The difference really comes down to the fact that
TEXT columns are stored together with text-specific metadata (such as character encoding and collation), whereas
BLOB columns are not.
If you don't want MySQL to treat the data as text—performing neither transcoding of characters between storage and connection character sets (where appropriate) nor fancy character equivalence/ordering per a collation—then you're likely dealing with binary data which belongs in a
With Base64, the underlying data may be binary but the encoded version itself is not. This can most easily be seen by considering what happens if one inserts the Base64 encoded version in one character set and then attempts to retrieve it in another.
For example: suppose one's application inserts the Base64 encoding of
'Hello world!' (which is
'SGVsbG8gd29ybGQh') into a
BLOB column using the UTF-8 encoding—the column will contain the byte sequence
0x53475673624738676432397962475168. If that value is later retrieved by an application that is working in UCS-2, whilst the same bytes will be returned, that application will understand them to mean
'升噳扇㡧搲㥹扇全' (which is obviously cannot be understood as a Base64 encoded value). Had the value been stored in a
TEXT column, MySQL would have transcoded on-the-fly to return the byte sequence
0x0053004700560073006200470038006700640032003900790062004700510068, which represents the desired Base64 encoded value.
However, whether you actually should store Base64-encoded data in your RDBMS (let alone files, which generally belong in a database that has been optimised for file-storage: e.g. a filesystem) is another matter altogether; indeed, if binary data does need to be stored in the RDBMS, why not store it in raw form (and encode as necessary in the presentation layer of your application)?