Shrunk 3D Franchise Success Story in San Diego

Shrunk 3D is excited to continue to grow in Sunny San Diego! The Franchise Consultants candidates are fueled by their shared entrepreneurial spirit and mutual commitment to success. One candidate is currently serving in the active-duty Navy as an operational medical planner, bringing a wealth of experience from her diverse background spanning various countries. Her three children are equally enthusiastic about contributing to the new business endeavor, reflecting the family-oriented ethos that underpins their entrepreneurial journey. 

Her business partner and friend hails from Lehi, UT, and has a passion for real estate investments. With her background in real estate and a penchant for outdoor pursuits like hunting and traveling, she brings a dynamic perspective to the partnership. After considering many franchise concepts, the duo decided to invest in Shrunk 3D because it allowed for a flexible work-life balance that fits their families' needs while fulfilling their entrepreneurial goals.

“Their decision was also fueled by Shrunk 3D's national partnerships, which facilitate access to a wide range of events through the Collegiate Licensing Company, Varsity Spirit, and the United States Football League. Their motto, ‘If you're in, I'm in,’ encapsulates their unwavering commitment to each other and their confidence in overcoming any challenges that come their way as they embark on this exciting business venture together. Congratulations to Mary and Jessica on being awarded the San Diego Market.” - IFPG Consultant 

As the world's first mobile 3D scanning studio franchise, Shrunk 3D's explosive launch allows entrepreneurs to get in on the ground floor, bringing this unique, innovative product to market. This is the kind of opportunity that not only benefits the investor, but the community at large. The concept was made with franchisees in mind to provide a "business in a box" that has no inventory, low startup costs, high profit margins, and can generate positive cash flow in its first event.