No. |
Questões | [Ref] |
1 |
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[STD] |
a) 8 | ||
b) 7 | ||
c) 6 | ||
d) 13 | ||
e) 9 | ||
2 |
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[STD] |
a) 2004 | ||
b) 2007 | ||
c) 2011 | ||
d) 2013 | ||
e) Todas as edições citadas nas respostas apresentam pelo menos uma aplicação que não é exclusiva de produtos tubulares | ||
3 |
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[STD] |
a) Mandatory Appendix II Eddy Current Examination of Nonferromagnetic Heat Exchanger Tubing | ||
b) Mandatory Appendix III Eddy Current Examination on Coated Ferritic Materials | ||
c) Mandatory Appendix IV External Coil Eddy Current Examination of Wire Products | ||
d) Mandatory Appendix V Eddy Current Measurement of Nonconductive-Nonmagnetic Coating Thickness on a Nonmagnetic Metallic Material | ||
4 |
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[STD] |
a) Mandatory Appendix VI Eddy Current Detection and Measurement of Depth of Surface Discontinuities in Nonmagnetic Metals with Surface Probes | ||
b) Mandatory Appendix VII Eddy Current Examination of Magnetic and Nonmagnetic Conductive Metals to Determine if Flaws are Surface-Connected | ||
c) Mandatory Appendix VIII Eddy Current Examination of Nonmagnetic Heat Exchanger Tubing | ||
d) Mandatory Appendix IX Eddy Current Examination of Ferromagnetic Heat Exchanger Tubing | ||
5 |
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[STD] |
a) surface probes | ||
b) multiparameter | ||
c) multifrequency | ||
d) heat exchanger tubes | ||
6 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
7 |
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[STD] |
a) Personnel requirements | ||
b) Data recording equipment manufacturer and model | ||
c) Tube material | ||
d) Tube numbering | ||
8 |
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[STD] |
a) Tube examination surface preparation | ||
b) Probe type and size | ||
c) Mode of inspection - differetial or absolute | ||
d) Examination frequencies, drive voltage, and gain settings | ||
9 |
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[STD] |
a) Data recording equipment manufacturer and model | ||
b) Scanning speed during insertion or retraction, no data recording | ||
c) Maximum scanning speed during data recording | ||
d) Data analysis parameters | ||
10 |
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[STD] |
a) Minimum digitalization rate | ||
b) Identity of calibration reference standard(s) | ||
c) Fixture location verification
|
||
d) Side of application - inlet or outlet | ||
11 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
12 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
13 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
14 |
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[STD] |
a) Bobbin coils shall be able to detect artificial discontinuities in the calibration reference standard. | ||
b) Bobbin coils shall have sufficient bandwidth for operating frequencies selected for flaw detection and sizing. | ||
c) Bobbin coils shall be able to detect artificial discontinuities in the calibration reference standard. & Bobbin coils shall have sufficient bandwidth for operating frequencies selected for flaw detection and sizing. | ||
d) nenhuma das opções pertence ao item citado do código | ||
15 |
![]() II-830.5.1 Basic System Requirements. Está errado apenas o sub-item? |
[STD] |
a) The data analysis system shal be capable of displying eddy current signal data from all test frequecies. | ||
b) The system could have multiparameter mixing capability. | ||
c) The system shall be capable of maintaining the identification of each tube recorded. | ||
d) The system shall be capable of measuring phase angles in increments of one degree or less. | ||
e) The system shall be capable of measuring amplitudes to the nearest 0.1 volt. | ||
16 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
17 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True or False | ||
18 |
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[STD] |
a) monthly | ||
b) weekly | ||
c) annual | ||
d) century | ||
19 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
20 |
![]() Não é verdadeiro o subitem: |
[STD] |
