Category: braking

The Fox’s Face – the ‘Traction Circle of Grip’ applied to motorcycles

by Bike Coach, posted in advanced motorcycle training, braking, motorcycle braking, motorcycle cornering, motorcycle safety, motorcycle trackday training, motorcycle trackdays, motorcycle training, motorcycling
(From Biral, Francesco & Lot, Roberto from 2009)

So what does it mean for riders?

The ‘Fox’s Ears’

It means that you can accelerate the hardest at 45 degrees of lean, which seems odd, but have to roll back the throttle as your lean angle decreases and the front of the machine starts to lift.

Riders need to be acutely aware of the dangers of ‘High Siding’.

The ‘Fox’s Nose’.

This also shows a rider can brake (briefly) at up to 1.5g when upright(ish). This is twice as hard as the Highway Code standard.

This is probably from top speed due to the drag on the rider and bike preventing it flipping over. 1g tips most bikes at lower speeds. You can also briefly brake harder as energy is dissipated rotating the bike during weight transfer.

The ‘Fox’s Jaw’

The ‘jaw’ show a linear relationship between lean angle and braking, up to the extremities of banking – red lines. So track riders can brake deep into corners using the front brake, gradually releasing it proportionally as the lean angle increases.

Riders need to be aware that grip levels on the road can vary considerably, and the dangers of a front wheel ‘wash out’ and ‘Low Siding’.

The DVSA advice, which should be taken, is for road riders to complete their braking before corners, and only use the rear brake in an emergency. Applying the front brake mid corner, as opposed to carrying it into the corner, flips the machine up. This will make it run wide, potentially through the scenery or into oncoming traffic.

However, with training and practice, road riders can be trained to carry the front brake into corners in an emergency, which can be a life saver. But braking into corners routinely just significantly diminishes your safety margin, and likely increases impact speeds.

It’s not sensible to ride on the road anywhere near the limits of grip. However, on a track, it’s necessary, with care, for fast lap times. You need to know where the limits are.

We tried applying the standard traction circle maths to motorcycles in 2015, looking to see what traction should be available for braking as the lean angle increased.

If you use Mohr’s Circle, you get what we called the ‘Cats Claw’ which is the shape of the calculated additional area of grip.

It didn’t look right, and showed far more grip when banked than was available in practice. The question was why?

We looked at Cossalters ‘Motorcycle Dynamics’ which shows an oval, which looked better, but not perfect. 1g on one axis for braking and accelerating, 1.6 g for the other when banked.

There was a recent post on LinkedIn from Mikko Bartolossi, a MotoGP Engineer, introducing a paper from Biral, Francesco & Lot, Roberto from 2009, showing an alternative traction circle for motorcycles.

https://www.researchgate.net/publication/267715875_An_interpretative_model_of_g-

It looks like a fox’s face!

The diagram shows the lateral and tangential g force acting on a motorcycle when cornering, and either braking or accelerating at the same time.

The left and right hand areas show the g force acting on the machine when it is banked. The braking force is shown on the lower half, and accelerating on the top half of the diagram.

The tip of the ‘fox’s nose’ shows that a rider can momentarily brake at around 1.5 g as long as the machine is nearly upright. This will be very briefly as the bike will flip forward otherwise, and is probably from top speed relying on wind drag to stop the bike from tipping fotwards. But shows how a high level of skill can reduce stopping distances. Most motorcycles will flip forward at 1g. (For E-Scooters it’s only 0.4 g). The Highway Code assumes 0.67g.

Riders need to be aware of the dangers of snatching the front brake and skidding and falling, or on machines without ABS. Also somersaulting, when can also occur with earlier ABS systems without pitch control

The red lines at the bottom show a linear relationship between lean angle and the maximum braking force that can be applied, when you’d probably expect the grip to diminish exponentially as the lean angle increases (Cat’s Claw).

This will be using mainly the front brake, as the rear brake will have little effect due to the weight transfer forwards, making a rear wheel skid very likely.

But what is even more interesting, are the ‘fox’s ears’. Accelerating on a motorcycle is limited to 0.9g not by tyre grip, but because the machine will flip over. This time backwards, not forwards as in hard braking.

