Presentacion asme seccion viii division 2 2013
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ELABORATED BY : ARTURO LLANOS
OBJETIVE
OUTLINE A GUIDE FOR A.I.’S TO DEAL WITH A CUSTOMERS REQUEST TO CERTIFY THEIR SHOPS
UNDER ASME SECTION VIII DIV. 2 REGULATIONS
STEP 1Elaborate Applications to :
ASME ( caconnect)
NATIONAL BOARD
(www.nationalboard.org)
STEP 2
Have a Contract with HSB GS
STEP No. 3
Develop a QCSM to meet Annex 2E
Requirements
ANNEX E
2-E.1 GENERAL2-E.1.1 The Manufacturer shall develop andmaintain a Quality Control System that willestablish that all Code requirements, includingmaterial, design, fabrication, examination (by theManufacturer), and inspection of vessels andvessel parts (by the inspector) will be met.
.
Provided that Code requirements are suitably identified, System :
May include provisions for satisfying any requirements by the Manufacturer or user that exceed minimum Code requirements
May include provisions for quality control of non-Code work.
In such systems, the Manufacturer of vessels and vessel parts may make changes in parts of the system that do not affect the Code requirements without securing acceptance by the Inspector
Shall be one suitable for the Manufacturer’s circumstances. The necessary scope and detail of the system shall depend on the complexity of the work performed and on the size and complexity of the Manufacturer's organization.
STEP 4BUY OF ASME CODES LATEST EDITION
SECTION VIII DIVISION 2SECTION II PARTS A,B,C AND D
SECTION V
SECTION IX
BUY OF NBIC BOOKS
PARTS 1,2 AND 3
BUY OF ACCEPTED EDITION OF REFERENCED STANDARDS AS APPLICABLE
STEP 5
Develop a set of Drawings and Calculations meeting with
Section VIII Div. 2 requirements.TIP:
This is the only requirement on this matter for Joint Review purposes, that means, Construction of Mock Up for Joint Review can be constructed
following Section VIII Div. 1.
STEP 6
Develop Special Procedures
in English Language
Among others:
- Hydrostatic Test Procedure.
- NDE procedures( RT, UT, PT,MT and VT)
- Coded Marking Procedure( Traceability)
--PWHT procedures
STEP 7
Qualification and
Certification of :
- WPS’s
- PQR’s
- WPQ’s
STEP 8
Implementing QCSMRecommendation:
AI’s shall recommend Clients that QCSMmust be read it Section by Section with allpersonnel involve in Joint Review in order tobe aware of activities , responsibilities andsharing responsibilities between them.
Prepair documentacion of demonstration:
Engineering Department
* Calculations
* Fabrication Drawings
* Bill of Materials
* Materials Requisition including Code Requirements
Purchasing Department
* P.O.’s without change material requisition requirements
Quality Control
* Traveler Sheet
* WPS’s PQR’s and WPQ’s
* Materials and Welding Maps
Among others the following activities must be done:
-Distribution of QCSM as per QCSM Distribution Log establish and be sure it is completely understood
- Distribution of Drawings, List of Materials and MaterialsRequisition to all departments involve in construction of Mock up and in accordance with QCSM
- Be sure that Purchase Orders be the same as Materialsrequisition establish without any change on it
- Company must search a NDE Agency properly qualified , including the level III appointment, reviewing alldocumentation ( Procedures and Personnel qualification) meet Code Requirements.
-Implementing QCSM in shop
-Company must be sure that the following documentation be available in shop during construction of Mock Up :
-Last revision of Drawing
-Have a copy of the traveler sheet
-WPS’s
-WPQ’s
-Welder’s Continuity Log
-Pressure Parts properly identified with Coded Markings and properly identified by Q.C. as accepted material
-Welding Filler according with WPS
-Give welders their welder Stamp in order to identify job made by them
-In my personal opinion , A.I must give a brief explanation of handling of documents below mentioned to the following personnel:
-Production Manager , Production Supervisors and Welders and Fitters ,
-And Q.C. personnel.
Ware house implementationAmong others following activities must be shown
- Set up Code Material Area and Non-Code Material Area
- Set up in warehouse identified areas for:
Receiving Inspection
Accepted Material
Holding Material
Rejected Material
- Have available a Oven for storage of Welding Material withattached instructions for Storage handling mainly for electrodes
- Implementing controlled handling of delivering to shop onlymaterials ( including welding) already accepted by QC
- Have a implementation of Q.C. stickers of accepted,holdand rejected
STEP 9
Schedule A.I./AIS visits
Purpose:
Confirm that all steps above referenced have been met and Client is ready to Pre Joint Review and Joint Review .