a) Calibration reference standards shall be manufactured from tube(s) of different material specification and nominal size as that to be examined in the vessel. | ||
b) Tubing calibration reference standard materials heat treated differently from the tubing to be examined may be used when signal responses from the discontinuities described in II-860.2.2 are demonstrated to the Inspector to be equivalent in both the calibration reference standard and tubing of the same heat treatment as the tubing to be examined. | ||
c) The as-built dimensions of the discontinuities and the applicable eddy current equipment response shall become part of the permanent record of the calibration reference standard. | ||
d) Each calibration reference standard shall be permanently identified with a serial number. | ||
21 |
![]() Só não é verdadeiro o item: |
[STD] |
a) One or four through-wall holes as follows: (a) A 0.052 in. (1.3 mm) diameter hole for tubing with diameters of 0.750 in. (19 mm) and less, or a 0.067 in. (1.70 mm) hole for tubing with diameters greater than 0.750 in. (19 mm). (b) Four holes spaced 90 deg apart in a single plane around the tube circumference, 0.026 in. (0.65 mm) diameter for tubing with diameters of 0.750 in. (19 mm) and less and 0.033 in. (0.83 mm) diameter for tubing with diameters greater than 0.750 in. (19 mm). |
||
b) A flat-bottom hole 0.109 in. (2.7 mm) diameter, 60% through the tube wall from the outer surface. | ||
c) Four flat-bottom holes 0.187 in. (5 mm) diameter, spaced 90 deg apart in a single plane around the tube circumference, 20% through the tube wall from the outer surface. | ||
d) One 1/16 in. (1.6 mm) wide, 360 deg circunferential groove 10% through from the tube outer surface. | ||
22 |
![]() A afirmação do subitem é? |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
23 |
A figura pertence a qual sub item do ASME BPVC Section V Article 8 Mandatory Appendix II?
![]() |
[STD] |
a) II-860.3.3 Hybrid Bobbin Coil Technique. | ||
b) II-860.3.2 Absolute Bobbin Coil Technique. | ||
c) II-860.3.1 Differential Bobbin Coil Technique. | ||
d) Nenhuma das demais opções | ||
24 |
A figura pertence a qual sub item do ASME BPVC Section V Article 8 Mandatory Appendix II?
![]() |
[STD] |
a) II-860.3.3 Hybrid Bobbin Coil Technique. | ||
b) II-860.3.2 Absolute Bobbin Coil Technique. | ||
c) II-860.3.1 Differential Bobbin Coil Technique. | ||
d) Nenhuma das demais opções | ||
25 |
![]() Ele é verdadeiro (True) ou falso (False) |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
26 |
![]() Ele é verdadeiro (True) ou falso (False) |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
27 |
Considerando a figura, podemos afirmar que ela é relativa ao item: / ASME BPVC Sec V Art 8 2013 MAppd II / MANDATORY APPENDIX II - EDDY CURRENT EXAMINATION OF NONFERROMAGNETIC HEAT EXCHANGER TUBING
II-880 EVALUATION
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[STD] |
a) II-880.1 | ||
b) II-880.2 | ||
c) II-880.3 | ||
d) II-880.4 | ||
28 |
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[STD] |
a) location along the length of the tube and with respect to the support members | ||
b depth of the indication through the tube wall, when required by this Appendix | ||
c) signal amplitude | ||
d) frequency or frequency mix from which the indication was evaluated | ||
e) all the others | ||
29 |
![]() Ele é? |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
30 |
![]() Qual dos sub itens a seguir não é verdadeiro: |
[STD] |
a) Owner | ||
b) plant site and unit | ||
c) heat exchanger identification(d) data storage unit number | ||
d) data storage unit number | ||
e) date of the requirement of the inspection | ||
f) serial number of the calibration standard | ||
31 |
![]() Qual dos sub itens a seguir não é verdadeiro: |
[STD] |
a) operator’s identification and certification level | ||
b) just one examination frequency | ||
c) mode of operation including instrument sample rate, drive voltage, and gain settings | ||
d) lengths of probe and probe extension cables | ||
e) size and type of probes | ||
32 |
![]() Qual dos sub itens a seguir não é verdadeiro: |
[STD] |
a) probe manufacturer’s name and manufacturer’s part number or probe description and serial number | ||
b) eddy current instrument serial number | ||
