Maximum Period of Reciprocal of Prime

Theorem
Let $p$ be a prime number such that $p$ is not a divisor of $10$.

The maximum period of recurrence of the reciprocal of $p$ when expressed in decimal notation is $p - 1$.

Proof
When $p \divides 10$, $\dfrac 1 p$ expressed in decimal notation is a terminating fraction:

So let $p$ be such that $p \nmid 10$.

From Period of Reciprocal of Prime, the period of recurrence is the order of $10$ modulo $p$.

That is, it is the smallest integer $d$ such that:
 * $10^d \equiv 1 \pmod p$

From Fermat's Little Theorem:
 * $10^{p - 1} \equiv 1 \pmod p$

Hence the maximum period of recurrence occurs when the order of $10$ modulo $p$ is $p - 1$.

Also see

 * $7$ is Long Period Prime: demonstrating that the maximum period of recurrence occurs for at least one prime number