Overview
80% of your maintenance costs are determined during design Four hours of downtime equals $4,200 in damage. The real cost? $18,000 over three years - because during design a cheaper motor was chosen that saved $3,000. Every $1,000 saved in design causes on average $47,000 in extra maintenance costs over the asset's lifetime. The problem: 80% of reliability problems originate during design and construction. This book shows you how to build reliability in from the very first design decision. Every phase treated systematically with concrete methodologies and calculation models. Complete methodology in 6 phases Phase 1: Understanding the problem - the 80/20 rule of reliability engineering, the 5-Why technique for root causes, the iceberg principle: real costs are 3-5 times higher than visible repair costs Phase 2: Specifications - stakeholder analysis, Early Equipment Management, and RAMS methodology (Reliability, Availability, Maintainability, Safety) to define quantitative objectives Phase 3: Criticality analysis - set priorities across five risk dimensions: safety, environment, delivery reliability, quality, and sustainability. Determine which assets deserve $50,000-$500,000 in engineering versus a $500 basic analysis. Result: $1.3 million in savings, 18% higher availability Phase 4: Design - FMEA: seven core questions identify all failure modes, RPN prioritizes improvements. Maintainability: five design principles (accessibility, visibility, standardization, modularity, diagnostics). RCM prevents both over- and under-maintenance Phase 5: Economic justification - Life Cycle Costing: pump B ($12,000) saves $85,000 versus pump A ($8,000) through lower energy and maintenance costs. NPV calculations and business cases that convince management Phase 6: Realization - commissioning, systematic supplier selection, and portfolio management creating $1.4 million in additional value Proven results 35% lower lifecycle costs through thorough analysis Up to 47:1 return on reliability investment $1.3 million savings through criticality analysis $50,000-$100,000 gain per asset through LCC 60-80% fewer commissioning problems Tools included FMEA worksheets, LCC calculators, criticality matrix, business case templates, supplier scorecard, and commissioning checklists. Who is this book for? Project managers, maintenance managers, asset managers, reliability engineers, technical directors, procurement professionals, and consultants responsible for new assets. Applicable across manufacturing, process industry, energy, utilities, transport, healthcare, and public sector organizations. Part of a larger whole This is the eighth volume of The Reliability Framework, a nine-book series covering technical asset management. Each book covers one subject systematically and in depth. About the author Martin Van den Hout has 35 years of experience in maintenance and reliability, including 24 years as a consultant. He has guided hundreds of projects across manufacturing, chemical, and process industries. He wrote a leading university-level textbook on maintenance management and delivers in-company training programs in FMEA, RCM, and LCC. Stop paying to fix in operations what went wrong during design.
Full Product Details
Author: Martin Van Den Hout
Publisher: Vulcanus Press
Imprint: Vulcanus Press
Volume: 8
Dimensions:
Width: 15.20cm
, Height: 1.00cm
, Length: 22.90cm
Weight: 0.245kg
ISBN: 9789083643199
ISBN 10: 9083643190
Pages: 176
Publication Date: 18 May 2026
Audience:
General/trade
,
General
Format: Paperback
Publisher's Status: Active
Availability: Available To Order
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