c) probe scan direction during data extraction | ||
d) application side — inlet or outlet | ||
e) procedure identification and revision | ||
33 |
![]() Seu escopo é: / This Appendix provides the eddy current examination methodology and equipment requirements applicable for performing eddy current examination on coated austenitic materials. |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
34 |
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[STD] |
a) SD-1184 | ||
b) SD-1185 | ||
c) SD-1186 / SD-7091 (2023) | ||
d) E-1186 | ||
35 |
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[ECM] |
a) Coating thickness measurement shall be used in accordance with the equiment manufacturer’s instructions. Coating thickness measurements shall be taken at the intersections of a 4 in. (100 mm) maximum grid pattern over the area to be examined. The thickness shall be the mean of two separate readings within 0.250 in. (12 mm) of each intersection. | ||
b) Coating thickness measurement shall be used in accordance with the equiment manufacturer’s instructions. Coating thickness measurements shall be taken at the intersections of a 4 in. (100 mm) maximum grid pattern over the area to be examined. The thickness shall be the mean of three separate readings within 0.250 in. (6 mm) of each intersection. | ||
c) Coating thickness measurement shall be used in accordance with the equiment manufacturer’s instructions. Coating thickness measurements shall be taken at the intersections of a 2 in. (50 mm) maximum grid pattern over the area to be examined. The thickness shall be the mean of four separate readings within 0.5 in. (12 mm) of each intersection. | ||
d) Coating thickness measurement shall be used in accordance with the equiment manufacturer’s instructions. Coating thickness measurements shall be taken at the intersections of a 2 in. (50 mm) maximum grid pattern over the area to be examined. The thickness shall be the mean of three separate readings within 0.250 in. (6 mm) of each intersection. | ||
36 |
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[ECM] |
a) The material used for the specimen shall be the same specification and heat treatment as the coated ferromagnetic material to be examined. | ||
b) The qualification specimen shall include at least one crack. In lieu of a crack, a machined notch of 0.010 in. (0.25 mm) maximum width and 0.020 in. (0.5 mm) maximum depth may be used in the as-welded surface. | ||
c) Examine the qualification specimen first uncoated and then after coating to the maximum thickness to be qualified. Record the signal amplitudes from the qualification flaws. | ||
d) ... flaw in the coated qualification specimenshall be at least 100% of the signal measured on the corresponding qualification flaw prior to coating. | ||
37 |
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[STD] |
a) correta | ||
b) errada | ||
c) correta se o método o outro método recomendado for apenas um superficial | ||
d) correta se o método o outro método recomendado for apenas um volumétrico | ||
38 |
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[STD] |
a) procedure identification and revision | ||
b) examination personnel identity and, when required by the referencing Code Section, qualification level | ||
c) date of conclusion of the report | ||
d) results of examination and related sketches or maps of rejectable indications | ||
e) identification of part or component examined | ||
39 |
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[STD] |
a) A213/A213M, Standard Specification for Seamless Ferritic and Austenitic Alloy-Steel Boiler, Superheater, and Heat-Exchanger Tubes | ||
b) SE-215 RECOMMENDED PRACTICE FOR STANDARDIZING EQUIPMENT FOR ELECTROMAGNETIC TESTING OF SEAMLESS ALUMINUM-ALLOY TUBE | ||
c) SE-571 STANDARD PRACTICE FOR ELECTROMAGNETIC (EDDY-CURRENT) EXAMINATION OF NICKEL AND NICKEL ALLOY TUBULAR PRODUCTS | ||
d) SE-243, Electromagnetic (Eddy Current) Testing of Seamless Copper and Copper-Alloy Heat Exchanger and Condenser Tubes | ||
40 |
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[STD] |
a) Frequência | ||
b) Mode (diferencial\absoluto) | ||
c) Mínimo Fator de Enchimento | ||
d) Preparação da superfície do tubo a ser escaneado
|
||
e) Material sendo examinado | ||
41 |
