Design For Safety

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RUR 11560.27

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A one-stop reference guide to design for safety principles and applications Design for Safety (DfSa) provides design engineers and engineering managers with a range of tools and techniques for incorporating safety into the design process for complex systems

Design Safety is already a high demand field due to its importance to system design and will be even more vital for engineers in multiple design disciplines as more systems become increasingly complex and liabilities increase

Design for Reliability was the first in the series with more planned for the future.

Design for Safety is the second in a series of Design for books

Design for Safety Covers trending topics and the latest technologies Provides ten paradigms for managing and designing systems for safety and uses them as guiding themes throughout the book Logically defines the parameters and concepts, sets the safety program and requirements, covers basic methodologies, investigates lessons from history, and addresses specialty topics within the topic of Design for Safety DfSa Supplements other books in the series on Quality and Reliability Engineering Design for Safety is an ideal book for new and experienced engineers and managers who are involved with design, testing, and maintenance of safety critical applications

Designing systems for safety has been a high priority for many safety-critical systems especially in the aerospace and military industries

However, with the expansion of technological innovations into other market places, industries that had not previously considered safety design requirements are now using the technology in applications

It explains how to design for maximum safe conditions and minimum risk of accidents

It is also helpful for advanced undergraduate and postgraduate students in engineering

Readers who apply DfSa principles can expect to have a dramatic improvement in the ability to compete in global markets

The book covers safety design practices, which will result in improved safety, fewer accidents, and substantial savings in life cycle costs for producers and users

Therefore, risk mitigation methods to design systems with safety features are becoming more important

They will also find a wealth of design practices not covered in typical engineering books allowing them to think outside the box when developing safety requirements

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