Founded in 2002 and headquartered in Orlando, Florida, nScrypt designs and manufactures award-winning, next-generation, high-precision Microdispensing, and Direct Digital Manufacturing equipment and solutions for industrial applications, with unmatched accuracy and flexibility.Headquarters 12151 Research Pkwy Suite 150 Orlando FL 32826 United Stateswork
nScrypt, Inc. manufactures micro-dispensing and 3D Printing systems. We have extensive experience in dispensing applications with a wide range of materials. Our patented SmartPump™, provides a significant edge in speed and precision over other micro-dispense pump technologies. Our 3D Printing utilizes patent pending nFD™ which reaches printing temperatures of more than 400C and the smallest commercial prints, less than 50 microns.
nScrypt’s manufacturing and research facilities are located in Orlando, FL. Our focus areas are 3D printing, direct printing, and micro dispensing. We emphasize enabling a vast array of micro-dispensing technologies for the electronics, electronic packaging, solar cell metallization, printed antennas, life sciences, and chemical/pharmaceutical industries through precision material manipulation, mixing, and processing. Specific activities include micro manufacturing, selling, and servicing specialized patented equipment that performs critical steps in manufacturing procedures. Our broad core competence helps us to maintain our global leadership over competing devices and processes offered by other companies.
nScrypt’s direct print technologies address a wide array of customer needs through the creative and innovative use of our advanced printing and micro-dispensing technologies, including 3D printing, laser machining, and conformal coating. We also create unique variations of our patented SmartPump™ valving along with customized dispensing techniques. Our high-quality manufacturing and research facilities provide an environment for continuous development of new technologies, as well as micro manufacturing of customer products, and manufacturing of system-level solutions.