STTR Phase I: Ultra-High-Speed Micro-Milling Machine

Award Information
Agency:
National Science Foundation
Branch
n/a
Amount:
$149,992.00
Award Year:
2007
Program:
STTR
Phase:
Phase I
Contract:
0637573
Agency Tracking Number:
0637573
Solicitation Year:
n/a
Solicitation Topic Code:
n/a
Solicitation Number:
n/a
Small Business Information
Mohawk Inn
1037 WATERVLIET SHAKER RD, 6745 HOLLISTER AVENUE, ALBANY, NY, 12205
Hubzone Owned:
N
Socially and Economically Disadvantaged:
N
Woman Owned:
N
Duns:
883926594
Principal Investigator:
Said Jahanmir
Dr
(518) 862-4290
sjahanmir@mitiheart.com
Business Contact:
Said Jahanmir
PhD
(518) 862-4290
sjahanmir@mitiheart.com
Research Institution:
GA Inst of Tech
Steven Y Liang
MARC, Room 380
Atlanta, GA, 30332
(404) 894-8164
Nonprofit college or university
Abstract
This Small Business Technology Transfer (STTR) Phase I project is directed towards the design, development, and evaluation of a unique ultra-high-speed precision micro-milling machine with a micro-spindle/motor assembly along with in situ metrology sensors. The proposed micro-milling machine is an integral part of an overall micro-manufacturing system. Micro-manufacturing refers to the creation of high-precision three-dimensional (3D) products using a variety of materials and possessing features with sizes ranging from tens of micrometers to a few millimeters. While micro-scale technologies are well established in the semiconductor and microelectronics fields, the same cannot be said for manufacturing products involving complex 3D geometry and high accuracies in non-silicon materials. At the same time, the trends in industrial and military products that demand miniaturization, design flexibility, reduced energy consumption, and high accuracy continue to accelerate -- especially in the medical, biotechnology, telecommunications, and energy fields. Mohawk Innovative Technologies, in partnership with the Georgia Institute of Technology, will develop a unique ultra-high-speed precision micro-milling machine, which will have the capability of being used both in milling (for machining softer metals) and in grinding (for harder metals and ceramics). The principal advantage of the proposed micro-milling machine, besides the state-of-the-art in situ metrology, is the higher precision obtained through the implementation of the ultra-high-speed spindle that will decrease the cutting forces and thus tool vibrations. In Phase II, the proposed ultra-high-speed precision micro-milling machine will be further evaluated and modified to demonstrate the fabrication of complex parts for a variety of industries including defense, aerospace, healthcare and energy. The proposed desktop system will be designed with considerations of affordability, portability and versatility to assist in the development of new businesses and industries, and high value jobs.

* information listed above is at the time of submission.

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