High strength zinc alloys

Zinc alloys having improved physical properties consist essentially of 10 to 30 percent by weight of aluminum, 0.3 to 10 percent by weight of copper, 0.01 to 0.1 percent by weight of magnesium, 0.005 to 0.3 percent by weight of at least one of the metals calcium, .[.lithium.]. and sodium, and the balance zinc.

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Description

It has been known for over twenty-five years that near-eutectoid alloys of zinc and aluminum upon suitable heat treatment acquire the capacity for a high degree of plastic extension which has been termed "superplasticity." A review of the literature in the field of aluminum-zinc superplastic alloys is provided by an article entitled "Superplasticity in an Al-Zn Alloy" by W. A. Backofen et al. in Transactions of the ASM, Vol. 57, 1964, pages 980-990.

U.S. Pat. No. 1,945,288 to Morell disclosed eutectoid alloys of zinc and aluminum containing minor porportions of magnesium and copper. Although the Morrell patent did not explicitly describe the phenomenon of "superplasticity," it became very obvious from the literature in this field cited and discussed in the Backofen article referred to above that the alloys described in the Morell patent possessed the property of superplasticity.

It has now been found that alloys of improved physical properties including high ultimate tensile strengths at ambient temperatures, improved stress rupture lives, and high creep strengths as well as potential superplasticity can be obtained by adding to zinc-aluminum eutectoid alloys containing from 0.3 to 10 percent by weight of copper, and from 0.01 to 0.1 percent by weight of magnesium, small amounts, of the order of from 0.005 to 0.3 percent by weight of at least one of the metals calcium, .[.lithium.]. and sodium. The alloys of the invention contain from 10 to 30 percent by weight of aluminum, the balance being zinc.

For most purposes preferred alloys of the invention contain 20 to 24 percent by weight of aluminum, from about 0.75 to about 1.1 percent by weight of copper, from about 0.04 to about 0.05 percent by weight of magnesium, from about 0.01 to about 0.03 percent by weight of at least one of the metals calcium, .[.lithium.]. and sodium and the balance zinc.

The following are typical alloy compositions of the invention all parts being in percent by weight:

TABLE I ______________________________________ No. Al Cu Mg Ca Li Na Zn ______________________________________ 1 22 0.9 0.04 0.02 -- -- Balance .[.2 22 0.9 0.04 -- 0.013 -- Balance.]. .[.3 22 0.9 0.04 -- 0.032 -- Balance.]. .Iadd.2.Iaddend..[.4.]. 22 0.9 0.04 -- -- 0.007 Balance .Iadd.3.Iaddend..[.5.]. 22 0.9 0.04 -- -- 0.013 Balance ______________________________________

The high strength properties of the alloys of the invention can be developed by casting the molten alloy compositions into extrusion billets or rolling slabs. The billets and rolling slabs are then heat-treated between 275.degree. C. and 380.degree. C. to homogenize the material and are water quenched to produce the superplastic structure. The billets or slabs are then reheated to 260.degree. C. and hot-extruded or hot-rolled into rods or sheets. The rods or sheets thus produced are then in condition to be formed into useful products by any of the methods known in the art of forming superplastic alloys.

The practical utilization of the alloys of the invention are not limited to uses involving superplasticity. Other applications of the alloys utilizing their excellent mechanical properties include such metal working techniques as forging (open die, closed die and precision) hot extrusion, impact extrusion, stamping, drawing and screw machine techniques.

The results of tensile strength tests on typical alloys of the invention are given below. In the table the term "hot-worked" denotes the as-rolled or as-extruded material and the term "heat-treated" denotes the material that has been heat-treated between 275.degree. C. and 380.degree. C. and water quenched. The numbered alloys are as in Table I.

TABLE II ______________________________________ Ultimate Tensile Strength (psi) No. Hot-Worked Heat-Treated ______________________________________ 1 68,000 92,500 .[.2 69,000 72,000.]. .[.3 70,000 70,000.]. .[.4.]..Iadd.2.Iaddend. 60,000 82,000 .[.5.]..Iadd.3.Iaddend. 60,000 80,000 ______________________________________

Comparative ultimate tensile strengths of an alloy consisting of 22 percent by weight of aluminum, 0.9 percent by weight of copper, 0.04 percent by weight of magnesium and balance zinc were 53,000 psi in the hot-worked state and 62,000 psi in the heat-treated state.

Claims

calcium, lithium and sodium, and the balance zinc..]. 2. Zinc base alloys.[.as defined in claim 1.]..Iadd.having improved mechanical properties.Iaddend.consisting essentially of 20 to 24 percent by weight of aluminum, 0.75 to 1.1 percent.Iadd.by weight.Iaddend.of copper, 0.04 to 0.05 percent by weight of magnesium, 0.01 to 0.03 percent by weight of calcium and balance zinc..[.3. Zinc base alloys as defined in claim 2 in which the calcium is replaced by lithium..]..[.4. Zinc base alloys as defined in claim 2 in which the calcium is replaced by sodium..].

Referenced Cited
U.S. Patent Documents
1945288 January 1934 Morell
2102869 December 1937 Winter
3527601 September 1970 Foerster
3676115 July 1972 Hare et al.
3734785 May 1973 Watson et al.
3741819 June 1973 Chollet et al.
Foreign Patent Documents
899,110 May 1972 CA
663,274 August 1938 DD
703,977 March 1941 DD
1,272,117 April 1972 UK
Patent History
Patent number: RE29038
Type: Grant
Filed: Jan 8, 1976
Date of Patent: Nov 16, 1976
Assignee: St. Joe Minerals Corporation (New York, NY)
Inventor: Robert Wayne Balliett (Beaver Falls, PA)
Primary Examiner: L. Dewayne Rutledge
Assistant Examiner: E. L. Weise
Attorney: Harold L. Stowell
Application Number: 5/647,583
Classifications
Current U.S. Class: 75/178AM
International Classification: C22C 1700;