It shows that motorcycles can be accelerated harder when banked, the peak shown at 45 degrees of lean. Why is this? It’s probably because the centre of mass is lower and to the inside of the corner, and the front of the machine is held down partly by the centrifugal force. The weight is transferred to the rear tyre from the front tyre at the same time, giving more grip at the rear.

This is where racers can gain an advantage, but for trackday and road riders this is where ‘Highsides’ happen. The rear tyre loses grip, slides sideways, then grips again when the rider instinctively snaps the throttle shut in response. The rider is usually thrown up into the air, often over the top of the machine.

We know traction control will not necessarily prevent this. It’s too quick and too brutal. However, modern bikes with Inertial Measurement Unit (IMU) are better and can sense tbe limit aporoaching.

Modern MotoGP and WSBK bikes have traction control, (BSB bikes don’t) so it very rarely happens now in world racing, but many older road going sports bikes also don’t.

This makes older sportsbikes quite difficult to ride safely, particularly as grip levels on the road, as opposed to a track, can vary considerably. There are also two generations of traction control for road bikes, the latest being IMU’s are ‘lean sensitive’ which makes them more effective and safer.

We know from experience at ‘The School’, that riders can still lose traction by accelerating too hard at extreme lean angles., even with traction control. However, the newer systems seems to prevent ‘high sides’ (so far), with the bike ‘low siding’ and the rider just slipping off the side of the machine.

The new Yamaha R9 and other top end bikes now have 6-axis IMUs (Inertial Management Unit) which makes them ‘lean sensitive’, so should be safer in this respect, although the Laws of Physics will eventually intervene at the extremes.

So a 10-year mystery solved, it’s not a ‘Cat’s Claw’, it’s a ‘Fox’s Face’.

Were now working with Prof Owen Williams on a 660 Aprilia fitted wirh a 9-Axis IMU. Next step?

Mike Abbott, British Superbike School

17th June 2025

Updated 16.8.25

Press release – ‘The Hidden Factor in Motorcycle Crashes’

by Bike Coach, posted in advanced motorcycle training, braking, motorcycle training, motorcycling, safety, Uncategorized

‘Brake like a pro’ – Motorcycle Safety Campaign 2024

IN AN EMERGENCY

50% of riders skid and fall

(Forensic Crash Consultancy Ltd)

The problem has remained unidentified within the Government’s accident data of ‘contributory factors‘ probably within ‘loss of control,’ or simply not recorded.

These are the findings based on slide marks left on the road and the severity of the impact, based on the damage to vehicles and injuries to the rider, confirmed by traffic camera footage and GPS data from helmet cameras.

Riders falling and sliding down the road take far longer to come to a stop.

Published Research has also found that circa 50% of riders cannot even achieve Highway Code stopping distances.

(Axion Forensic)

The research also found that the difference between the best riders and an average rider braking from 60 mph, is the difference between stopping in time and a 30 mph impact, or a 40 mph probably fatal impact for the worst riders.

Research has also shown that the problem is not related to the level of rider experience.

Emergency Braking Performance of Motorcycle Riders. Huertas-Leyva, P., Nugent, M., Savino, G., Pierini, M., Baldanzini, N., & Rosalie, S. ( 2019.)

The situation is not helped by conflicting and misleading published advice from the DVSA and in Police Motorcycle Roadcraft, on emergency braking.

The conclusion has to be that we as a training industry are failing riders, and this must be urgently addressed.

In the meantime, riders can brake test themselves (with care) using a phone App such as iAccel Lite which is free. 0.67g is the Highway Code Standard, 0.8g is achievable with practice (with great care). Advice on braking is below, but if in any doubt please contact your local training organisation.

Riders need to practice repeatedly until the technique becomes embedded and automatic. In theory, this takes 200 repetitions to create the required ‘muscle memory‘, enabling maximum braking without conscious thought.

Riders on machines without ABS should never practise on their own, due to the risk of a skid and fall.

Racers and trackday riders should mostly already be ‘pre-programmed’ and capable of close to 1g.

Background

At the end of 2023, the MCIA called for a new motorcycle safety strategy. ‘Speeding’ and ‘Think Bike’ have been pursued for well over a decade, but motorcycle casualties haven’t reduced over the last few years.

Adhering to speed limits and being aware of hazards is only part of the problem. It’s also being able to brake in time. Having trained riders for 14 years, we know that many if not most, with training, can reduce their stopping distances significantly.

What we didn’t appreciate was the extent of the problem and the very serious implications for road safety.

For car drivers, stopping in an emergency just requires the driver to stamp on the brakes even when cornering, as almost all vehicles have ABS (anti-lock) brakes. ABS has only been compulsory since 2016 for motorcycles >125cc.

The problem has remained hidden as ‘failure to brake properly’ is not a ‘contributory factor’ in accident statistics.

A failure to brake in time could also be incorrectly classed as ‘Speeding‘, which in the 2022 accident stats shows as 10x more likely for riders than drivers. It could also be lost within ‘Failed to look properly‘ when the rider anticipated the collision but couldn’t stop in time, or within ‘Learner/inexperienced‘. In addition, 30% of collisions have no recorded contributory factors, up from 14% in 2013.

This is primarily because most motorcycles, except for some 2013 Kawasakis, don’t have ‘Event Data Recorders‘ whereas many cars do. However, extracted post-crash data from traffic cameras and rider’s helmet cameras confirms that many riders cannot stop properly.

If you compare the stopping distances from published US research from Axion Forensics, the best ‘Magazine Test Riders‘, can stop at half the distance than the worst road riders.

From 60 mph, this is the difference between stopping in time and a 40 mph probably fatal impact, as braking obeys a ‘square law’.

It is hoped that the Government, trainers, road safety organisations and charities will look at new initiatives to address this root cause, to raise awareness, encourage practise, and provide additional braking advice and training nationwide. The most vulnerable group is +17 years teenage riders who move from a 50cc ‘twist and go’ to a 60 mph 125c geared motorcycle, not required to have ABS with no additional training, but riders, parents and non-DVSA licenced trainers need to be aware of child protection issues.

It is also intended to encourage more research into the problem and to address the differing and contradictory advice from the DVSA and Police Roadcraft, on how to brake in an emergency.

Advice on Braking

Riders on ABS-equipped bikes simply need to have the confidence to apply both brakes firmly, which is often a problem due to current or previous experience on bicycles, when riders can skid and fall, or go over the handlebars.

Based on racing experience, research and theory, riders require a high degree of skill and practice to brake effectively.

  • Shut the throttle, apply the rear brake, sit up and lean back, all at the same time.
  • Reach forward and squeeze – do not snatch – the front brake with increasing pressure.
  • If the front wheel locks, release immediately and reapply.
  • If the rear wheel lifts, release some front brake pressure to stop the bike tipping forward.
  • Disengage the clutch as you come to a halt
  • When banked in a corner, just apply the rear brake.

The rear brake should be applied immediately, but on non ABS machines, may need to be steadily released again to avoid the rear wheel skidding.

Riders need to avoid snatching the front brake, instead squeezing the lever with increasing pressure, just enough to avoid locking the front wheel, but enough to transfer the weight as quickly as possible onto the front tyre, then slightly reducing the pressure as the bike slows to leave the rear tyre just lightly touching the road surface.

Riders also have to release the throttle, extend their fingers, grasp the front brake lever and pull, which is thought to extend reaction time for another 0.5 seconds or 44 feet @ 60 mph. So covering the front brake with your first two fingers is recommended, as is using the rear brake, which will be applied sooner as the rider just had to press their foot down.

Riders can also ‘trail brake’ into corners in an emergency, braking and steering at the same time, as racers do, but it requiries a high degree of skill, and very careful instruction which is best undertaken on a track.

Feedback is welcomed, and further posts and advice are planned.

For more information see:-

Motorcyclists – ‘Brake like a Pro’

Mike Abbott MBA, RoADAR (Dip), DVSA RPMT 800699, ACU Coach #62210

British Superbike School

Applewood

Old Hall Lane,

East Markham,

Newark

Notts NG22 ORF

Tel: 01777 818013

Mbl: 07939 041606

Web: www.britishsuperbikeschool.co.uk

Email: mike@britishsuperbikeschool.co.uk