Sachs, P.E., Neville W
Practical Plant Failure Analysis
A Guide to Understanding Machinery Deterioration and Improving Equipment Reliability, Second Edition
Sachs, P.E., Neville W
Practical Plant Failure Analysis
A Guide to Understanding Machinery Deterioration and Improving Equipment Reliability, Second Edition
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This book is designed for engineering and skilled trades personnel involved in improving machinery maintenance and reliability. It explains the four major failure mechanisms and how to identify them. Knowing the physical failure mechanics involved, the reader can then solve the physical and human causes.
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This book is designed for engineering and skilled trades personnel involved in improving machinery maintenance and reliability. It explains the four major failure mechanisms and how to identify them. Knowing the physical failure mechanics involved, the reader can then solve the physical and human causes.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- 2 ed
- Seitenzahl: 402
- Erscheinungstermin: 30. September 2021
- Englisch
- Abmessung: 234mm x 156mm x 22mm
- Gewicht: 616g
- ISBN-13: 9781032176857
- ISBN-10: 1032176857
- Artikelnr.: 62575108
- Verlag: Taylor & Francis Ltd
- 2 ed
- Seitenzahl: 402
- Erscheinungstermin: 30. September 2021
- Englisch
- Abmessung: 234mm x 156mm x 22mm
- Gewicht: 616g
- ISBN-13: 9781032176857
- ISBN-10: 1032176857
- Artikelnr.: 62575108
A native of Northern New Jersey, Mr. Neville W. Sachs attended Stevens Institute of Technology in Hoboken, NJ where he received a Bachelor of Engineering degree, majoring in Mechanical and Chemical Engineering. After a variety of manufacturing, engineering, and supervisory positions, he joined Allied Chemical (now Honeywell International). From then until the Syracuse Works closed, he was heavily involved with plant reliability as an engineer and Reliability Engineering Department supervisor. While there, he was instrumental in developing one of the first large predictive maintenance inspection programs in the nation, served on a number of corporate technical committees, and received a patent for a device that demonstrates several of the mechanisms of fastener failures. In early 1986, Mr. Sachs, a licensed Professional Engineer, joined with Philip Salvaterra to form Sachs, Salvaterra & Associates, Inc., (SS&A) a consulting "Reliability Engineering Department for Hire". After 25 years serving as the president of SS&A, the company was absorbed by Applied Technical Services of Marietta, GA and, in 2014 he returned to private practice. Mr. Sachs has conducted thousands of failure analyses and taught hundreds of failure analysis seminars across North America and Europe. He is a past chairman of the Syracuse Chapter of the ASM, and is an active member of the National Association of Corrosion Engineers, the American Society of Mechanical Engineers, National Society of Professional Engineers, and the Society of Tribologists and Lubrication Engineers (STLE). In addition to being certified in several areas of nondestructive testing, his formal certifications include STLE's "Certified Lubrication Specialist". He is a frequent speaker for programs across North America, has written three textbooks Practical Plant Failure Analysis - a Guide to Understanding Machinery Deterioration and Improving Equipment Reliability, Failure Analysis of Gears and Bearings made Simple, and Failure Analysis of Shafts and Fasteners made Simple. He has also contributed significant sections to three other books concerning mechanical reliability and failure analysis, and has written over seventy technical articles and papers for US and European magazines and journals, primarily on failure analysis and equipment reliability. Among his honors are the RMLA's "Outstanding Contribution to the Industry" award presented in 2019. He and his wife, Carol Adamec, a noted sculptor, hike, bike, kayak, ski and try to keep up with 10 grandchildren. He also enjoys being an NSP Ski Patroller and playing with old cars.
1. An Introduction to Failure Analysis. 2. Some General Considerations on
Failure Analysis. 3. Materials and the Sources of Stresses. 4. Overload
Failures. 5. Fatigue Failures (Part 1): The Basics. 6. Fatigue ( Part 2):
Torsional, Low, and Very Low Cycle Failure Influences, and Some Fatigue
Interpretations. 7. Understanding and Recognizing Corrosion. 8. Lubrication
and Wear. 9. Belt Drives. 10. Ball and Roller Bearings. 11. Gears. 12.
Fasteners and Bolted Joint Failures. 13. Miscellaneous Machine Component
Failures-Chains, Lip Seals, Couplings, Universal Joints, and Plain
Bearings.
Failure Analysis. 3. Materials and the Sources of Stresses. 4. Overload
Failures. 5. Fatigue Failures (Part 1): The Basics. 6. Fatigue ( Part 2):
Torsional, Low, and Very Low Cycle Failure Influences, and Some Fatigue
Interpretations. 7. Understanding and Recognizing Corrosion. 8. Lubrication
and Wear. 9. Belt Drives. 10. Ball and Roller Bearings. 11. Gears. 12.
Fasteners and Bolted Joint Failures. 13. Miscellaneous Machine Component
Failures-Chains, Lip Seals, Couplings, Universal Joints, and Plain
Bearings.
1. An Introduction to Failure Analysis. 2. Some General Considerations on
Failure Analysis. 3. Materials and the Sources of Stresses. 4. Overload
Failures. 5. Fatigue Failures (Part 1): The Basics. 6. Fatigue ( Part 2):
Torsional, Low, and Very Low Cycle Failure Influences, and Some Fatigue
Interpretations. 7. Understanding and Recognizing Corrosion. 8. Lubrication
and Wear. 9. Belt Drives. 10. Ball and Roller Bearings. 11. Gears. 12.
Fasteners and Bolted Joint Failures. 13. Miscellaneous Machine Component
Failures-Chains, Lip Seals, Couplings, Universal Joints, and Plain
Bearings.
Failure Analysis. 3. Materials and the Sources of Stresses. 4. Overload
Failures. 5. Fatigue Failures (Part 1): The Basics. 6. Fatigue ( Part 2):
Torsional, Low, and Very Low Cycle Failure Influences, and Some Fatigue
Interpretations. 7. Understanding and Recognizing Corrosion. 8. Lubrication
and Wear. 9. Belt Drives. 10. Ball and Roller Bearings. 11. Gears. 12.
Fasteners and Bolted Joint Failures. 13. Miscellaneous Machine Component
Failures-Chains, Lip Seals, Couplings, Universal Joints, and Plain
Bearings.