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With so many of these cups in use, it only makes sense to me that I share this tutorial on how to personalize a Starbucks reusable cup. I’ll be using the standard white cup which is available year round. This post is going to show you how to personalize a Starbucks reusable cup. In return, customers who bring it each time are entitled to a discount. In an effort to be better for the environment Starbucks has reusable cups that can be purchased for a nominal price. I see that as an opportunity to craft! Here’s how to personalize a Starbucks reusable cup. It seems that everywhere you go nowadays, it’s not uncommon to see someone holding a Starbucks cup. Finally, we provide an outlook on future applications that could benefit from origami and kirigami to create intrinsically curved surfaces.Day 10 of my Cricut Christmas Crafting is a practical and easy gift. Moreover, we highlight practical aspects that are relevant in the development of advanced materials with these techniques. Here, we review recent origami and kirigami techniques that can be used for this purpose, discuss their underlying mechanisms, and create physical models to demonstrate and compare their feasibility. Although such techniques are limited by an inherent developability constraint, the rational design of the crease and cut patterns enables the shape-shifting of (nearly) inextensible sheets into geometries with apparent intrinsic curvature. The centuries-old art forms of origami and kirigami could offer elegant solutions, involving only folding and cutting to transform flat papers into complex geometries. Fabricating arbitrarily complex three-dimensional geometries requires the ability to change the intrinsic curvature of initially flat structures, while simultaneously limiting material distortion to not disturb the surface features. Among other advantages, this technique permits the use of functionality-inducing planar processes on flat starting materials, which after shape-shifting, result in a unique combination of macro-scale geometry and surface topography. Transforming flat sheets into three-dimensional structures has emerged as an exciting manufacturing paradigm on a broad range of length scales.