TYPES OF STEEL CABLES FOR STRUCTURAL USE BASICS AND TUTORIALS

TYPES OF STEEL CABLES FOR STRUCTURAL USE BASIC INFORMATION

What Are The Types Of Steel Cables Used In Structural Engineering?

Steel cables have been used for many years in bridge construction and are occasionally used in building construction for the support of roofs and floors. The types of cables used for these applications are referred to as bridge strand or bridge rope. 

In this use, bridge is a generic term that denotes a specific type of high-quality strand or rope.

A strand is an arrangement of wires laid helically about a center wire to produce a symmetrical section. 

A rope is a group of strands laid helically around a core composed of either a strand or another wire rope. 

The term cable is often used indiscriminately in referring to wires, strands, or ropes. Strand may be specified under ASTM A586; wire rope, under A603.

During manufacture, the individual wires in bridge strand and rope are generally galvanized to provide resistance to corrosion. 

Also, the finished cable is prestretched. In this process, the strand or rope is subjected to a predetermined load of not more than 55% of the breaking strength for a sufficient length of time to remove the ‘‘structural stretch’’ caused primarily by radial and axial adjustment of the wires or strands to the load. 

Thus, under normal design loadings, the elongation that occurs is essentially elastic and may be calculated from the elastic-modulus values given in Table 1.8.

Strands and ropes are manufactured from cold-drawn wire and do not have a definite yield point. Therefore, a working load or design load is determined by dividing the specified minimum breaking strength for a specific size by a suitable safety factor. 

The breaking strengths for selected sizes of bridge strand and rope are listed in Table 1.8.

GEOTECHNICAL EARTHQUAKE ENGINEERING FREE EBOOK DOWNLOAD LINK

GEOTECHNICAL EARTHQUAKE ENGINEERING FREE EBOOK DOWNLOAD
Free E-Book Download Link of the Book: Geotechnical Earthquake Engineering

This is the first book on the market focusing specifically on the topic of geotechnical earthquake engineering. The book draws from the fields of seismology and structural engineering to present a broad, interdiciplinary view of the fundamental concepts in seismology, geotechnical engineering, and structural engineering.


This is the first book on the market focusing specifically on the topic of geotechnical earthquake engineering. The book draws from the fields of seismology and structural engineering to present a broad, interdiciplinary view of the fundamental concepts in seismology, geotechnical engineering, and structural engineering.

One of the few books on geotechnical earthquake engineering. Treatment is extensive though it does not dwell in the specialist details for most topics. The chapter on "Ground response analysis" is excellent. I recently learnt of this professional software, "ProSHKAE" using the theory of this chapter to formulate its algorithm. I relied upon this book for a large part of my undergraduate research.

Yes, this is an excellent overall introduction to the geotechnical aspects of earthquake engineering. We use it regularly in practice. The sections on seismic hazard analysis and seismic slope stability are particularly strong.


Topics in geotechnical earthquake engineering is one of the  most active fields and always in rapid changing. Only with several years off, the book by Professor Kramer is going to  be out-of-dated. Yet it is the BEST book available so far on this topic.

I found the information in this book is useful for learning and understanding, yet for the most excellent descriptions, we have to refer directly to the scattered publications of  Berkeley School (i.e. Prof. H.Seed, R. Seed and J. Bray et al).

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