Among others the next are part of A.I. activities:
- Revision of documentation(calculations,drawings,wps’s,pqr’s,,special procedures,etc.)
- Revision, Aceptance and Verification of implementation of QCSM
- Set up Hold, Revision and Witness points in Traveler Sheetto be used during construction of Mock up.
Activities of AIS during Prejoint Review
-- Make an audit of Quality Program at this time QCSM must be docummented and implemmented completely
and the Mock up be in process, if possible just like it isgoing to show during Joint Review
-- Give Customer recommendations to fix findings foundduring PreJoint Review
-- Elaborate Prejoint Review Report and send it toCustomer Representative and A.I. for follow up purposes
Main Requirements to be added during
developing a QCSM to meet Section VIII Div. 2:
Glossary of Terms
Addition of the following nomenclature:
CE Certified Engineer
UDS User’s Design Specification
MFRDR Manufacturer’s Design Report
CE Certified Engineer.Any Engineer that signs and certifies a User´s Design Specification shall meet one of the criteria shown below :
a) A Registered Professional Engineer who is registered in one or more of the states of the United Stated of America or the provinces of Canada and experienced in pressure vessel design.
b) An Engineer experienced in pressure vessel design that meets all required
qualifications to perform engineering work and any supplemental requirements
stipulated by the user. The Engineer shall identify the location and the licensing
or registering authorities under which he or she has received the authority to
perform engineering work.
c) An Engineer experienced in pressure vessel design who meets all required
qualifications to perform engineering work and any supplemental requirements
stipulated by the user. The Engineer shall be registered in the International
Register of Professional Engineers of the Engineers Mobility Forum.
USER RESPONSIBILITIES
It is the responsibility of the user or an agent acting on behalf ofthe user to provide a certified User’s Design Specification foreach pressure vessel to be constructed in accordance with thisDivision.
What is User’s Design Specification?
The User’s Design Specification shall contain sufficient detail toprovide a complete basis for design and construction inaccordance with this Division. It is the user's responsibility tospecify, or cause to be specified, the effective Code Edition to beused for construction.( See paragraph 2.2.2)
2.2.2 USER’S DESIGN SPECIFICATION
2.2.2.1 The User’s Design Specification shall include but not necessarily be limited to the following:
(a) Installation Site
(1) Location
(2) Jurisdictional authority if applicable
(3) Environmental conditions
(-a) Wind design loads including relevant factors (i.e. design wind speed, exposure, gust factors)
(-b) Earthquake design loads
(-c) Snow loads
(-d) Lowest one day mean temperature for location
(b) Vessel Identification
(1) Vessel number or identification
(2) Service fluid for proprietary fluids specific properties needed for design, e.g., gas, liquid, density, etc.
(c) Vessel Configuration and Controlling Dimensions
(1) Outline drawings
(2) Vertical or horizontal
(3) Openings, connections, closures including quantity, type and size,and location (i.e. elevation and orientation)
(4) Principal component dimensions in sufficient detail so that volumecapacities can be determined
(5) Support method
(d) Design Conditions
(1) Specified design pressure. The specified design pressure is thedesign pressure, see paragraph 4.1.5.2(a),required at the top of the vesselin its operating position. It shall include suitable margins requiredabove the maximum anticipated operating pressure to ensure properoperation of the pressure relief devices. The MAWP of the vessel may beset equal to this specified design pressure. If the actual MAWP of thevessel is calculated, it shall not be less than the specified designpressure.
(2) Design temperature and coincident specified design pressure (seeparagraph 4.1.5.2(d)).
(3) Minimum Design Metal Temperature (MDMT) and coincident specifieddesign pressure(see paragraph 4.1.5.2(e)).
(4) Dead loads, live loads and other loads required to perform the load casecombinations required in Parts 4 and 5.
(e) Operating Conditions
(1) Operating pressure
(2) Operating temperature
(3) Fluid transients and flow and sufficient properties for determination ofsteady state and transient thermal
gradients across the vessel sections, if applicable (see paragraph 5.5.2)
(f) Design Fatigue Life
(1) Cyclic operating conditions and whether or not a fatigue analysis of thevessel as required shall be determined in accordance with paragraph 4.1.1.4.When a fatigue analysis is required, provide information in sufficient detail sothat an analysis of the cyclic operation can be carried out in accordance withparagraph 5.5. comparable equipment experience.
