1. Metallic Bonds

2. Metallic Bonds

Alloys are the every-day metals that we
encounter. They are a mixture of two or
more types of metals.

Alloys are generally stronger and less reactive
than the pure metals that they are made from.

3. Metallic Bonds
Most metals have only 1,2 or 3 valence
electrons.
 This means that they always “give up” their
electrons (similar to an ionic bond)
 When atoms give up electrons, the atom
becomes positive.


4. Metallic Bonds
In metallic bonds, the atoms come
together
 Once the atoms are together, their valence
electrons move around them creating a
sea of negativity.
 The atoms release their specific electrons
and allow them to flow around all of the
atoms bonded together.


5. Metallic Bonds
These metallic bonds are held together by
the positive metal ions and the sea of
negative electrons around them.
 The more valence electrons an atom can
add to the “sea” the stronger the metal
becomes.


6. Metallic Bonds

Because these bonds are not formed
through a rigid structure, metals have
special properties:
Malleability and Ductility
 Luster (shiny)
 Electrical conductivity
 Thermal (heat) conductivity


7. Metallic Bonds

Because these bonds are not formed
through a rigid structure, metals have
special properties:
Malleability and Ductility
 Luster (shiny)
 Electrical conductivity
 Thermal (heat) conductivity
