Chair conformation structure for six-membered ring is when atoms 2, 3, 5, and 6 lie in the same plane, atom 1 lies above the plane, and atom 4 lies below the plane.

Axial bonds are the bonds that are perpendicular or vertical to the ring plane. Equatorial bonds are approximately horizontal in the plane of the ring. 

The energy difference between axial and equatorial conformations is due to steric strain caused by 1,3-diaxial interactions. The axial group on C1 is too close to the axial hydrogens three carbons away on C3 and C5, resulting in the steric strain. 

Similarly, the axial group on C2 is too close to the axial hydrogens three carbons away on C4 and C6, resulting in the steric strain. 

                    Conformation one possible

In this image, it can be seen that  interactions are present.

One interaction of  gives 3.8 kJ/mol energy and here two interactions are present giving 7.6 kJ/mol strain.

                         Conformation two possible

In this image, it can be seen that  interactions are present.

One interaction of  gives 1 kJ/mol energy and here two interactions are present giving 2 kJ/mol strain.

Hence, it can be seen this structure has less strain and is hence more stable.

                      Conformation two more stable