Risk analysis methodology applied to industrial machine development

IEEE Transactions on Industry Applications

Volumn 41, Issue 1, 2005, Pages 180-187

  Anderson, William E ^a  

^a PROCTER AND GAMBLE COMPANY   (United States)

Author keywords

Equipment design; Hazard identification; Industrial machinery; Iterative process methodology; Life phase; Risk analysis; Risk evaluation matrix

Indexed keywords

ELECTRIC MACHINERY; ITERATIVE METHODS; PROBABILITY DENSITY FUNCTION; PROBABILITY DISTRIBUTIONS;

EQUIPMENT DESIGN; HAZARD IDENTIFICATION; INDUSTRIAL MACHINERY; ITERATIVE PROCESS METHODOLOGY; LIFE PHASE; RISK ANALYSIS; RISK EVALUATION MATRIX;

RISK ASSESSMENT;

EID: 13844275848     PISSN: 00939994     EISSN: None     Source Type: Journal    
DOI: 10.1109/TIA.2004.841006     Document Type: Article

References (19)

1. Safety Aspects - Guidelines for Their Inclusion in Standards, ISO/ IEC Guide 51, Definition 3.1, 1999.
2. Webster's New Collegiate Dictionary, 8th ed. Springfield, MA: G&C Merriam, 1981.
3. Functional Safety of Electrical/Electronic/Programmable Electronic Safety - Related systems - Part 5: Examples of Methods for the Determination of Safety Integrity Levels, IEC 61508-5, 1998.
4. Safety of Machinery - Safety - Related Parts of Control Systems - Part 1: General Principles for Design, ISO 13849-1, 1999.
5. Safety of Machinery - Safety Related Parts of Control Systems - Part 100: Guidelines for the Use and Application of ISO 13849-1. ISO/TR 13849-100, 2000.
6. Safety of Machinery - Electrotechnical Aspects - Functional Safety Of Electrical, Electronic and Programmable Controls Systems, IEC 62061. expected publication of new standard 2005.
7. American National Standard for Personnel Protection - Lockout/Tagout of Energy Sources - Minimum Safety Requirements, ANSI Z244.1, 1982 (reaffirmed 1998, new edition due out 2004).
8. Recommended Practice for Electrical Equipment Maintenance, NFPA 70B, 20O2.
9. Standard for Electrical Safety Requirements for Employee Workplaces NFPA 70E, 2004.
10. Safety of Machinery - Basic Concepts, General Principles for Design Part 1: Basic Terminology, Methodology, Fig. 1 - Risk Reduction Process From the Point of View of the Designer, Fig. 2 - Schematic Representation of the Iterative 3-Step Method for the Risk Reduction Process, ISO 12100-1:2003(E).
11. National Electrical Code, NFPA 70, National Fire Protection Assoc., Quincy, MA, 2005.
12. Electrical Standards for Industrial Machinery, NFPA 79, 2002.
13. Safety of Machinery - Electrical Equipment of Machines - Part 1: General Requirements, IEC 60204-1, 1997.
14. E. M. Marszal and E. W. Scharpf, Safety Integrity Level Selection Systematic Methods Including Layer of Protection Analysis. Research Triangle Park, NC: Instrumentation Systems and Automation Soc., 2002, ch. 3.
15. B. W. Main. Risk Assessment Basics and Benchmarks. Ann Arbor, MI: Desin Safety Engineering, 2004, ch. 4.
16. Technical Report for Machine Tools - Risk Assessment and Risk Reduction - A Guide to Estimate, Evaluate and Reduce Risks Associated with Machine Tools, Fig. 1 - Risk Assessment and Risk Reduction Process, Annex A, ANSI B11.TR 3-2000.
17. Safety of Machinery - Principles of Risk Assessment, Fig. 1 - The Iterative Process to Achieve Safety, ISO 14121:1999(E).
18. Safety of Machinery - Principles of Risk Assessment, Annex A "Examples of Hazards, Hazardous Situations and Hazardous Events, ISO 14121:1999(E).
19. Safety of Machinery - Basic Concepts, General Principles for Design - Part 1: Basic Terminology, Methodology - Section 4 - Hazards to be Taken Into Account When Designing Machinery, ISO 12100-1:2003.