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A VISUAL AID TO PYROMETRY COMPLIANCE
(A Guide To An Acceptable TUS Report)
February 2010
Reasons for the TUS Report Visual Aid
• To help address the top pyrometry findings• Feedback from HT suppliers in answering
NCR’s:– Struggle to grasp AMS 2750 requirements; particularly newer
suppliers.
• Provides a snap-shot of where the requirements come from in AMS 2750D. (IT DOES NOT INCLUDE ALL REQUIREMENTS.)– Visual aid for newer suppliers– Can be used as a checklist
• Information for the auditor– Condenses many of the requirements onto one page– Feedback from Nadcap auditors
Top Pyrometry Findings The following AC7102C checklist questions
had the most occurrences for NCRs written from Oct 16, 2006 through Jan 3, 2008:
Checklist Question (AC7102E): Occurrences: 10.8.7.1 29 9.20.1 26 9.20.2 24 10.2.10 / 10.2.11 23 10.3.1 22 9.18.1 21 10.8.1.3 17 10.4.4 16 10.6.2 16 9.24.4 16
6 out of the 10 are from TUS
Top Pyrometry Findings• Question 10.8.7.1 Does documentation of the performed TUS include as a minimum:
(requirements of the TUS report).
• Questions 10.2.10 / 10.2.11 Do procedures specify when correction factors are to be used? Is
the application documented in clear and unambiguous terms?
• Question 10.3.1 Do all test instruments have a digital display and output, and meet
the readability, calibration frequency, and accuracy requirements of Table 3 of AMS 2750D or more stringent customer requirements?
• Question 10.8.1.3 Do procedures and documentation exist to demonstrate that test
frequencies and test temperatures meet AMS 2750D Table 8 or 9, or more stringent customer requirements, on both a periodic and annual basis?
Top Pyrometry Findings• Question 10.4.4 Do instrument calibration records and stickers show
conformance to the requirements of AMS 2750, or more stringent customer requirements?
• Question 10.6.2 Are the furnaces instrumented for the Instrumentation Type
identified by the supplier?
• Number 1 TOP FINDING 10.8.7.1 The temperature uniformity survey data and summary reports
for all aerospace approved furnaces did not include the test instrument calibration correction factors in accordance with AMS2750D, paragraph 3.5.20.1.
3.5.13.1
S/N Accuracy
Table 3
S/N Accuracy
Table 3
S/N Accuracy
Table 3
S/N Type Readability Accuracy
Digital 3.2.3 Table 3
Load High / Low
Time In Furnace Time Stabilized/Start Time Finish Time
Initial or Perodic TUSDate of TUS
Control
3.1.1.3 3.1.1.1
Analog or Digital
3.2.5.5, Table 3, Note 4
3.2.5.5, Table 3, Note 4
V. Furnace Thermocouples Required by Instrument Type 3.5.13.3.23.5.13.1, Table 11
3.5.13.3 3.5.13.3.3
VII. TUS Test InformationTemperature Set Point
3.5.5 and 3.5.6Tables 8, 9 3.5.5, 3.5.6
3.5.20.1 Table 3 Table 3
Calibration Report Number of sensors
3.1.5, Table 1 3.1.1.3
Table 3, Note 5
III. TUS Test InstrumentMake and Model Correction Factor Calibration Date Calibration Due Date
Table 3, Note 5
Sensitivity
3.2.5.5, Table 3, Note 4
Table 3, Note 5
Calibration Date
Table 3, Note 5 Table 3, Note 5
Make and Model Calibration Date Calibration Due Date
Table 3, Note 5
Type Sensitivity
Analog or Digital
II. Furnace Control, Monitoring, Recording Instruments Make and Model Calibration Date Calibration Due DateType Sensitivity
3.3.1.1 - 3.3.1.6 3.3.1Load Condition TUS Fixture or Load Identification Furnace Class Instrumentation Type
Heat Method
3.5.21.1 3.5.13.2.1 - 3.5.13.2.3, Table 11 8.2.40 and Table 11 3.5.8, 3.5.11 and 3.5.12 ElectricIdentification Work Zone Dimensions Work Zone Volume
I. Thermal Procesing Equipment VI. Sensor Location and Identification
Calibration Due DateMake and Model
Furnace Atmosphere
Temperature Tolerance
3.5.10 3.5.10, 3.5.10.1, 3.5.21.1 3.3.1
Document No: XXX
Temperature Uniformity Survey Report 3.5.21.1 Page
Controlling Processing Specifications: AMS 2750D, HT5086, All temperature recordings are in ºF.
Analog or Digital
Type
Next TUS Due Date Qualif ied Operating Range
IV. TUS ThermocouplesType Serial Number Calibrated Range Correction Factor
Company Logo
TUS Report Visual Aid
Temperature Uniformity Survey Report
BACK TO TABLE
I. Thermal Processing Equipment
• Identification: – Unique identifier tying the furnace to calibration history and
data (par 3.5.21.1).– Can use name and/or number.
• Work Zone Dimensions and Volume: – To define the qualified work zone boundaries and to
determine the number and location of TUS thermocouples (par 3.5.13.2.1, 3.5.12.2.2, 3.5.13.2.3,Table 11).
BACK TO TABLE
I. Thermal Processing Equipment
• Furnace Atmosphere: – Defines the atmosphere that will be used for the TUS. It
shall be the normal atmosphere used in production except as noted in paragraph 3.5.11.
