Project Scion TC Part Two, Chassis and Cage Construction Details

Technosquare Scion TC cage 

Project Scion TC Part Two, Chassis and Cage Construction Details

By Mike Kojima

In our last segment of Project Scion TC Racer we had brought our car to Technosquare in Torrance California for the construction of a custom roll cage leaving the car in the capable hands of master fabricator Richie Watanabe.  It’s no secret that many of MotoIQ’s project cars and staffers personal cars end up spending a stint at Technosquare sooner or later. Richie has many years of experience constructing Pro Rally and race cars, and is quietly proud of the fact that every racer that has ever crashed while driving a car equipped with one of his cages has walked away unharmed.  The last Technosquare cage to be tested in such a spectacular manor is Taka Ono’s AE86 who flipped at a Formula D event at Irwindale raceway last year.

Technosquare Scion TC cage
First the doors were gutted of unneeded hardware and side impact beams.  This saved about 40 lbs a door

A roll cage in a road race car takes on two main tasks.  Besides its most important role of protecting the driver in an accident, a properly designed cage is also a major part of the cars body structure, working in the same way as your skeleton does, keeping your body from collapsing into a pile of mush.  A well engineered cage not only protects the cars occupants from direct trauma, it also gives gradually, absorbing and dissipating crash energy throughout the cars structure, reducing the peak G forces the occupants bodies must endure.  This is the opposite of a super strong and unyielding cage that could transfer a lethal level of forces to the occupants by not giving at all in a crash.

Technosquare Scion TC cage
These bars were removed from each door.      Lots of weight here

A cage must make the chassis stiff in both torsion and bending for good handling.  Since suspension tuning involves manipulating weight transfer around the chassis, the stiffer the chassis, the better the car will respond to changes in the suspension setup.  This makes it easier to adjust the car to the driver and the track conditions.  A flexible chassis acts like a huge undamped spring which can impart uncontrolled rebound forces that can upset the car making it harder to control.  A stiff chassis forces road shocks and bumps to be absorbed by the cars springs and dampers instead of making the car hop and bound.  The ride, the grip and the overall handling benefit.

Technosquare Scion TC cage
The forward legs of the cage extend all the way to the very ends of the framerails.  This gives the most protection from footwell intrusion and stiffens up the chassis.  Wrap around plates spread the load over a large part of the frame rail.  The vertical bars are borrowed from rally racing and help brace up the inherently weak forward legs while still allowing driver access to the interior of the car

In addition to being protective, energy absorbing and stiff, the cage also has to be light.  With these seemingly oxymoronic requirements, it’s easy to see that a good cage requires a combination of good fabrication techniques, engineering and common sense.  A bad cage can make a good car harder, to set up well.

Technosquare Scion TC cage
A closer look at the critical floor plating is shown here

Like all race car projects before you weld or cut anything you must first check the rules. We perused the NASA CCR rulebook to make sure that we built something that exceeded the safety requirements.  We decided on 1020 DOM mild steel tubing for our cage.  We chose mild steel over the higher strength chrome moly because it has several advantages when used in a roll cage.  Chrome moly is steel with a high percentage of chromium and molybdenum alloying elements which give it a 40% higher tensile strength than mild steel.  Unfortunately chrome moly is weakened by the heat of welding and should ideally be heat treated to return strength to the welded areas.  The metal tends to be more brittle in the zones around the weld.  Chrome moly is also less ductile and tends to crack when stressed to the limit.  Mild steel however is less affected by the heat of welding and is more malleable, bending instead of cracking apart under hard impacts.

Technosquare Scion TC cage
The cage is tacked together as the tubing is fitted and it starts to look like a cage!
Technosquare Scion TC cage
The rules state that the foot pad cannot exceed 12″ square.  The foot pad is carefully cut out and contoured to match the frame rail and floor.  This is exceedingly strong, light and safe
Technosquare Scion TC cage
The foot pad for the main loop is also carefully cut, contoured and wrapped to make the most out of the 12″ square.  It attachés the main loop to the frame rail, floor and crossmember and fits tight against the body
Technosquare Scion TC cage
The forward span of the cage from the main hoop to the front legs is a traditional weak point on all sedan cages due to the lack of easy triangulation and the long unsupported span.  As cars get faster, more failures have been recorded due to this part of the car failing.  This small brace helps triangulate this area and greatly strengthens it with little weight penalty

 

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