RAD Tyler Bonner Signature Bar Standard

Inward Price:
$ 109.00
In stock 3

The RAD Tyler Bonner Signature bar is constructed with Tyler's own sweat and blood, and of course one hundred percent 4130 chromoly. A heavy duty design with the smooth looking "deep V" crossbar. Even a beginner rider will look like a flow boss with a set of these. This standard size RAD pro scooter bar fits on scooters with SCS, IHC, Mini HIC , and ICS compression. (Call us at 214-908-4452 if you have an MGP or Lucky scooter).

The RAD Tyler Bonner Signature bar can be ordered between 19 and 28 inches high and between 21 and 26 inches wide and have 5 degrees backsweep.  The bar is made in the USA of heat treated 4130 Cromoly steel and comes powder coated.  See instructions for details.

Please measure twice! Custom cut bars can not be exchanged or returned.

Category
Weight
2.91 lbs (1320 grams)
Type
Standard Scooter Bar
Brand
RAD
Backsweep
Bar Height
Minimum: 18 inch
Maximum: 28 inch
Bar Width
Minimum: 16 inch
Maximum: 24 inch
Compression Compatibility
Threaded Fork, ICS, IHC, SCS
Made in
The USA
Material
4130 Chromoly

No special tools needed.

We recommend that you refer to an existing pro scooter to determine the size of your new bars.
HEIGHT: please measure from the bottom of the steering tube (where the clamp is) up to the top of the horizontal crossbars.

WIDTH; a good rule of thumb is to use AT LEAST your shoulder width.

If you have  SCS compression (to be purchased separately), Choose "no slit" and order the bars 1.5 inch shorter than normal.

If you have a threaded fork, order the bar WITH a slit that is as high as your clamp or a bit higher.

If you have IHC or Mini HIC compression, order the bar WITH a slit that is as high as your clamp or a bit higher.


MGP pro scooters have a bar that is 1 inch longer than most other brands. For example, a 22 inch high bar from another brand will feel like a 21 inch high bar on a MGP scooter.

One year Manufacturer warranty against cracked welds and snapping. 90 days Manufacturer warranty against bending.