Author : Michigan. State Highway Department
Publisher :
Page : 356 pages
File Size : 34,81 MB
Release : 1965
Category : Piling (Civil engineering)
ISBN :
Author :
Publisher :
Page : 176 pages
File Size : 43,99 MB
Release : 1967
Category : Transportation, Automotive
ISBN :
Author :
Publisher :
Page : 178 pages
File Size : 42,32 MB
Release : 1967
Category : Highway research
ISBN :
Author : W. Allen Marr
Publisher : ASCE Publications
Page : 2392 pages
File Size : 47,6 MB
Release : 2003-01-01
Category : Technology & Engineering
ISBN : 9780784475263
Sponsored by the Geo-Institute of ASCE This collection of 78 historical papers provides a wide view of the rich body of literature that documents the development of fundamental concepts geotechnical engineering and their application to practical problems. From the highly theoretical to the elegantly practical, the papers in this one-of-a-kind collection are significant for their contributions to the geotechnical engineering literature. Among the writings of more than 60 geotechnical engineering pioneers are several by Karl Terzaghi, widely known as the father of soil mechanics, R.R. Proctor, Arthur Casagrande, and Ralph Peck. Many of these papers contain information as useful today as when they were first written. Others provide great insight into the origins and development of the field and the thought processes of its leaders.
Author : Michigan. State Highway Department
Publisher :
Page : 110 pages
File Size : 40,39 MB
Release : 1965
Category : Piling (Civil engineering)
ISBN :
Author : Stephen Gailord Wright
Publisher :
Page : 648 pages
File Size : 25,72 MB
Release : 1983
Category : Technology & Engineering
ISBN :
Author : Shamsher Prakash
Publisher : John Wiley & Sons
Page : 768 pages
File Size : 40,2 MB
Release : 1991-01-16
Category : Technology & Engineering
ISBN : 9780471616535
This is a concise, systematic and complete treatment of the design and construction of pile foundations. Discusses pile behavior under various loadings and types of piles and their installation, including consideration of soil parameters. It provides step-by-step design procedures for piles subject to vertical loading and pullout, lateral, inclined and eccentric loads, or dynamic loads, and for piles in permafrost. Also describes load test procedures and their interpretation and buckling of long, slender piles with and without supported length. The closing chapter presents case histories of prediction and performance of piles and pile groups. Includes numerous solved problems.
Author : D.L. Shah
Publisher : CRC Press
Page : 552 pages
File Size : 18,50 MB
Release : 2003-01-01
Category : Technology & Engineering
ISBN : 9789058092359
Dealing with the fundamentals and general principles of soil mechanics and geotechnical engineering, this text also examines the design methodology of shallow / deep foundations, including machine foundations. In addition to this, the volume explores earthen embankments and retaining structures, including an investigation into ground improvement techniques, such as geotextiles, reinforced earth, and more
Author : Lee Leon Lowery
Publisher :
Page : 92 pages
File Size : 20,83 MB
Release : 1967
Category : Pile drivers
ISBN :
Author : Rodrigo Salgado
Publisher :
Page : pages
File Size : 32,5 MB
Release : 2018-02
Category :
ISBN : 9781622604791
Driven piles are commonly used in foundation engineering. The most accurate measurement of pile capacity is achieved from measurements made during static load tests. Static load tests, however, may be too expensive for certain projects. In these cases, indirect estimates of the pile capacity can be made through dynamic measurements. These estimates can be performed either through pile driving formulae or through analytical methods, such as the Case method.Pile driving formulae, which relate the pile set per blow to the capacity of the pile, are frequently used to determine whether the pile has achieved its design capacity. However, existing formulae have numerous shortcomings. These formulae are based on empirical observations and lack scientific validation. This report details the development of more accurate and reliable pile driving formulae developed from advanced one-dimensional FE simulations. These formulae are derived for piles installed in five typical soil profiles: a floating pile in sand, an end¿bearing pile in sand, a floating pile in clay, an end¿bearing pile in clay and a pile crossing a normally consolidated clay layer and resting on a dense sand layer. The proposed driving formulae are validated through well-documented case histories of full-scale instrumented driven piles. The proposed formulae are more accurate and reliable on average than other existing methods for the case histories considered in this study.This report also discusses the development of a pile driving control system, a fully integrated system developed by Purdue that can be used to collect, process, and analyze data to estimate the capacities of piles using the Case method and the pile driving formulae developed at Purdue.
