Physics of adhesive tape

Physics of Adhesive Tape Dr. S. S. Verma, Department of Physics, S.L.I.E.T., Longowal, Distt.-Sangrur (Punjab)-148106 Every one of us might have come across with the use of adhesive tapes in our day to day life but without bothering to know about the science behind this adhesion. It had long been theorized that it should be possible to create sheets of carbon atoms only one atom thick, and that they would have some pretty amazing properties. Since then, scientists had been trying to isolate these sheets, known as graphene. In 2010, with the use of these adhesive tapes and lead of pencils, scientists were able to isolate graphene for the first time, a super-material that could be used to make ultra strong and light materials, revolutionize electronics and build better solar cells. Bothering to understand how adhesives work, and why they fail, we're not alone and this question has taxed some of the world's best minds since ancient times. Even after all these years, scientists still don't fully understand how gluey substances make one thing stick to another. According to historians and archeologists, adhesives have been used for thousands of years-probably since Stone Age cave dwellers first applied bitumen (a tarry substance used to surface highways) to stick flint axe heads to the tops of their wooden hunting spears. In ancient times, people made their glues from whatever they found in the world around them-such things as sugar, fish skins, and animal products boiled in water. We still use some of these natural adhesives today, though we're much more likely to use artificial adhesives made in a chemical plant. It's obvious modern glues are chemical products from the horrible names they have—polyvinyl acetate (PVA), phenol formaldehyde (PH), ethylene vinyl acetate (EVA), and cyanoacrylate ("super glue") to name just four. Many modern adhesives are called synthetic resins for no good reason other than that resin (a gooey substance found in pine trees and other plants) was one of the first widely used adhesives. Forces make things stick People stick to Earth's surface even though the planet is rotating at high speed, and even there's no glue on the soles of our feet. The reason is simply that gravity bonds us to the planet with enough force to stop us whizzing off into space. But gravity isn't enough to keep us permanently in place. If we supply bigger forces, for example by using our muscles to move our legs and jump in the air, we can "unstick" ourselves and go somewhere else. Gravity tries to pull the water down to the bottom of the glass, and sooner or later it usually wins, but two interesting things try to stop it. First, water molecules (two atoms of hydrogen and one atom of oxygen joined together) naturally stick to one another, so they clump together in big droplets on the window. The forces that make them do this are called cohesive forces (and the process involved is called cohesion). Second, the water droplets also stick to the glass without any help or glue. Different 1