NEW HORIZONS IN PILING. Development and Application of Press-in Piling

NEW HORIZONS IN PILING. Development and Application of Press-in Piling Ver más grande

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Referencia: Código 10111


Agosto de 2022  -  Malcolm D. Bolton..  -  Refª 10111


Malcolm D. Bolton, Akio Kitamura, Osamu Kusakabe, Masaaki Terashi

Agosto de 2022        Páginas: 170    Edición en tapa blanda

Código 10111      ISBN/EAN:9780367546564

Book Description

The piling industry has, in recent years, developed a variety of press-in piling technologies with a view to mitigate noise & vibration nuisance. This book focuses on the "Walk-on-Pile" type press-in piling system, which offers an alternative engineering solution for piling works. This type of piling has unique features, including the application of the compact piling machine using pre-installed piles as a source of reaction force to jack in a new pile by hydraulic pressure. Moreover, the machine can walk along the top of piles already installed, thus enabling piling in a limited space and headroom with minimum disruption to social functions and services of existing infrastructure. These features are opening up a new horizon in piling, leading to novel application of embedded walls previously considered impossible.

This introductory book provides a historical development of press-in piling and various challenging applications worldwide as well as scientific research outcomes, forming a valuable source of reference for readers who are unfamiliar with press-in piling, including project owners, design engineers, practical engineers as well as researchers and students.

Table of Contents

1 Introduction
1.1 Embedded structures
1.2 Steel as a construction material
1.3 Design and construction requirements

2 Construction by press-in piling
2.1 Classification of press-in piling methods
2.2 Invention and development of Silent Piler
2.3 Construction procedures and quality control

3 Innovative applications
3.1 Introduction
3.2 Urban redevelopment and renovation

3.3 Surface transportation: Road and Railway
3.4 Inland water

4 Emerging applications
4.1 Introduction
4.2 Maritime transport infrastructure
4.3 Coastal protection in earthquake-prone areas
4.4 Beach protection
4.5 Seismic reinforcement of various infrastructures by sheet pile wall enclosure
4.6 Bike commute infrastructure – underground automated bicycle stands
4.7 Other interesting applications

5 Responses of piles installed by the press-in piling
5.1 Introduction
5.2 Ground vibration and noise during pile installation
5.3 Ground responses and pile resistance during pile installation
5.4 Performance of a single pile installed in press-in piling

Appendix: List of related publications



Malcolm Bolton graduated in Engineering from Cambridge University in 1967 and subsequently took an MSc by research in structural engineering from Manchester University and a PhD in soil mechanics from Cambridge University. His career in geotechnical engineering started in Manchester (at UMIST) in 1969 where he helped Andrew Schofield to develop the UK’s first geotechnical centrifuge. He became a Lecturer in 1970 and stayed a further 10 years at UMIST, publishing his book “A guide to Soil Mechanics” in 1979. He returned to Cambridge in 1980, ultimately becoming Professor of Soil Mechanics, Director of the Schofield Centre for Geotechnical Process and Construction Modelling, and Head of the Geotechnical and Environmental Group in the Department of Engineering. In accordance with University Statutes he retired in 2013. He is the author of over 240 publications covering the fundamental mechanics of granular materials and a wide variety of civil engineering applications from tunnels through foundations, and from earthquake effects to landslide hazard reduction.

Akio Kitamura started his business in the construction industry in 1967 dealing with piling contracts for foundation works using construction machinery such as the vibratory hammer. Experience of unexpected adverse impact of his own business on the environment, he decided to devote himself to inventing and developing pollution-free piling machines. In 1975, he invented a press-in piling machine, the "Silent Piler", which installs a pile into the ground by hydraulic jacks while gaining reaction force by gripping the previously installed piles. He continued efforts to reduce the size and weight of the piling machine, and in a few years he added "Self-walking function" to the piler. The self-walking means that a crane is no longer required for relocating and positioning the machine to install the next pile. These “Grip” and “Self -Walking” functions have further extended to the idea of the so-called "non-staging system", where all the necessary piling work procedures, including pile transportation, pile pitching and press-in operations can be carried out on the top of the aligned installed piles. The first application of the non-staging system was used in 1986, only 10 years after his initial invention of the Silent Piler. Mr. Kitamura has received various awards and Prizes including The Order of the Rising Sun, Gold Rays with Rosette. Most recently he was awarded the Ben C. Gerwick Award from the US Deep Foundations Institute.