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[STD] |
a) Software de análise | ||
b) Software de coleta de dados | ||
c) Cabeamento (tipo e comprimento) | ||
d) Norma de referência | ||
e) Técnica de varredura | ||
42 |
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[STD] |
a) Técnica de Varredura | ||
b) Modelo e Fabricante do Equipamento | ||
c) Equipamento de Varredura e Fixação | ||
d) Preparação da superfície do tubo a ser escaneado | ||
43 |
![]() |
[STD] |
a) entalhes transversais | ||
b) furos usinados | ||
c) entalhes longitudinais | ||
d) entalhes transversais ou furos usinados | ||
44 |
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[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
45 |
![]() |
[STD] |
a) source voltage of the eddy current device | ||
b) tube material specification, diameter, and wall thickness condition | ||
c) coil or probe manufacturer, size and type | ||
d) mode of operation (absolute, differential, etc.) | ||
e) examination frequency or frequencies | ||
46 |
![]() |
[STD] |
a) manufacturer, model, and serial number of eddy current equipment | ||
b) scanning speed | ||
c) procedure author | ||
d) calibration standard and serial number | ||
e) identity of examination personnel, and, when required by the referencing Code Section, qualification level | ||
47 |
![]() |
[STD] |
a) date of examination | ||
b) list of acceptable material | ||
c) date of procedure qualification | ||
d) results of procedure requalification (as applicable) | ||
e) level III inspector signature | ||
48 | Considerando o item V-820 GENERAL do apêndice MANDATORY APPENDIX V - EDDY CURRENT MEASUREMENT OF NONCONDUCTIVE-NONMAGNETIC COATING THICKNESS ON A NONMAGNETIC METALLIC MATERIAL do ASME BPVC Sec V Art 8 2013 a declaração "The measurements are made with a bobbin probe with the lift-off calibrated for thickness from the surface of the test material." é? | [STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
49 |
![]() |
[STD] |
a) Examination frequency | ||
b) Nonconductive calibration material (nonconductive shims) | ||
c) Absolute mode | ||
d) Size and probe type(s), manafacturers name and description | ||
50 |
![]() |
[STD] |
a) Substrate material | ||
b) Equipment manufacturer/model | ||
c) Examination surface preparation | ||
d) Cabling (type and length) | ||
51 |
![]() |
[STD] |
a) A single frequency technique shall be used with a suitable calibration material such as nonconductive shim(s), paper, or other nonconductive nonmagnetic material. | ||
b) The shims or other material thicknesses shall be used to correlate a position on the impedance plane or meter reading with the nonconductive material thicknesses and the no thickness position or reading when the probe is against the bare metal. | ||
c) If the thickness measurement is used only to assure a minimum coating thickness, then only a specimen representing the minimum thickness need be used. | ||
d) For instruments with impedance plane displays, gains on the vertical and horizontal axes shall be the same value. | ||
52 |
Considerando a figura V-860 do item V-860 CALIBRATION do apêndice MANDATORY APPENDIX V - EDDY CURRENT MEASUREMENT OF NONCONDUCTIVE-NONMAGNETIC COATING THICKNESS ON A NONMAGNETIC METALLIC MATERIAL do ASME BPVC Sec V Art 8 2013, o ponto da figura relativo a maior espessura de revestimento é o ponto?
![]() |
[STD] |
a) 0 | ||
b) 1 | ||
c) 2 | ||
d) 3 | ||
e) 4 | ||
f) 5 | ||
53 |
![]() |
[STD] |
a) procedure identification and revision | ||
b) examination personnel identity, and, when required by the referencing Code Section, qualification level | ||
c) date of examination | ||
d) results of examination and related sketches or maps of thickness measurements | ||
e) identification of contractor personnel | ||
54 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
55 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
56 |
Considerando a menor descontinuidade da figura VI-832 (padrão de referência) do apêndice MANDATORY APPENDIX VI - EDDY CURRENT DETECTION AND MEASUREMENT OF DEPTH OF SURFACE DISCONTINUITIES IN NONMAGNETIC METALS WITH SURFACE PROBES do ASME BPVC Sec V Art 8 2013, qual a amplitude mínima que o aparelho de inspeção deve fornecer, para o menor entalhe, na frequência de ensaio ao escanea-la?