(2) When a vessel is designed for cyclic conditions, the number of designcycles per year and the required vessel design life in years shall be stated.
(3) When cyclic operating conditions exist and a fatigue analysis is notrequired based on comparable equipment experience, this shall be stated.The possible harmful effects of the design features listed in 5.5.2.2(a)through 5.5.2.2
(f) shall be evaluated when contemplating comparable equipmentexperience.
(g) Materials of Construction
(1) Material specification requirements shall be in accordance with one ormore of the following criteria.
(-a) Specification of materials of construction in accordance with Part 3.
(-b) Generic material type (i.e. carbon steel or Type 304 Stainless Steel).The user shall specify requirements that provide an adequate basis forselecting materials to be used for the construction of the vessel. TheManufacturer shall select the appropriate material from Part 3, consideringinformation provided by the user per paragraph (3).
(2) The user, shall specify the corrosion and/or erosionallowance.
(3) The user, when selecting the materials of construction,shall consider the following:
(-a) Damage mechanisms associated with the service fluid atdesign conditions. Informative and non-mandatory
guidance regarding metallurgical phenomena is provided inSection II, Part D, Appendix A, API RP 571, and WRC Bulletins
488, 489 and 490.
(-b) Minimum Design Metal Temperature and any additionaltoughness requirements.
(-c) The need for specific weld filler material to meet corrosionresistance requirements, see paragraph 6.2.5.8
(h) Loads and Load Cases
(1) The user shall specify all expected loads and loadcase combinations as listed in paragraph 4.1.5.3.
(2) These loading data may be established by:
(-a) Calculation
(-b) Experimental methods
(-c) Actual experience measurement from similar units
(-d) Computer analysis
(-e) Published data
(i) Overpressure Protection
(1) The user shall be responsible for the design,construction and installation of the overpressureprotection system unless it is delegated to theManufacturer. This system shall meet the requirementsof Part 9.
(2) The type of over pressure protection intended for thevessel shall be documented in the User’s DesignSpecification as follows (see paragraph 9.1):
(-a) Type of overpressure protection system (e.g., type ofpressure relief valve, rupture disc, etc.)
(-b) System design (see paragraph 9.7)
(3) The user shall state if jurisdictional acceptance isrequired prior to operation of the vessel.
2.2.2.2 Additional Requirements – The user shall statewhat additional requirements are appropriate for theintended vessel service such as:
(a)Additional requirements such as non-destructiveexamination, restricted chemistry, or heat treatments
(b) Type of weld joints and the extent of requirednondestructive examinations
(c) Non-mandatory or optional provisions of this Division thatare considered to be mandatory for the subject vessel
(d) Any special requirements for marking and their location(see paragraph 4.1 and Annex 2-F)
(e) Requirements for seals and/or bolting for closures andcovers
(f) Additional requirements relating to erection loadings
(g) Any agreements which resolve the problems of operation and maintenance control unique to the particular
pressure vessel.
(h) Specific additional requirements relating to pressure testing such as:
(1) Fluid properties and test temperature limits
(2) Position of vessel and support/foundation adequacy if field hydrostatic testing is required
(3) Location: Manufacturer’s facility or on-site
(4) Cleaning and drying
(5) Selection of pressure test method, see paragraph 8.1.1
(6) Application of paints, coatings and linings, see paragraph 8.1.2(e)
2.2.2.3 The User’s Design Specification shall be certified in accordance with Annex 2-A.
UDS User´s Design Specification.
Manufacturer’s Design ReportWho’s responsible?
An individual(s) of Manufacturer Organization oftenEngineering Manager,is in responsible charge of the designand construction of the vessel(s) and shall certify that the
Manufacturer’s Design Report is complete, accurate and inaccordance with the User’s Design Specification, and that all
the requirements of this Division and any additionalrequirements needed for adequate design have been met.
Such certification requires the signature(s) of one or moreEngineers with requisite experience and qualifications asdefined below. One or more individuals may sign thedocumentation based on information they reviewed, and theknowledge and belief that the requirements of this Divisionhave been satisfied.
2.3.3 MANUFACTURER’S DESIGN REPORT2.3.3.1 The Manufacturer shall provide a Manufacturer’s Design Report thatincludes:
(a) Final as-built drawings.
