Roller bearing assembly for use in a fracking pump crank shaft

What is claimed is: 1. A roller bearing assembly for use in a fracking pump crank shaft, the roller bearing assembly comprising: an outer ring having an inner raceway; an inner ring having an outer raceway, the inner ring being positioned at least partially in the outer ring; a plurality of rolling elements disposed between and in rolling engagement with the inner raceway and the outer raceway, a first of the plurality of rolling elements having a first bore extending axially at least partially therethrough and a second of the plurality of rolling elements having a second bore extending axially therethrough; and a cage having a first annular disc positioned axially outward from the plurality of rolling elements, a first pin extending axially inward from the first annular disc and a second pin extending axially inward from the first annular disc, the first pin extending into the first bore and the second pin extending into the second bore; wherein the first pin and the second pin are positioned on the first annular disc so that the first of the plurality of rolling elements and the second of the plurality of rolling elements are spaced apart from one another with a gap extending continuously therebetween, the gap being of a predetermined magnitude to maximize the number of rolling elements that fit between the inner raceway and the outer raceway; wherein an annular cavity is defined between the inner raceway and the outer raceway, the annular cavity having a circumferential volume, and wherein the plurality of rolling elements is maximized to occupy the circumferential volume, the gap having a minimized magnitude while permitting movement of the first of the plurality of rolling elements relative to the first pin and permitting movement of the second of the plurality of rolling elements relative to the second pin; and wherein at least one of the inner ring and the outer ring are comprised of a vacuum de-gassed steel having an oxygen content controlled to less than 10 ppm. 2. The roller bearing assembly of claim 1 , wherein the cage comprises a second annular disc positioned opposite the first annular disc, wherein the plurality of rolling elements are positioned axially between the first annular disc and the second annular disc. 3. The roller bearing assembly of claim 2 , wherein at least one of the first pin and the second pin extend between and are secured to the first annular disc and the second annular disc. 4. The roller bearing assembly of claim 2 , wherein at least one of the first pin and the second pin extend between and are welded to the first annular disc and the second annular disc. 5. The roller bearing assembly of claim 1 , wherein at least one of: the first bore extends entirely axially through the first of the rolling elements; and the second bore extends entirely axially through the second of the rolling elements. 6. The roller bearing assembly of claim 5 , wherein at least one of: the first pin extends completely through the first bore; and the second pin extends completely through the second bore. 7. The roller bearing assembly of claim 1 , wherein the first of the rolling elements is rotatably mounted on the first pin and the second of the rolling elements is rotatably mounted on the second pin. 8. The roller bearing assembly of claim 1 , wherein: (a) the outer ring and the inner ring are manufactured from a vacuum de-gassed steel having an oxygen content controlled to less than 10 ppm; (b) the first annular disc and the second annular disc are manufactured from a plain carbon steel; (c) the pins are manufactured from a carburized steel; and (d) the rolling elements are manufactured from a carburized bearing steel.