XIV.—Apparatus for Measuring Strain and Applying Stress, with an Account of some Experiments on the Behaviour of Iron and Steel under Stress

E. G. Coker
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Abstract

The behaviour of metals under stress has long been the subject of investigation, both by mathematicians and physicists, so that the laws of strength are tolerably complete. Owing to the importance of iron and steel in construction, these materials have been subjected to very extensive tests, particularly in simple tension and compression. Numerous tests of cylindrical iron and steel bars in torsion are also available, the bulk of these being tests to destruction of samples of material used in actual machines and structures designed by engineers. In such tests scientific accuracy is not of much importance, the chief consideration being the obtaining of sufficient data for use in design. The most accurate torsional work upon iron and steel has been the work of physicists, and nearly all their investigations have been conducted upon specimens of very small sectional area; the reasons for this, no doubt, being that such specimens in the form of wires are easily obtainable, and of great uniformity in size and quality, while large test pieces are costly to prepare, and, moreover, cause considerable difficulty in testing, because of the magnitude of the forces involved. Owing to the mode of manufacture, the physical properties of wire often differ to a considerable extent from turned specimens of iron and steel. These differences may be caused by the hardening effect of the drawing, minute cracks in the wires, want of roundness, and the like. It therefore appeared probable that experiments on the lines indicated by physicists would be of some service, and it was with this idea that the investigation was commenced.
十四。应变和施加应力的测量装置,并附关于钢铁在应力作用下行为的一些实验的说明
长期以来,数学家和物理学家一直在研究金属在压力下的行为,因此,强度定律是相当完整的。由于钢铁在建筑中的重要性,这些材料经受了非常广泛的试验,特别是简单的拉伸和压缩试验。还有许多圆柱形铁和钢筋的扭转试验,其中大部分是对工程师设计的实际机器和结构中使用的材料样品的破坏试验。在这种试验中,科学的准确性不是很重要,主要考虑的是获得足够的数据以供设计使用。物理学家对钢铁所做的最精确的扭转作用,他们几乎所有的研究都是在非常小的截面积的试样上进行的;毫无疑问,这样做的原因是,这种电线形式的样品很容易获得,并且在尺寸和质量上都很均匀,而大型测试件的准备成本很高,而且由于所涉及的力的大小,在测试中会造成相当大的困难。由于制造方式的不同,金属丝的物理性能往往与钢和铁的试样有很大的不同。这些差异可能是由于拉丝的硬化作用、线材的微小裂纹、圆度的不足等原因造成的。因此,在物理学家所指出的路线上进行实验似乎可能会有所帮助,正是带着这种想法,这项研究开始了。
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