In this paper, (1) we developed a fingertip haptic display with integrated force, tactile and thermal feedback in a miniature form-factor such that it can be worn easily and used with augmented reality applications without affecting the existing tracking technologies. (2) we propose the concept of "Altered Touch", where the integrated fingertip haptic display stated in (1) was used to alter the haptic properties of real objects by rendering projected visual and haptic feedback. The system consists of our own force display Gravity Grabber mechanism[Minamizawa et al. 2007] to render vertical, shearing forces, high frequency tactile vibrations, and a peltier module for thermal display. The integrated haptic display module weighs less than 50g, can be easily interfaced to a PC with just one micro USB cable, and works standalone from any other additional hardware. In this paper we use this wearable haptic actuator in several augmented reality applications to alter the softness/hardness and hot/cold sensation and several use cases have been discussed. Furthermore, the haptic display could be expanded to design a haptic glove that can interact with both virtual and augmented worlds.