| Last Name | Name | Awards | Contact | |
|---|---|---|---|---|
| Woody | Mr. Shane Woody | 8 | Message | |
| Bauza | Marcin B. Bauza | 1 | Message |
Phase 1 STTR
Institution: University of Rochester
This Small Business Technology Transfer Phase I project will demonstrate a novel laser interferometer to provide fast and portable calibrations for ultra-precise motion control devices. This system will provide customers with a portable system that will perform nanometer-level calibrations in a fraction of the time as compared to competitive pro...
Phase 1 SBIR
This Small Business Innovation Research Phase I project addresses a novel metrology sensor to enable advanced multi-dimensional measurements of high aspect ratio structures. The current proposed work focuses on a novel methodology using nanoneedles to create a new nano-metrology sensor and extend our current feature measurement capability to inc...
Phase 2 SBIR
This Small Business Innovation Research Phase II research project will address the continued development of a novel sensor to enable form and finish of complex microscale structures as well as extend the technology to larger parts requiring three dimensional surface profilometry. The company is partnering with a global leader in the metrology i...
Phase 1 SBIR
This SBIR Phase I research proposal addresses a disruptive tool with the inherent ability to measure, manipulate, and modify in three dimensions across multiple dimensional scales. The basic premise is focused upon an energy source capable of delivering, creating, and sustaining a multidimensional virtual tip high aspect ratio probe. The technol...
Phase 1 SBIR
This Small Business Innovation Research (SBIR) Phase I project addresses novel, self-sensing tweezers for micro-assembly and manipulation. In general, the push toward miniaturization is demanding the production and assembly of a wide variety of micro-scale components. One of the key challenges is the assembly of these components into micro-syst...
Phase 1 SBIR
The pressing need exists within industry to accurately measure high aspect ratio microscale structures. For example, diesel injector nozzles are manufactured with microscale holes ranging from 50-200 micrometers in diameter and 3-5 mm depths. One fundamental challenge is to nondestrucvely measure these features in order to validate models, enhan...
Phase 1 SBIR
The goal of this collaborative effort between InsituTec Inc. (NC), TRS Technologies Inc. (Pa) and Center for Precision Metrology at University of North Carolina at Charlotte, NC is to demonstrate the closed loop control of a high-speed, long-range rotational stage. This proposal addresses design, manufacture and testing of a high-bandwidth steer...
