Recent Searches Clear
    Saved Search Modify
    You are looking for Apartment, in Bedford Road.
    The property can be any price and be available to move in at any time.

    Apartment For Rent In Bedford Road, VIC, 3135

    22 Properties for rent

    We didn't come across an exact match for your search, but there's 22 properties nearby

    Properties surrounding Bedford Road, Vic, 3135

    Properties surrounding Bedford Road, Vic, 3135

    There's 22 properties in suburbs surrounding Bedford Road, Vic, 3135

    Early Bird
    19/12-22 Cutts Avenue, CROYDON
    3
    1
    2
    Apartment

    Move in: 17/01/25

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    1/37 Nelson Street, RINGWOOD
    2
    1
    1
    Apartment

    Move in: 21/01/25

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    3/39 Arlington Street, Ringwood
    2
    2
    1
    Apartment

    Move in: 24/01/25

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    2/6A Arnold Street, RINGWOOD
    2
    1
    1
    Apartment

    Move in: 17/01/25

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    4/70 Ringwood Street, Ringwood
    2
    1
    1
    Apartment

    Move in: 22/01/25

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    5/5-7 Arlington Street, Ringwood
    2
    1
    1
    Apartment

    Move in: Now

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    4/26 Bourke Street, RINGWOOD
    2
    1
    1
    Apartment

    Move in: 17/01/25

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    207(28)/8-10 Churchill Street, RINGWOOD
    2
    1
    1
    Apartment

    Move in: 31/12/24

    BD+ Inspected
    ES+ Applied
    IO+ Page Views

    4/64 Ringwood Street, Ringwood
    2
    1
    2
    Apartment

    Move in: Now

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
    1A David Street, RINGWOOD
    2
    1
    1
    Apartment

    Move in: Now

    BD+ Inspected
    ES+ Applied
    IO+ Page Views
      Min
      Max
      Min
      Max
      Min
      Max
      Min
      Max
      Min
      Max
      $
      to
      $