Non-destructive Testing And Repair Of Pipelines (engineering Materials)
by Ivan A. Parinov /
2017 / English / EPUB
13 MB Download
This book describes efficient and safe repair operations for
pipelines, and develops new methods for the detection and repair
of volumetric surface defects in transmission pipelines. It also
addresses the physics, mechanics, and applications of advanced
materials used for composite repair of corroded pipelines.
This book describes efficient and safe repair operations for
pipelines, and develops new methods for the detection and repair
of volumetric surface defects in transmission pipelines. It also
addresses the physics, mechanics, and applications of advanced
materials used for composite repair of corroded pipelines.
Presenting results obtained in the European Commission’s
INNOPIPES FRAMEWORK 7 programme, it develops long-range
ultrasonic and phased array technologies for pipeline
diagnostics, and explores their interactions with discontinuities
and directional properties of ultrasonic antenna array. The book
subsequently shares the results of non-destructive testing for
different types of materials applications and advanced composite
repair systems, and characterizes the mechanical properties by
means of fracture methods and non-destructive techniques.
Presenting results obtained in the European Commission’s
INNOPIPES FRAMEWORK 7 programme, it develops long-range
ultrasonic and phased array technologies for pipeline
diagnostics, and explores their interactions with discontinuities
and directional properties of ultrasonic antenna array. The book
subsequently shares the results of non-destructive testing for
different types of materials applications and advanced composite
repair systems, and characterizes the mechanical properties by
means of fracture methods and non-destructive techniques.
In turn, the book assesses the currently available technologies
for reinforcement of pipelines, drawing on the experience gained
by project partners, and evaluates the recovery of the carrying
capacity of pipeline sections with local corrosion damage by
means of analytical and numerical procedures. It develops an
optimization method based on the planning of experiments and
surface techniques for advanced composite repair systems, before
validating the numerical models developed and experimentally
gauging the effectiveness of composite repair with the help of
full-scale hydraulic tests.
In turn, the book assesses the currently available technologies
for reinforcement of pipelines, drawing on the experience gained
by project partners, and evaluates the recovery of the carrying
capacity of pipeline sections with local corrosion damage by
means of analytical and numerical procedures. It develops an
optimization method based on the planning of experiments and
surface techniques for advanced composite repair systems, before
validating the numerical models developed and experimentally
gauging the effectiveness of composite repair with the help of
full-scale hydraulic tests.