This work describes a platform devised to explore the impact on task execution in a virtual environment of the quality, and therefore cost, of the system's haptic hardware. This platform is a complex haptic interface in which hardware quality can be varied in simulation. Software intercepts the position and force signals between the haptic hardware and the virtual environment software, and alters them to supply the effect of increased friction, cogging, backlash, inertia and/or lower force output. All parameters of the introduced effects can be set independently or in combination and on a continuous scale; a primary contribution is the creation of haptically realistic effect models that are stable in combination on complex hardware. This work is part of a larger project in which we test the effect of the simulated degradations on surgeons performance in simulated laparoscopic tasks.