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The oldest glue in the world
is over 8,000 years old
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and comes from a cave near the Dead Sea.
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Ancient people used this glue,
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made from a mixture of animal bone
and plant materials,
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to waterproof baskets
and construct utensils.
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And for thousands of years after,
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plants and animals were the glue
that held human civilization together.
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Today, we have enough types of tape and
glue to build and repair almost anything.
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But what gives glue
and tape their stickiness?
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And is one stronger than the other?
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Adhesives can be made
from synthetic molecules
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or natural proteins and carbohydrates
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like the vegetable starch dextrin,
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the milk protein casein,
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and the terpenes in tree resin.
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In order to work, glue and tape need
both adhesive bonds and cohesive bonds.
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Adhesive bonds occur between
an adhesive’s molecules
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and the molecules
of whatever it’s sticking to.
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Cohesive bonds happen between
a glue or tape’s own molecules,
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holding it together.
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Most glues consist of adhesive polymers
dissolved in a solvent
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that prevents them from sticking
to the inside of the bottle.
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The strong smell of many glues
comes from the solvent,
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which evaporates when exposed to air.
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Some glues use water as a solvent,
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but others use chemicals
that can be harmful to inhale.
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Glues with two or more components that
chemically react instead of just drying
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can create stronger bonds.
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Both the adhesive and cohesive bonds
of glue are strong,
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but the drying process
makes them irreversible.
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This is why, if a glued surface
is broken after it dries,
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it can’t be reattached without new glue.
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By contrast,
when tape is applied to a surface,
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it forms weaker, reversible bonds,
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so you can peel a piece of tape off
a surface and use it again.
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These weak bonds,
called Van der Waals forces,
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can occur between any two materials,
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but only if they’re
extremely close together,
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closer than the naked eye can see.
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Tape usually consists of a backing coated
with a combination of a rubber
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or rubber-like "stretchy" component,
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and a compound called a tackifier.
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That’s the "sticky" component.
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A tape’s stickiness is determined
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by the proportion of elastic component
and tackifier,
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the thickness of adhesive spread
onto the backing,
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and the type of backing material.
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No chemical reaction occurs
when tape is pressed onto a surface.
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Instead, the soft adhesive flows into
the cracks and grooves of the surface.
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This ability to slide into cracks and then
stay in place is called viscoelasticity.
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Once the viscoelastic adhesive fills
these microscopic crevices,
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it is close enough to form
Van der Waals forces.
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So what’s the world’s strongest adhesive?
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Well, there’s no one answer.
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In terms of absolute strength
of adhesive bonds,
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glue is stronger than tape,
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but no single adhesive
works well in all circumstances.
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Of the glues, cyanoacrylates,
or super glues,
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may form the strongest bonds,
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but two-component epoxy glues have much
higher resistance to heat and shearing,
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and are compatible
with a wider range of surfaces.
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So, if you wanted
to dangle an anvil in the air,
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super glue might be your best bet.
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But if you’re doing so
over an active volcano,
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you’d want an epoxy instead.
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And in order to work at all,
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glues need enough real estate
where surfaces touch.
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If for some reason you wanted
to make a chain of bowling balls,
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duct tape would be better.
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Engineers weigh similar,
if less absurd, factors all the time.
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Choosing the right glue to withstand
the heat inside an engine
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is a matter of life and death.
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And though the strength
of duct tape’s adhesive bonds
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can’t compete with those of epoxy glues,
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tape does have the advantage of
instantaneous stickiness in an emergency.
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Glue may be necessary
to get a rocket to space,
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but when it comes
to extraterrestrial repairs,
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stick to duct tape:
liquid glues don’t work in zero gravity.
closed TED
