustered alumina nanoparticles with various shapes (either spherical or rod-shaped) and a chemically crosslinked poly (PC 2im-TFSI, PIL) network were prepared. This study investigated the effect of the shape of particles introduced into ion gels on their mechanical properties. Comparative studies on the effect of particles with different shapes are still in progress. A potential solution to this challenge is the incorporation of particles, such as silica nanoparticles, TiO 2 nanoparticles, and metal–organic frameworks (MOFs) into ion gels. However, their low mechanical strength has hindered their practical applications. Ionic–liquid gels, also known as ion gels, have gained considerable attention due to their high ionic conductivity and CO 2 absorption capacity.
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