|
[STD] |
a) 10% FSH | ||
b) 20% FSH | ||
c) 40% FSH | ||
d) 100% FSH | ||
57 |
Considerando a maior descontinuidade da figura VI-832 (padrão de referência) do apêndice MANDATORY APPENDIX VI - EDDY CURRENT DETECTION AND MEASUREMENT OF DEPTH OF SURFACE DISCONTINUITIES IN NONMAGNETIC METALS WITH SURFACE PROBES do ASME BPVC Sec V Art 8 2013, qual a amplitude mínima que o aparelho de inspeção deve fornecer, para o maior entalhe, na frequência de ensaio ao escanea-la?
|
[STD] |
a) 10% FSH | ||
b) 20% FSH | ||
c) 50% FSH | ||
d) 100% FSH | ||
58 |
![]() |
[STD ] |
a) A single frequency technique shall be used. | ||
b) The frequency shall be selected to result in an impedance plane presentation that will result in a 180 deg phase shift between the lift-off signal and the flaw signals. | ||
c) The resulting signals will be displayed using an impedance plane presentation with one axis representing the lift-off signal and the other axis representing the reference notch and flaw signal responses. | ||
d) The gain control on each axis displaying the flaw signals shall be adjusted to present amplitude for the flaw signal from the deepest notch to be at least 50% of the vertical or horizontal display it is presented on. | ||
59 |
![]() |
[STD] |
a) A single frequency technique shall be used. | ||
b) The frequency shall be selected to result in an impedance plane presentation that will result in a 90 deg phase shift between the lift-off signal and the flaw signals. | ||
c) The resulting signals will be displayed using an impedance plane presentation with one axis representing the lift-off signal and the other axis representing the reference notch and flaw signal responses. | ||
d) The gain control on each axis displaying the flaw signals shall be adjusted to present amplitude for the flaw signal from the deepest notch to be at least 100% of the vertical or horizontal display it is presented on. | ||
60 |
Considerando a figura VI-850 do item VI-850 TECHNIQUE do apêndice MANDATORY APPENDIX VI - EDDY CURRENT DETECTION AND MEASUREMENT OF DEPTH OF SURFACE DISCONTINUITIES IN NONMAGNETIC METALS WITH SURFACE PROBES do ASME BPVC Sec V Art 8 2013 qual dos descritivos a seguir não é verdadeiro?
|
[STD] |
a) Note that the display may be rotated to show these indications in accordance with the procedure. | ||
b) Typically, the gain setting on the axis displaying the discontinuity signal will have a gain setting higher than the axis displaying lift-off. | ||
c) Discontinuity indications will be mostly vertical or horizontal (at 0 deg to lift-off). | ||
d) Any surface discontinuities in the examination specimen would provide similar indications. | ||
61 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
62 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
63 |
![]() |
[STD] |
a) 40% | ||
b) 30% | ||
c) 20% | ||
d) 10% | ||
64 |
![]() |
[STD] |
a) 45 graus | ||
b) 90 graus | ||
c) 180 graus | ||
d) 360 graus | ||
65 |
![]() |
[ECM] |
a) diameter of the coil inside the probe | ||
b) procedure identification and revision | ||
c) examination personnel identity, and, when required by the referencing Code Section, qualification level date of examination | ||
d) results of examination and related sketches or maps of indications exceeding acceptance standard | ||
66 |
![]() |
[ECM] |
a) identification of part or component examined | ||
b) identification of the unit where the part or component examined belongs | ||
c) identification of reference specimen | ||
d) calibration results, minimum and maximum discontinuity depth measured | ||
67 |
![]() |
[STD ] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
68 |
![]() "A single or multiple frequency technique may be used. The frequency(s) shall be selected to result in an impedance plane presentation of _______________ phase shift between the surface and subsurface notch indications." |