Osamu Kusakabe graduated in 1973 from the Tokyo University of Agriculture and Technology, he obtained a Master of Engineering from the Tokyo Institute of Technology in 1975. He became a Research Associate of the Tokyo Institute of Technology in 1975. He then went to UK and obtained a Master of Philosophy and a Doctor of Philosophy both from Cambridge University in 1980 and 1982, respectively. After he returned to Japan, he became an Associate Professor of Utsunomiya University in 1984, and a Professor of Hiroshima University in 1991. He returned to the Tokyo Institute of Technology as a Professor in 1996. During these years, he also served as an Overseas Fellow of Churchill College at Cambridge University in 1990, a Distinguished Visiting Professor at National University of Singapore in 1998 and a Visiting Scientist at Delft University of Technology in 2004.  Throughout his academic career, he continuously engaged in research on geotechnical centrifuge modeling, bearing capacity of foundation and design of geotechnical structures, publishing more than 150 papers. He launched the International Journal of Physical Modelling in Geotechnics in 2001 (presently included in ICE Virtual Library) and served as the Founding Editor-in-Chief of the Journal for ten years. He has played an important role at various organizations including the Founding Secretary General of the Asian Civil Engineering Coordinating Council (1999 – 2001) , the President of the Japanese Geotechnical Society (2010-2012), the Vice president of the Japan Society of Civil Engineers (2008- 2010), the President of Japan Section of American Society of Civil Engineers (2009 -2011), a Board member of the International Society for Soil Mechanics and Geotechnical Engineering (2005-2009), an Associate member of the Science Council of Japan (2005-2013). He was also involved in various committees including a member of the International Advisory Board for the Singapore Land Transport Authority, and a member of the technical committee on Honshu-Shikoku Bridges. Osamu Kusakabe served as the Chair of the Executive Committee of the Asian Civil Engineering Coordinating Council (2017-2019). He is currently the President of the International Press-in Association since 2016. In April 2011, he became the Emeritus Professor of the Tokyo Institute of Technology and of the National Institute of Technology, Ibaraki College in June 2016, where he was the 9th President (2011-2015). He is currently the Specially Appointed Professor of the University of Tsukuba and Nagaoka University of Technology since 2016. He was awarded the Best Research Paper Award (1992), International Lifetime Contribution Award (2004) and Distinguished Service Award (2019) from the Japan Society of Civil Engineers, Distinguished Service Award (1999) from the Japanese Geotechnical Society. He is presently an Honorary Member of the Japan Society of Civil Engineers, of the Japanese Geotechnical Society, and of the Mongolian Association of Civil Engineers, a Fellow of the Japan Federation of Engineering Societies and a Fellow of the Japan Society of Civil Engineers.

Masaaki Terashi has led a career as a researcher, professor and consultant in geotechnical engineering. After the completion of post graduate course at Tokyo Tech, he started his career in 1970 as a researcher at the Port and Harbour Research Institute and was involved in the R&D of a variety of ground improvement technologies especially of deep mixing. He was awarded a special prize on the outstanding research contribution from the Science and Technology Agency in 1988. In 1992 he moved to a leading consulting firm in Japan and worked for real life projects covering wide range of infrastructures, domestic and overseas until the end of 2009. Around 10 years during those days, he taught students at Tokyo Tech as a visiting professor. He has been active in professional and academic societies. He delivered State of the Art, key note lectures and invited lectures at international conferences and symposia. He edited, authored and co-authored several books and book chapters and published more than two hundred conference and journal papers on various subjects associated with soft ground and ground improvement. Dr Terashi is a technical adviser of GIKEN LTD. since 2010.

Descripción del libro

En los últimos años, la industria de pilotaje ha desarrollado una variedad de tecnologías de pilotaje a presión con el fin de mitigar las molestias por ruido y vibraciones. Este libro se centra en el sistema de pilotaje a presión tipo "Walk-on-Pile", que ofrece una solución de ingeniería alternativa para los trabajos de pilotaje. Este tipo de pilotaje tiene características únicas, incluida la aplicación de la máquina de pilotaje compacta que utiliza pilotes preinstalados como fuente de fuerza de reacción para levantar un nuevo pilote mediante presión hidráulica. Además, la máquina puede caminar sobre pilotes ya instalados, lo que permite apilar en un espacio y altura limitados con una interrupción mínima de las funciones sociales y los servicios de la infraestructura existente. Estas características están abriendo un nuevo horizonte en el pilotaje, dando lugar a una aplicación novedosa de muros empotrados que antes se consideraban imposibles.

Este libro introductorio proporciona un desarrollo histórico de los pilotes a presión y varias aplicaciones desafiantes en todo el mundo, así como los resultados de la investigación científica, lo que constituye una valiosa fuente de referencia para los lectores que no están familiarizados con los pilotes a presión, incluidos los propietarios de proyectos, ingenieros de diseño, ingenieros prácticos. así como investigadores y estudiantes.

Tabla de contenido

1 Introducción
1.1 Estructuras empotradas
1.2 El acero como material de construcción
1.3 Requisitos de diseño y construcción

2 Construcción mediante pilotaje
a presión 2.1 Clasificación de los métodos de pilotaje a presión
2.2 Invención y desarrollo de Silent Piler
2.3 Procedimientos de construcción y control de calidad

3 Aplicaciones innovadoras
3.1 Introducción
3.2 Reurbanización y renovación urbana
3.3 Transporte de superficie: carretera y ferrocarril
3.4 Aguas interiores

4 Aplicaciones emergentes
4.1 Introducción
4.2 Infraestructura de transporte marítimo
4.3 Protección costera en áreas propensas a terremotos
4.4 Protección de playas
4.5 Refuerzo sísmico de diversas infraestructuras mediante cerramiento de muros de tablestacas
4.6 Infraestructura de transporte de bicicletas: aparcabicicletas subterráneos automatizados
4.7 Otras aplicaciones interesantes

5 Respuestas de los pilotes instalados mediante pilotes a presión
5.1 Introducción
5.2 Vibración y ruido del suelo durante la instalación de pilotes
5.3 Respuestas del suelo y resistencia de los pilotes durante la instalación de pilotes
5.4 Desempeño de un solo pilote instalado en pilotes a presión

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