0 Members and 1 Guest are viewing this topic.
22.—Molecular Constitution of Wrought-Iron^ and the Law of Direction of itsCrystals or Fibre.193. When wrought-iron in any ofthe usual forms of its manufacture is fractured,its molecular structure presents itself, more or less distinctly pronounced,in one or other of three forms :—1°. Its mass consists ofminute crystals ofnearly uniform size, whose facetspresent themselves at all possible angles, like that of refinedsugar.This " saccharoid" structure usually belongs to the most highlyrefined iron, and often to hard steely irons, such as those of Sweden.The larger bars of Low Moor iron present, perhaps, the finestexamples of this structure.2°. The surface of fracture consists of large, sometimes very large, lamellarspangles or plates, the facets of crystalline cleavage, whosedirections tend to general coincidence with the surface of fracture.The number, size, and direction of these facets vary in thesame mass with the direction of fracture. This is the structureof all large and heavy forgings, or very large rolled bars, in whichthe planes of crystallization tend towards a general perpendicularityto the surfaces of external contour. This and the formerstructure are often found irregularly united in the same surfaceof fracture in ill-manufactured iron, and, united with the succeeding,it is the usual one presented by small common bar-iron.3°. The fracture (hard to produce, owing to the greater flexibility of theiron than in either of the preceding cases) when effected, presentslong, parallel fibre, or bacillary crystals, running in thedirection of the longest dimension of the bar. This is the structureof the best and toughest iron, such as that for making chains andrivets, good boiler-plates, &c. It is found partially combinedwith the 1st and 2nd in some inferior irons.194. We found in cast-iron that the law of arrangement of its crystals is to
Interesting read, Thanks for posting. I see why Krupp steel was much sought after. Page n109, table VII.