(b) The actual material specifications used for each component.
(c) Design calculations and analysis that establish that the design as shown onthe drawings complies with the requirements of this Division for the designconditions that have been specified in the User’s Design Specification.
(1) Documentation of design-by-rule calculations in Part 4 shall include thefollowing:
(-a) The name and version of computer software, if applicable
(-b) Loading conditions and boundary conditions used to address the loadcases in the User’s Design Specification
(-c) Material models utilized for all required physical properties (i.e. stress-strain data, modulus of elasticity, Poisson’s ratio, thermal expansioncoefficient, thermal conductivity, thermal diffusivity), strength parameters(i.e. yield and tensile strength), and allowable stresses
(-d) Detailed calculations, including results from all of the applicablesteps in the calculations, showing the acceptance criteria utilized tomeet the requirements of this Division.
(-e) A summary of the calculation results
(2) Documentation of design-by-analysis calculations in Part 5 shallinclude the following:
(-a) A detailed description of the numerical method used, including thename and version of computer software, if
applicable
(-b) Description of model geometry (including element type for finiteelement analysis)
(-c) Loading conditions and boundary conditions used to address theload cases in the User’s Design Specification
(-d) Material models utilized for all required physical properties (i.e.modulus of elasticity, Poisson’s ratio, thermal expansion coefficient,thermal conductivity, thermal diffusivity), strength parameters (i.e.yield and tensile strength), strain limits, if applicable, and the designmembrane stress intensity per Part 3
(-e) Description of whether material nonlinearity is utilized inthe analysis including a description of the material model (i.e.stress-strain curve and cyclic stress-strain curve)
(-f) Description of the numerical analysis procedure (i.e. staticanalysis, thermal analysis (temperature and stress), bucklinganalysis, natural frequency analysis, dynamic analysis) andwhether a geometrically linear or nonlinear option is invoked
(-g) Graphical display of relevant results (i.e. numerical model,deformed plots, and contour plots of thermal and stress results)
(-h) Method used to validate the numerical model (i.e. meshsensitivity review and equilibrium check for finite elementanalysis, e.g. check of hoop stress in a component away fromstructural discontinuity and a check to ensure that globalequilibrium is achieved between applied loads and reactions atspecified boundary conditions)
(-i) Description of results processing performed to establishnumerical analysis results (i.e. stress linearization method, use ofcentroidal or nodal values for stress, strain, and temperatureresults)
(-j) A summary of the numerical analysis results showing theacceptance criteria utilized to meet the requirements of thisDivision
(-k) Electronic storage of analysis results including input files andoutput files that contain numerical analysis results utilized todemonstrate compliance with the requirements of this Division
(d) The results of any fatigue analyses according to paragraph 5.5,as applicable.
(e) Any assumptions used by the Manufacturer to perform thevessel design.
2.3.3.2 The Manufacturer’s Design Report shall be certified inaccordance with Annex 2-B.
MFRDR Manufacturer´s Design Report
ENGINEERING ADDITIONAL REQUIREMENTS FOR SECTION VIII, DIV. 2
It is the responsibility of the user or an agent acting on behalf of the user to provide a UDS for each pressure vessel to be constructed in accordance with Section VIII, Div. 2. The UDS shall contain sufficient detail to provide a complete basis for design and construction in accordance with Section VIII, Div. 2. It is the user's responsibility to specify, or cause to specify, the effective Code Edition to be used for construction of Code Items.
The UDS shall include but not necessarily be limited to the requirements stated in 2.2.2.1 of Section VIII, Div. 2
The Company is responsible for the structural and pressure retaining integrity of a vessel or part thereof, as established by conformance with the requirements of the rules of Section VIII, Div. 2 and the requirements in the UDS.
The Company completing any Item or part marked with ASME Certification mark and U2 designator has the responsibility to comply with all the applicable requirements of this Section VIII Div. 2 and, through proper certification, to ensure that any work by others also complies with the requirements of this Division. QCM shall certify compliance with these requirements by completing a
MDR.
Continue……..
Any material substitutions by EM are subject to approval of theUser and communicated to AI for revision of UDS and MFRDR.
A UDS Certified by CE or Professional Engineer shall befurnished to the EM for review against the requirements ofparagraph 2.2.2 and Annex 2.A of Code, the EM shall be responsiblefor verifying that the UDS meets such requirements and for verifyingCode Edition to be used for Construction it’s also specified.
