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Application of additive manufacturing and tissue engineering in the
fields of science and technology enables the manufacturing of
biocompatible, customized, reliable, and cost-effective parts,
restoring the functionality of a failed human body part. This book
offers a platform for recent breakthroughs in additive
manufacturing related to biomedical applications. This book
highlights some of the top innovations and advances in additive
manufacturing and processing technologies that are the future of
the manufacturing industry while also presenting current challenges
and opportunities regarding the choice of material. This book
includes areas of applications such as surgical guides, tissue
regeneration, artificial scaffolds, implants, and drug delivery and
release. Throughout the book, an emphasis is placed on rapid
tooling for engineering applications. Additive Manufacturing of
Polymers for Tissue Engineering: Fundamentals, Applications, and
Future Advancements acts as a first-hand source of information for
academic scholars and commercial manufacturers as they make
strategic manufacturing and development plans.
This book covers innovative breakthroughs in additive manufacturing
processes used for biomedical engineering. More and more, 3D
printing is selected over traditional manufacturing processes,
especially for complex designs, because of the many advantages such
as fewer restrictions, better production cost savings, higher
quality control, and accuracy. Current challenges and opportunities
regarding material, design, cost savings, and efficiency are
covered along with an outline of the most recent fabrication
methods used for converting biomaterials into integrated structures
that can fit best in anatomy while still obtaining the necessary
architecture, mechanical reliability, biocompatibility, and
anti-bacterial characteristics needed. Additional chapters will
also focus on selected areas of applications such as bionics,
affordable prostheses, implants, medical devices, rapid tooling,
and drug delivery. Additive Manufacturing Processes in Biomedical
Engineering: Advanced Fabrication Methods and Rapid Tooling
Techniques acts as a first-hand reference for commercial
manufacturing organizations which are mimicking tissue organs by
using additive manufacturing techniques. By capturing the current
trends of today's manufacturing practices this book becomes a
one-stop resource for manufacturing professionals, engineers in
related disciplines, and academic researchers.
Get started with C# and strengthen your knowledge of core
programming concepts such as procedural, object-oriented, generic,
functional, and asynchronous programming along with the latest
features of C# 8 Key Features Learn the fundamentals of C# with the
help of easy-to-follow examples and explanations Leverage the
latest features of C# 8, including nullable reference types,
pattern matching enhancements, and asynchronous streams Explore
object-oriented programming, functional programming, and
multithreading concepts Book DescriptionThe C# programming language
is often developers' primary choice for creating a wide range of
applications for desktop, cloud, and mobile. In nearly two decades
of its existence, C# has evolved from a general-purpose,
object-oriented language to a multi-paradigm language with
impressive features. This book will take you through C# from the
ground up in a step-by-step manner. You'll start with the building
blocks of C#, which include basic data types, variables, strings,
arrays, operators, control statements, and loops. Once comfortable
with the basics, you'll then progress to learning object-oriented
programming concepts such as classes and structures, objects,
interfaces, and abstraction. Generics, functional programming,
dynamic, and asynchronous programming are covered in detail. This
book also takes you through regular expressions, reflection, memory
management, pattern matching, exceptions, and many other advanced
topics. As you advance, you'll explore the .NET Core 3 framework
and learn how to use the dotnet command-line interface (CLI),
consume NuGet packages, develop for Linux, and migrate apps built
with .NET Framework. Finally, you'll understand how to run unit
tests with the Microsoft unit testing frameworks available in
Visual Studio. By the end of this book, you'll be well-versed with
the essentials of the C# language and be ready to start creating
apps with it. What you will learn Get to grips with all the new
features of C# 8 Discover how to use attributes and reflection to
build extendable applications Utilize LINQ to uniformly query
various sources of data Use files and streams and serialize data to
JSON and XML Write asynchronous code with the async-await pattern
Employ .NET Core tools to create, compile, and publish your
applications Create unit tests with Visual Studio and the Microsoft
unit testing frameworks Who this book is forIf you have little
experience in coding or C# and want to learn the essentials of C#
programming to develop powerful programming techniques, this book
is for you. It will also help aspiring programmers to write scripts
or programs to accomplish specific tasks.
The objective of this book is to develop a model and an algorithm
to design a multiple effect evaporator(MEE) system with vapor
compression and without vapor compression. To achieve the target a
model based on nonlinear equations is developed to design the
Septuple effect falling film evaporator (SEFFE)system to
concentrate black liquor from paper industry. For the designed
system, the live steam requirement is evaluated without any vapor
compression as well as with vapor compression
Cross-correlation and related techniques have dominated the Image
processing field since the early fifties. Conventional template
matching algorithm based on cross-correlation requires complex
calculation and large time for object detection, which makes
difficult to use them in real time applications. The shortcomings
of this class of image matching methods have caused a slow-down in
the development of operational automated correlation systems. In
the proposed book particle swarm optimization & its variants
based algorithm is used for detection of object in image.
Implementation of this algorithm reduces the time required for
object detection than conventional template matching algorithm.
Algorithm can detect object in less number of iteration & hence
less time & energy than the complexity of conventional template
matching. This feature makes the method capable for real time
implementation.
Wheat, an important crop and widely grown all over the world is
affected by terminal heat at grain filling stage. Heat stress
affects the crop at grain filling when sowing of wheat is delayed
due to delay in harvest of highly remunerative preceding crops.
Fast wind flow and increasing temperature causes poor grain filling
by affecting the wheat physiological mechanisms affecting yield.
The objectives of this investigation were to study the heat
susceptibility index, correlation and the nature and magnitude of
gene effects governing the yield and its components in both timely
sown and late sown experiments. Breeding for Terminal Heat
Tolerance is difficult owing to its complex quantitative nature.
Increasing global temperature made it necessary to search for
tolerant genotypes and understand the underlying nature of genes to
breed effectively.
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