Angled pockets align with natural hand position while moving
*This item is eligible for exchange or store credit only, no refunds.
SPECS
* Fabric: Tightly woven blend of 50% cotton (flat face) and 50% rayon twill (shinny reverse). Milled in Japan.* Partial lining: NOS woven tartan, red/indigo, 100% cotton.
* Inspired by vintage windproof casual jackets and USN/USMC pilot jacket designs.
* NOS red/indigo tartan partial lining.
* Three patch pockets (including unusual rear panel pocket).
* Concealed chest pocket.
* Tartan-lined snap stand collar and pocket flaps.
* 1950s-style Conmatic metal zipper, with leather pull.
* Diamond-shaped elbow patches, M-421a style.
* Underarm expansion gussets.
* Fancy Fiocchi snaps, a-made in a-Italy.
* Woven MF S/C Speedsafe woven label.
* Made in Japan.
SIZING/FIT
The Mister Freedom comes raw/unwashed, and will shrink to tagged size. Follow the usual recommended initial method before wearing: cold soak for 30mn, spin dry and line dry. Please refer to sizing chart to determine which size works for you.
CL's Advice: The cotton/rayon Breezers are true to size, with a slim silhouette. I wear a Medium, my usual size in mfsc jackets.
CARE
Professional dry clean.
Note: The Breezer can alternately be delicately hand-washed, cold water/hang-dry, but beware, some lining color bleeding might occur on the Cream version.
STORY
Departing from purely replicating the past, our Breezer blends 50s swing tops, 40s US Navy/USMC summer flight jackets and 60s British vibes, into a casual classic-looking jacket.
The fabric for the Breezer is a double-face woven textile with a cotton face and a rayon reverse aka cotton-back sateen, inspired by vintage 1950s weatherproof McGregor Scottish Drizzlers.
The Breezer has a trim 60's silhouette and features details such as three exterior pockets, an interior chest pocket, intricate diamond-shaped elbow patch and expansion gussets.
This MF garment is designed in California by Mister Freedom and manufactured in Japan by Sugar Cane Co.
DWR coated yarns resist moisture absorption in humid environments
