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AECTP-600 : 2007

Current

Current

The latest, up-to-date edition.

THE TEN STEP METHOD FOR EVALUATING THE ABILITY OF MATERIEL TO MEET EXTENDED LIFE REQUIREMENTS AND ROLE AND DEPLOYMENT CHANGES

Available format(s)

Hardcopy , PDF

Language(s)

English

Published date

04-18-2007

Publisher

NATO

Free

1 SCOPE
  1.1 Purpose
  1.2 Application
  1.3 Limitations
2 RELATED DOCUMENTS
3 INTRODUCTION TO THE METHOD
4 PROVISIONS AND BENEFITS
5 THE TEN STEPS
  5.1 Step 1: Research the original Life cycle Environmental
       Profile
  5.2 Step 2: Research life history and prepare LCEP
  5.3 Step 3: Prepare an LCEP for the extended life
  5.4 Step 4: Compare LCEPs
  5.5 Step 5: Evaluate adverse deltas to determine potentially
       critical cases
  5.6 Step 6: Determine the probable critical cases that
       require additional treatment
  5.7 Step 7: Formulate treatment options fro each probable
       critical case
  5.8 Step 8: Select options and compile work programme
  5.9 Step 9: Undertake the planned tasks
  5.10 Step 10: Evaluate results from the tasks and compile
       statement
6 CONCLUDING REMARKS
ANNEX A: A DEMONSTRATION OF THE TEN STEP METHOD
ANNEX B: RELATIONSHIP BETWEEN ENVIRONMENTAL CONDITIONS AND
         ENVIRONMENTAL DESCRIPTIONS FOR TYPICAL LCEP CONDITIONS
ANNEX C: BIBLIOGRAPHY
ANNEX D: GUIDANCE FOR THE ENGINEERING PRACTITIONER
         Leaflet 601 Reverse engineering
         Leaflet 602 Time compression
         Leaflet 603 Incremental acquisition
         Leaflet 604 Physics of failure
         Leaflet 605 Information requirements for LCEPs
                     (Steps 1 to 3)
         Leaflet 606 Probabilistic analyses
         Leaflet 607 Materiel role and deployment changes

Describes the process known as the Ten Step Method that has been developed to determine the ability of materiel to meet extended life requirements and role and deployment changes.

DocumentType
Standard
Pages
99
PublisherName
NATO
Status
Current
Supersedes

DEFSTAN 00-970(PT0)/17(2016) : 2016 DESIGN AND AIRWORTHINESS REQUIREMENTS FOR SERVICE AIRCRAFT - PART 0: PROCEDURES FOR USE, CONTENT AND DEFINITIONS
DEFSTAN 00-035(PT2)/5(2017) : 2017 ENVIRONMENTAL HANDBOOK FOR DEFENCE MATERIEL - PART 2: ENVIRONMENTAL TRIALS PROGRAMME DERIVATION AND ASSESSMENT METHODOLOGIES
AAP-48 : 2013 NATO SYSTEM LIFE CYCLE STAGES AND PROCESSES
STANAG 4497 : 2016 HAND-EMPLACED MUNITIONS (HEM), PRINCIPLES FOR SAFE DESIGN
AAS3P-1 : 2011 ALLIED AMMUNITION SAFETY AND SUITABILITY FOR SERVICE ASSESSMENT TESTING PUBLICATION - GUIDANCE
STANAG 4315 : 2006 THE SCIENTIFIC BASIS FOR THE WHOLE LIFE ASSESSMENT OF MUNITIONS
AOP 20 : 2017 SAFETY, ARMING AND FUNCTIONING SYSTEMS MANUAL OF TESTS
AOP 64 : 2017 IN-SERVICE SURVEILLANCE OF MUNITIONS CONDITION MONITORING OF ENERGETIC MATERIALS
AOP-63 Ed: A Ver. 1:2017 IN-SERVICE SURVEILLANCE OF MUNITIONS SAMPLING AND TEST PROCEDURES
AOP 62 : 2017 IN-SERVICE SURVEILLANCE OF MUNITIONS GENERAL GUIDANCE

AECTP-400 : 2006 MECHANICAL ENVIRONMENTAL TESTS
STANAG 4315 : 2006 THE SCIENTIFIC BASIS FOR THE WHOLE LIFE ASSESSMENT OF MUNITIONS
MIL-STD-810 Revision G:2008 ENVIRONMENTAL ENGINEERING CONSIDERATIONS AND LABORATORY TESTS
AECTP-500 : 2016 ELECTROMAGNETIC ENVIRONMENTAL EFFECTS TESTS AND VERIFICATION
AECTP-100 : 2016 ENVIRONMENTAL GUIDELINES FOR DEFENCE MATERIEL
STANAG 4370 : 2016 ENVIRONMENTAL TESTING
AECTP-200 : 2009 ENVIRONMENTAL CONDITIONS
STANAG 2895 : 1990 EXTREME CLIMATIC CONDITIONS AND DERIVED CONDITIONS FOR USE IN DEFINING DESIGN/TEST CRITERIA FOR NATO FORCES MATERIAL
AECTP-300 : 2006 CLIMATIC ENVIRONMENTAL TESTS
DEFSTAN 00-35/2(1996) : 1996 AMD 1 1997 ENVIRONMENTAL HANDBOOK FOR DEFENCE MATERIEL

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