[STD ] |
a) 90 deg to 180 deg | ||
b) 45 deg to 90 deg | ||
c) 0 deg to 90 deg | ||
d) 180 deg to 360 deg | ||
69 |
Na figura VII-830.5 Reference Specimen do apêndice MANDATORY APPENDIX VII - EDDY CURRENT EXAMINATION OF MAGNETIC AND NONMAGNETIC CONDUCTIVE METALS TO DETERMINE IF FLAWS ARE SURFACE-CONNECTED do ASME BPVC Sec V Art 8 2013, o ajuste do ganho deve ser feito para:
|
[STD ] |
a) The ET instrument shall be adjusted to rotate the phase for the lift-off response to be positioned at the 270 deg horizontal plane. Scanning shall be conducted perpendicular to the length of the notches. The gain shall be set to display the 0.020 in. (0.5 mm) deep surface notch at 50% full screen height. At this gain setting, the 0.010 in. (0.24 mm) deep surface notch should be displayed at approximately 25% full screen height. | ||
b) The ET instrument shall be adjusted to rotate the phase for the lift-off response to be positioned at the 270 deg horizontal plane. Scanning shall be conducted perpendicular to the length of the notches. The gain shall be set to display the 0.020 in. (0.5 mm) deep surface notch at 100% full screen height. At this gain setting, the 0.010 in. (0.24 mm) deep surface notch should be displayed at approximately 10% full screen height. | ||
c) The ET instrument shall be adjusted to rotate the phase for the lift-off response to be positioned at the 270 deg horizontal plane. Scanning shall be conducted perpendicular to the length of the notches. The gain shall be set to display the 0.020 in. (0.5 mm) deep surface notch at 100% full screen height. At this gain setting, the 0.010 in. (0.24 mm) deep surface notch should be displayed at approximately 25% full screen height. | ||
d) The ET instrument shall be adjusted to rotate the phase for the lift-off response to be positioned at the 270 deg horizontal plane. Scanning shall be conducted perpendicular to the length of the notches. The gain shall be set to display the 0.020 in. (0.5 mm) deep surface notch at 10% full screen height. At this gain setting, the 0.010 in. (0.24 mm) deep surface notch should be displayed at approximately 100% full screen height. | ||
70 |
A figura é a reprodução da tela do aparelho esperada para qual material ensaiado pelo apêndice MANDATORY APPENDIX VII - EDDY CURRENT EXAMINATION OF MAGNETIC AND NONMAGNETIC CONDUCTIVE METALS TO DETERMINE IF FLAWS ARE SURFACE-CONNECTED do ASME BPVC Sec V Art 8 2013?
|
[STD] |
a) Duplex Steel at Examination Frequency of 800 kHz | ||
b) Super Duplex Steel at Examination Frequency of 800 kHz | ||
c) Carbon Steel at Examination Frequency of 800 kHz
|
||
d) Stainless Steel at Examination Frequency of 800 kHz | ||
71 |
A figura é a reprodução da tela do aparelho esperada para qual material ensaiado pelo apêndice MANDATORY APPENDIX VII - EDDY CURRENT EXAMINATION OF MAGNETIC AND NONMAGNETIC CONDUCTIVE METALS TO DETERMINE IF FLAWS ARE SURFACE-CONNECTED do ASME BPVC Sec V Art 8 2013?
|
[STD] |
a) Duplex Steel at Examination Frequency of 800 kHz | ||
b) Super Duplex Steel at Examination Frequency of 800 kHz | ||
c) Carbon Steel at Examination Frequency of 800 kHz | ||
d) Stainless Steel at Examination Frequency of 800 kHz | ||
72 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
73 |
![]() |
[STD] |
a) eddy current para ACFM | ||
b) nonmagnetic para nonferromagnetic | ||
c) Heat exchangers para Boilers | ||
d) Tubing para tube | ||
74 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
75 |
![]() |
[STD] |
a) II | ||
b) IV | ||
c) V | ||
d) VI | ||
e) VIII | ||
76 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True or False | ||
d) True and False | ||
77 |
![]() |
[STD] |
a) True | ||
b) False | ||
c) True and False | ||
d) True or False | ||
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