EM is also responsible for preparing the MFRDR which shallcomply with the requirements of paragraph 2.3.3 and Annex 2.B ofCode.
Restricted requirements on allowable materials as reflected bythe fatigue curves of paragraph 3.15 of Code must be consideredwhere a fatigue (Cyclic) analysis is required.
UDS, TS and MFRDR must be reviewed by AI prior to startof fabrication.
Revisions if any, to the UDS, MFRDR, drawings andcalculations shall be handled as described above.
Upon completion of fabrication, EM will provide allfabrication records to the CE. The MFRDR will be reconciledagainst the UDS and if found to be in compliance, the MFRDRwill be certified by the CE.
AI AVAILABILITY
All documents described in this section shall be available
thru the EM for review by the AI.
MATERIAL CONTROL ADDITIONAL REQUIREMENTS FOR SECTION VIII DIV. 2
All conflicts between the material specification and thesupplemental requirements stipulated in Part 3 the ASME Section VIIIDivision 2 Code, shall be noted on the BOM by the DE, and compliancewith the supplemental requirements shall be certified by the materialmanufacturer.
If the requirements in a material specification are to becompleted by other than the materials manufacturer, then the DE shalladdress on the BOM that supplementary material test reports arerequired. QCM receives and review all MTR’s, tests, examinationreports and/or C of C for ensuring compliance and makes themavailable to the AI for verification of compliance with the materialspecification. If acceptance QCM certifies compliance withsupplemental requirements of Section VIII, Div. 2 by dated initials onthe document.
The DE shall specify in the BOM that the certification of materialsshall meet Part 3 paragraph 3.2.6 of the ASME Section VIII Division 2Code requirements.
The BOM for the forming of carbon and low alloy material partsshall specify that certification to paragraph 6.1.2.3(e) of the ASMESection VIII Division 2 Code is required.
The DE shall specify on the BOM that material manufacturer´sidentification marking required by the material specification shall notbe stamped on plate material less than 6mm (1/4”) in thickness. (Unlessthe requirements of 3.2.7.4 are complied with ASME Section VIIIDivision 2).
Substitution of the specified material requires approval of theUser and both the CE responsible for the Certification of the User’sSpecifications and the Manufacturer’s Design Report, and acceptanceby AI.
The QCM is responsible for providing an as built sketch ortabulation of materials identifying each piece of material with the MTRor, if permitted by Code C of C and coded marking which assure
identification of each piece of material during fabrication andsubsequent identification in the completed vessel.
EXAMINATION AND INSPECTION PROGRAM ADDITIONAL REQUIREMENTS FOR ASME SECTION VIII, DIV. 2
The QCM shall prepare, collect and maintain construction recordsand documentation as fabrication progress, (Files of Quality Control).
All materials to be used in constructing a pressure vessel shall bein accordance with ASME Section VIII Div. 2 Code examined beforefabrication with the purpose of detecting, as far possible, defects thatwill affect the safety of the vessel, in accordance with paragraph 6.1.3.1 ofASME Section
VIII Div. 2 Code.
The QCM is responsible for having examined all cut edges of basematerial in accordance with Paragraph 6.1.3 (b) of Code. All weldingshall be subject to in-process examination by Visual Examination at thefit-up stage and during back gouging.
All weld for pressure retaining parts shall be visually examined bythe QCI who must pass the annual eye test in accordance withparagraph 7.A.2.2 (b)(1) of ASME Section VIII Div. 2 Code. shall be asestablished in paragraphs 7.5.6 and 7.5.7 of ASME Section VIII Div. 2code.
Weld seams that will be hidden by assembly are given a visuallyexamination by the QCM from workmanship to final assembly. As perparagraph 8.2.5 (a) (3) of ASME Section VIII Div. 2 Code.
Forming tolerances shall be maintained in accordance with 6.1.2and paragraph 4.3.2 & 4.4.4 as applicable, of ASME Sec. VIII Div. 2Code.
Removal of temporary attachments shall be in accordance with6.1.4.4 of ASME Section VIII Div. 2 Code.
If a fatigue analysis is required for a part of a Code Vessel, then allof the internal and external surfaces or pressure boundary andattachment welds for that part shall be examined by wet magnetic
particle method (if ferromagnetic) or by liquid penetrant method (ifnon magnetic) after Hydrostatic, unless accessibility preventsmeaningful interpretation and characterization of imperfections. The
acceptance criteria shall be as established in paragraphs 7.5.6 and 7.5.7of ASME Section VIII Div. 2 code.
