Case assembly and method

The invention claimed is: 1. A case assembly of a gas turbine engine comprising: a plurality of segments, wherein each segment is circumferentially spaced from an adjacent segment to form a gap; at least one braze joint connecting the plurality of segments together at the gap; and one or more welds extending across the gap to join adjacent segments, wherein each of the one or more welds overlaps with both the braze joint and a portion of each of the adjacent segments. 2. The case assembly of claim 1 , wherein the welds are positioned along the braze joint. 3. The case assembly of claim 1 , and further comprising forward and aft flanges, and wherein the weld is applied to the forward and the aft flanges of the case assembly. 4. The case assembly of claim 1 , wherein the braze joint comprises a plurality of braze joints, the plurality of braze joints all have a substantially similar circumferential spaced distance, and wherein one of the segments comprises a keystone segment that has a circumferential spaced distance that differs from the circumferential spaced distances of the remainder of the segments. 5. The case assembly of claim 1 , wherein the segments form an inner liner for a mid-turbine frame. 6. The case assembly of claim 1 , wherein the segments form an outer liner for a mid-turbine frame. 7. The case assembly of claim 1 , wherein the one or more welds comprise a plurality of welds that are applied along a non-flow path surface of each braze joint and are spaced with respect to one another. 8. A method of assembling a case of a gas turbine engine, the method comprising: assembling a plurality of segments, each of the segments circumferentially spaced from an adjacent segment by a gap comprising a circumferentially spaced distance; applying a weld between segments across the gap; applying a braze material to the gap, wherein the weld extends to overlap with both the braze joint and a portion of each of the adjacent segments; and brazing to produce a braze joint that fills the gap between segments. 9. The method of claim 8 , further comprising: applying a plurality of indentations to the segments such that each indentation bridges the gap between the adjacent segments; and applying the weld to the indentations to temporarily hold the assembled plurality of segments together prior to brazing. 10. The method of claim 8 , wherein each gap between the adjacent segments has a substantially similar gap width. 11. The method of claim 10 , wherein the step of assembling a plurality of segments includes: measuring the gap width to determine a desired circumference of a segment for a keystone vane assembly; fabricating the segment for the keystone vane assembly to the desired circumference such that all the gaps between all of the segments have the substantially similar gap width; and inserting the keystone vane assembly into the assembly. 12. The method of claim 11 , wherein the segment for the keystone vane assembly comprises a last segment assembled. 13. The method of claim 8 , further comprising assembling shear bands to a forward and an aft portion of the case. 14. The method of claim 8 , wherein the segments form at least one of an inner liner and/or an outer liner for a mid-turbine frame.