Claims
- 1. An ultra precision forming method employing controlled plastic deformation of metals at elevated temperatures to achieve production of components to the precision required for millimeter wavelength and sub-millimeter wavelength requirements, the method comprising the steps of:(i.) providing a double action press with ability to be computer controlled for both down and up stroke on ram, said ram having a down controllable speed 0 to 0.250 inches/sec and an up controllable speed of 0.250 inches/sec, said double action press adapted for receiving a solid material billet/blank with the volume of the blank tailored to volume of finished part thereby minimizing material wastage, and said double action press adapted for receiving a die member comprised of two halves wherein said solid material billet/blank is enclosed in said die member halves; (ii.) placing said die members in said double action press, said die members being ultrasonically polished on internal surfaces and sidewalls which are subsequently coated with a dry film lubricant a tungsten disulfide to prevent galling when finished part is ejected from said die members; (iii.) inserting said solid material billet/blank within said die member halves in the open position of said double action press, said solid material billet/blank selected from aluminum alloys and aluminum composites; (iv.) closing said double action press to preheat position where said solid material billet/blank is enclosed within said die member halves and holding at preheat displacement for a predetermined time; (v.) isothermally heating said die member halves and said solid material billet/blank in the range of 80 percent to 95 percent of the melting point of said solid material billet/blank while holding in said preheat displacement position with no force being applied; (vi.) transitioning from preheat displacement to force rate control and holding at a peak force for a predetermined time and at a predetermined temperature hold time to achieve forming of said material billet/blank; (vii.) forming said billet/blank by closely controlled high temperature compression force profile tailored over time to manage internal stresses during forming and minimizing residual stresses in finished part; and, (viii.) commanding said double action press to return to loading or said open position to recover said finished part.
- 2. The ultra precision forming method as defined in claim 1 wherein said closely controlled high temperature compression force employs peak forming forces in range of 15,000 psi to 25,000 psi to achieve strain rates during forming of said billet/blank within a range of 0.01 sec−1 to 0.2 sec−1.
- 3. The ultra precision forming method as defined in claim 2 wherein complete part forming from said billet/blank is typically in range of twenty to forty seconds.
DEDICATORY CLAUSE
The invention described herein may be manufactured, used, and licensed by or for the Government for governmental purposes without the payment to us of any royalties thereon.
US Referenced Citations (5)
Foreign Referenced Citations (2)
Number |
Date |
Country |
53-14877 |
Dec 1978 |
JP |
6-114483 |
Apr 1994 |
JP |