Ni-Ti-Pd superelastic alloy material, its manufacturing method, and orthodontic archwire made of this alloy material
First Claim
1. A method of manufacturing a Ni--Ti--Pd superelastic alloy material, comprising the steps of:
- hot-working a slab of an alloy into a wire having a diameter in the range from 1 to 5 mm, said alloy having a composition consisting essentially of, by atomic percent, 34-49% nickel, 48 to 52% titanium and 3 to 14% palladium;
then repeatedly cold-drawing and annealing the hot-worked wire to form a wire having a reduced diameter;
then annealing the wire having the reduced diameter;
subsequently cold-drawing the annealed wire into a wire having a final finish diameter at a reduction ratio, in cross-sectional area, of not less than 20%;
then heat-treating the cold-drawn wire at a temperature in the range from 300°
to 700°
C. to impart the wire with a stress hysteresis, between the loading and unloading stresses in the stress-strain curve at temperatures between Af and Af+5°
, in a range from 50 to 150 MPa.
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Abstract
The present invention provides a Ni--Ti--Pd superelastic alloy material of a composition consisting of, by atomic percent, 34 to 49% nickel, 48 to 52% titanium and 3 to 14% palladium. Optionally, a part of nickel and/or titanium of this alloy is replaced with one or more elements selected from a group of Cr, Fe, Co, V, Mn, B, Cu, Al, Nb, W and Zr such that these elements to be replaced amount to 2% or less in total (by atomic percent), wherein a stress hysteresis between the loading and unloading stresses in the stress-strain curve at temperatures between Af and Af+5° is as small as 50 to 150 MPa. Since the Ni--Ti--Pd superelastic alloy material having the above composition is excellent in hot workability, it can be hot-worked into a wire having a diameter up to the range from 1 to 5 mm and manufactured at a low cost. Then, a final heat-treatment is given to the hot-worked material at a temperature in the range from 300° to 700° C. through a step of final cold-drawing at a reduction ratio in a cross section area of not less than 20%, whereby an excellent superelastic material is obtained, with a stress hysteresis in the range from 50 to 150 MPa, and a residual strain of 0% or close to 0% after unloading, and which can be suitably used for an orthodontic archwire.
78 Citations
1 Claim
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1. A method of manufacturing a Ni--Ti--Pd superelastic alloy material, comprising the steps of:
-
hot-working a slab of an alloy into a wire having a diameter in the range from 1 to 5 mm, said alloy having a composition consisting essentially of, by atomic percent, 34-49% nickel, 48 to 52% titanium and 3 to 14% palladium; then repeatedly cold-drawing and annealing the hot-worked wire to form a wire having a reduced diameter; then annealing the wire having the reduced diameter; subsequently cold-drawing the annealed wire into a wire having a final finish diameter at a reduction ratio, in cross-sectional area, of not less than 20%; then heat-treating the cold-drawn wire at a temperature in the range from 300°
to 700°
C. to impart the wire with a stress hysteresis, between the loading and unloading stresses in the stress-strain curve at temperatures between Af and Af+5°
, in a range from 50 to 150 MPa.
-
Specification