3 axis machine tools have a total of 21 errors and 5 axis machines have 31 errors, all of which effect machine tool accuracy and therefore work piece accuracy.

The major errors are squareness of each axis against each other (the larger the machine the greater the error), Linear inaccuracy on the major axis then roll, pitch and yaw for each axis.

The biggest problem for consistent quality and accuracy of part manufacture is Temperature effect on the machine and product!.

The GTEC system using one algorithm compensates for all 31 geometric (volumetric) errors and incorporates thermal compensation in real time to reduce the effect of expansion and contraction.

Temperature variation not only effects the distance traveled along an axis (called rigid body thermals) but also changes shape and structure of the machine tool (called non rigid body thermals) this effect alters the geometric (volumetric) calibration rendering it ineffective or incorrect!

The GTEC system is the only software to apply correct compensation within the whole working volume to both geometric (volumetric) and thermal error in real time using one algorithm! Verification of the GTEC system working is easily checked by turning a switch on or off.

The iTEC system can be either fully integrated into the machine tool controller or via plug and play and seamlessly and securely compensates for thermal errors.

The improvements achieved using the systems are evaluated using our ESP (Error Simulation Package).

This software uses the same geometric (volumetric) algorithms as the GTEC system to predict the accuracy of a machine throughout its entire working volume.

The majority of machines to which the GTEC system has been implemented have already been mechanically enhanced to the limits of economic viability by design & by refurbishment.

The greatest benefits can be achieved on machines with large strokes. Angular errors have more effect on big machines.

Thermal errors can be compensated for using the both the iTEC & GTEC systems, reducing errors caused by varying temperature of environment, machine and work piece. With the GTEC system the thermal compensation is applied on top of the geometric (volumetric) compensation with real time data not using set temperature points and assuming interpolation in between.

This compensation method is unique to the GTEC system.

THE IMPORTANCE OF APPLYING GEOMETRIC (VOLUMETRIC) HEAD ERRORS CORRECTLY

Geometric (volumetric) head error compensation must be applied to the corrected 3 axis tool point position seamlessly and in an infinitely compensated way throughout the machine volume.

If the head error compensation is applied independently to the 3 axis compensation then the tool point error will likely be worsened in some positions within the machine.

The system re-applies the head error compensation infinitely throughout the machine movements in conjunction with the 3 axis error compensation to ensure correct tool point positioning.

Remember you have a geometrically imperfect machine with mechanical errors of which only the tool point position is being corrected. Head compensation must be applied incorporated into the 3 axis compensation and not compensated independently to the 3 axis compensation. If head error compensations are not applied incorporated within the full 5 axis compensation software, the tool point errors can actually be larger than the original in some parts of the machine. This can only be caused by independent compensation being applied to the head with disregard to the 3 axis compensation!