• Load Condition:– Load condition (rack, production load, etc.) must be
established during initial TUS so that all subsequent surveys shall be conducted in like manner (par 3.5.10) .
BACK TO TABLE
I. Thermal Processing Equipment• TUS Fixture or Load Identification:
– Used to determine that the qualified work zone meets the required uniformity range.
– Ties the initial TUS to all subsequent periodic/annual surveys (par 3.5.10, 3.5.10.1, 3.5.10.2).
– Detailed diagram, description or photograph(s) required (par 3.5.21.1).
• Furnace Class and Instrument Type:– The controlling processing specifications determine the
minimum required temperature uniformity range and defines the Class. (par 3.3.1).
– Defines the SAT and TUS intervals, the instrument/sensor configuration/resolution, (par 3.3.1, 3.3.1.1 - 3.3.1.6; Tables 3, 6, 7,
8, 9).
BACK TO TABLE
II. Furnace Instrumentation• Control, Monitoring, Recording Equipment
must be calibrated:– Accuracy is based on type of instrument (analog or digital). – Calibration interval is based on the furnace class and on the
type of instrument (Table 3, Note 5).
• Control, Monitoring, Recording Equipment must be tested for sensitivity:– Minimum sensitivity is based on furnace class (Table 3, Note
4).– Definition: The temperature change in the input that is
required to activate a change on the instrumentation.
BACK TO TABLE
III. TUS Test Instrument• A TUS test instrument shall be:
– Digital – Have a minimum readability of 1oF or 1oC (par 3.2.3). This
includes recording test instrumentation.– Maximum calibration frequency is 3 months (Table 3).
• Correction factors:– Correction factors must be included in the test instrument
calibration (par 3.5.20.1).
BACK TO TABLE
IV. TUS Thermocouples• Type:
– When choosing the type of sensor, consider whether it will be expendable/nonexpendable, base or noble metal. This determines usage and recalibration requirements (par 3.1.5.2, 3.1.1.10, Table 1).
• Correction Factor:– Be sure to understand whether the certification is reporting
error deviation or correction factor.– Their application is to be documented in clear and
unambiguous terms.– No extrapolation above or below calibration data listed on
the certifications.
BACK TO TABLE
IV. TUS Thermocouples• Calibration Report Number:
– Thermocouples shall have a certificate of compliance as stated in paragraph 3.1.1.1.
• Calibrated Range:– Sensors shall be calibrated in the temperature range within
which they are to be used (par. 3.1.1.3).– Interval between any two test points must be not greater
than 250 deg. F or more stringent customer requirement (par. 3.1.1.3, Table 1.)
• Number of Thermocouples:– Based upon work space volume and furnace class (Table 11).
BACK TO TABLE
V. Furnace Thermocouples Required by Instrument Type
• Depending on instrument type, load sensors and/or high and low sensors are required for the TUS.
• Attach to or insert load sensors to heat sinks that meet 3.5.10.1.
• Maintain same method of surveying as performed for initial TUS.
BACK TO TABLE
VI. Diagram of Thermocouple Location and Identification
• Sensor location must be unambiguous. This is required so as to properly analyze the TUS data (par 3.5.21).
• Show location of furnace sensors required by applicable instrumentation type such as high/low sensors (par 3.5.13.3.2).
• A detailed diagram, description, or photograph(s) of any load or rack used.
BACK TO TABLE
VII. TUS Test Information• Next TUS Due Date:
– Frequency based upon furnace class and instrument type as defined in Table 8 or 9.
• Qualified Operating Range:– Define the qualified operating range(s) with 600 deg. F
intermediate ranges max. (par 3.5.5 and 3.5.6).
• Initial or Periodic TUS:– Establishes what set temperatures can be used for the TUS.– At least once within each calendar year, periodic tests to be
performed at minimum and maximum of each qualified operating temperature range (par 3.5.6).
BACK TO TABLE
VII. TUS Test Information• Time Stabilized / Start Time:
– It is required that TUS data must be collected from all furnace sensors required by the applicable instrument type (par 3.5.13.3.2).
– TUS data collection shall begin before the first furnace or TUS sensor reaches the lower tolerance limit of each test temperature (par 3.5.13.3.1).
– Stabilization, recovery or recurrent temperature pattern must not exceed the time limit specified in any applicable process specification (par 3.5.17.1).
BACK TO TABLE
VII. TUS Test Information• Finish Time:
– TUS sensors shall be recorded at a frequency of at least one set of all readings every two minutes for the duration of the survey (par 3.5.13.3.2 and 3.5.13.3).
– Duration of the survey is 30 minutes minimum after stabilization (par 3.5.13.3).
– Recording frequency of furnace sensors required by the applicable instrumentation type may be up to 6 minutes as defined in paragraph 3.5.13.3.2.
BACK TO TABLE
TUS Report SummaryFurnace Uniformity
Furnace uniformity resulting from the TUS: +XX / -XX deg F.Overshoot: None observed.
******************************************************************************Report Summary
Are the TUS test results acceptable per applicable specification requirements? A “No” response requires explanatory comment in the
notes section.
Yes ___ No ___
Notes:1) Furnace TUS test results were within the required ±XXºF tolerance.
No adjustments were necessary.
______________________________________Signature of Technician and Date
______________________________________Quality Assurance Acceptance and Date