The pressure test shall be in accordance with a pressure testprocedure, prepared and approved by the QCM, which shall be inaccordance with 8.2 or 8.3 of the ASME Section VIII Div. 2 Code.The test method and the upper test pressure limit shall bereferenced on the drawings by the DE. Pressure test proceduremust be submitted to AI for review.
The required markings for Code Vessel of paragraph 2.F.1 ofthe ASME Sec. VIII Div. 2 Code shall be applied on a Nameplateor shall be stamped with low stress type stamps directly on theItem, located on an area designated as a low stress area by the DEin the MFRDR.
The ASME Certification Mark with U2 designator shall beapplied by the QCM only with the approval of the AI and afterthe hydrostatic test and all other required inspection andtesting has been satisfactorily completed.
The MFRDR shall be prepared by EM and submitted to CEfor review for accuracy and signed by him prior to beingpresented to the AI for his review and signature. The name ofthe Company’s Certified Engineer shall be on the MFRDR. TheQCM shall be responsible for routing the MFRDR to thecustomer, the appropriate enforcement authority in thejurisdiction in which the Code Vessel is to be installed whererequired by law and National Board as applicable. The QCMshall also be responsible for retention of the Company’s copy ofthe Manufacturer’s Data Report.
NON CONFORMITIES CONTROL ADDITIONAL REQUIREMENTS FOR SECTION VIII, DIV. 2
NCR shall be serialized and retained on file by QCM
NON-DESTRUCTIVE EXAMINATION ADDITIONAL REQUIREMENTS FOR SECTION VIII, DIV. 2
All finished welds shall be subject to nondestructive Examination depending on Examination Group selected in paragraph 7.4.2 and the Joint Category and weld type as defined in paragraph 4.2 of Code.
All welding shall be subject to in process examination by QCI, making visual examination at the fit up stage and during back gouging in accordance with paragraph 7.4.1.3 of Code.
Personnel performing and evaluating NDE shall be qualified and certified per 7.3 of Code.
CALIBRATION OF MEASUREMENT AND TEST EQUIPMENT ADDITIONAL REQUIREMENTS FOR SECTION VIII, DIV. 2
All gages shall be calibrated against a standard
deadweight tester or a calibrated master gage at
least every 6 months or at any time there is a reason to believe that they are in error.
RECORDS RETENTION ADDITIONAL REQUIREMENTS FOR ASME Section VIII Div. 2 items:
a) User’s Design Specificationb) Manufacturer’s Design Reportc) Manufacturer’s Data Reportd) Manufacturer’s Construction Records and Partial Data Reports.An Index of the Construction Record Files shall consist of the following as a minimum as applicable:
1) Tabulated list of all material used for fabrication with Materials Certifications andMaterial Test Reports, and a record of any repairs to pressure retaining material thatrequire a radiographic examination by the rules of this Div. 2. The record of the repairsshall include the location of the repair, examination results, and the repair procedures.2) Fabrication information including all heat treatment requirements, forming and rolling procedure when prepared, an inspection and test plan identifying all inspection points required by the user, and signed inspection reports.3) List of any subcontracted services or parts, if applicable.4) Pressure Parts documentation and certifications.5) Welding Procedure Specifications (WPS), Procedure Qualification Records (PQR), weld map and welder or welding operator qualification test results.
6) Record of all heat treatments including post weld heat treatment (these records may be either the actual heat treatment charts or a certified summary description of heat
treatment time and temperature).
7) Results of production test plates, if applicable.
8) NDE procedures, records of procedure demonstrations, and records of personnel
certifications.
9) All reports stating the results of inspection, nondestructive examinations and testing
including radiographic examination, ultrasonic examination, magnetic particle
examination, liquid dye penetrant examination and hardness tests.
10)All non-conformance reports including resolution and a detailed description of any
repairs including repair procedures, a sketch, photo, or drawing indicating the location
and size of the repaired area.
11) Charts or other records of required hydrostatic, pneumatic, or other tests. Test logs shall include the test date, testing fluid, duration of the test, temperature of the test
fluid, and test pressure.
12) Dimensional drawings of the as-built condition.
The Company shall maintain a complete set of radiographs until the signing of the Manufacturer’s Data Report, and furnish upon request to the user and, upon request to the AI.
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