Abstract: A laminate molding method of fabricating a desired shape consisting of laminate layers having a first type layer in a completely solidified state, the method includes a first step of forming a second type layer on the first type layer, the first type layer having a viscosity larger than the second type layer, a second step of forming a slot groove in the second layer, the second type layer having first and second regions, a third step of printing a releaser on a predetermined region of the second type layer, a fourth step of forming a third type layer on the second type layer or on the first type layer, the second type having a viscosity larger than the third type layer, a fifth step of solidifying the third type layer to form the first type layer, and a sixth step of repeating the first, second, third, fourth, and fifth steps as desired.

Abstract: The present invention is an improvement for use in combination with an apparatus for determining stress and percent retained austenite in a specimen so the apparatus may be used to analyze both Nickel and Titanium alloyed materials. The apparatus includes a first X-ray source with either a copper or cobalt target which irradiates with an X-ray beam a surface area of the specimen impinging on the surface area at a particular angle and a second X-ray source with either a copper or cobalt target which irradiates with an X-ray beam the same surface area of the specimen simultaneously impinging at another particular angle. The apparatus also includes a first detector tube and a second detector tube, each of which has a combination filter of iron oxide and steel foil, for detecting diffracted X-rays in particular crystallographic planes.