Gravel Bike Model in "Deep Water" movie
#1
Newbie
Thread Starter
Join Date: Sep 2020
Posts: 3
Mentioned: 0 Post(s)
Tagged: 0 Thread(s)
Quoted: 0 Post(s)
Likes: 0
Liked 2 Times
in
2 Posts
Gravel Bike Model in "Deep Water" movie
Did anyone identify the model of the Gravel Bike Ben Afleck rode in the movie "Deep Water"? I thought it was unique for a full blown stunt sequence with a gravel bike to be done in a movie. The last bicycle chase movie I saw was "Tomb Raider" remake.
Likes For LoneStarVM:
#2
Forum Moderator
Join Date: Jul 2007
Location: Kalamazoo MI
Posts: 20,649
Bikes: Fuji SL2.1 Carbon Di2 Cannondale Synapse Alloy 4 Trek Checkpoint ALR-5 Viscount Aerospace Pro Colnago Classic Rabobank Schwinn Waterford PMount Raleigh C50 Cromoly Hybrid Legnano Tipo Roma Pista
Mentioned: 58 Post(s)
Tagged: 0 Thread(s)
Quoted: 3089 Post(s)
Liked 6,593 Times
in
3,781 Posts
Reported to be an Ibis Hakka.
__________________
#3
Newbie
Thread Starter
Join Date: Sep 2020
Posts: 3
Mentioned: 0 Post(s)
Tagged: 0 Thread(s)
Quoted: 0 Post(s)
Likes: 0
Liked 2 Times
in
2 Posts
Thank you cb400bill!! I had no clue what it was. I looked up the model and the writers did a good job matching the High End bicycle to go with his wealth.
#4
Sunshine
Join Date: Aug 2014
Location: Des Moines, IA
Posts: 16,610
Bikes: '18 class built steel roadbike, '19 Fairlight Secan, '88 Schwinn Premis , Black Mountain Cycles Monstercross V4, '89 Novara Trionfo
Mentioned: 123 Post(s)
Tagged: 0 Thread(s)
Quoted: 10955 Post(s)
Liked 7,483 Times
in
4,185 Posts
^ this is an impressive first post.
ETA- apparently the post I referenced is deleted.
ETA- apparently the post I referenced is deleted.
Last edited by mstateglfr; 02-08-23 at 07:54 AM.
Likes For mstateglfr:
#5
Senior Member
Join Date: May 2010
Location: Bastrop Texas
Posts: 4,475
Bikes: Univega, Peu P6, Peu PR-10, Ted Williams, Peu UO-8, Peu UO-18 Mixte, Peu Dolomites
Mentioned: 13 Post(s)
Tagged: 0 Thread(s)
Quoted: 961 Post(s)
Liked 1,628 Times
in
1,044 Posts
__________________
No matter where you're at... There you are... Δf:=f(1/2)-f(-1/2)
No matter where you're at... There you are... Δf:=f(1/2)-f(-1/2)
Likes For zandoval: