MENUModified Westfield Tuning Tips
Maximise your Westfield’s driving pleasure
Thanks for visiting TorqueCars, we love Westfields and see so many interesting Westfield projects.
If you are looking to build the ultimate Westfield then you came to the right place.
Our tuning tips and articles for the Westfield cover all the best mods and latest tuning methods to help you build a great modified Westfield.
With the help of our forum members, industry professionals and seasoned car modifiers we present a best practice guide to modding your Westfield.
Please join us in our forums, we love to hear what members are up to and it helps us spot trends so that we can ensure the site is always covering the latest and greatest tuning topics for Westfield owners.
Feel free to drop a tip or suggestion on the comments box at the bottom of each and every article, this feedback is greatly valued and helps us refine our articles.
Complete guide to the differences between Miller, Otto and Atkinson Cycle Engines and the pros and cons of each type of engine.
A look at high performance wheels
One popular modification done to cars is replacing the wheels. We will look at the types of wheel available, the pros and cons of each and look at the implications of fitting different size wheels.
We will be challenging the concept of wider wheels giving more grip and looking at the effect a larger rim size has on a cars performance.
DMF vs solid flywheel conversions
We look at the benefits and disadvantages of solid flywheel conversions from a DMF and help you decide which is right for you.
It is our considered opinion that unless a car is used extensively for competition or off road you should stick with a DMF. The additional torque caused by tuning an engine or heavy competition use can quickly destroy a DMF. The solution would be to fit a stronger, higher performance DMF but the aftermarket industry seems geared up to offer solid ones as the upgrade option.
Principles of porting an engine and big valve conversions
The inlet and outlet ports on the engine block are usually larger than those of the manifolds that connect to them.
This allows for scope in the manufacturing process to allow for mismatched alignment.
Generally the engine ports are larger in the upstream flow direction avoiding turbulance but power gains can be made by matching these up.
