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Smart heat treatment solutions in the aerospace industry

Download AMS2750F Pyrometry Solution Note

AMS2750F pyrometry solutions

Heat treatment is a Nadcap℠ ‘special process’. Any process that can change or alter a part’s material or physical integrity by introducing stresses via mechanical, thermal, or chemical operations may be considered a special process and must be given particular care to avoid potential defects. AMS2750 was created to provide standardized pyrometry requirements (temperature measurement) in the heat treatment of products for the aerospace industry. Organizations need qualified employees and a well-documented set of procedures and approved equipment to provide evidence that proves both the procedure and results of each batch processed. Nadcap acts as the approval body for ‘special processes’ for aerospace manufacturing and is administered by the Performance Review Institute (PRI). Regular audits are undertaken to ensure facilities meet the requirements. AMS2750 is also referenced in other special process standards and has been adopted in different forms for the automotive (CQI9), oil & gas, and other industries.

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AMS2750F overview

The AMS2750 specification covers pyrometry requirements for equipment used in the thermal processing of metallic materials. The following provides an overview of the main sections addressed by Eurotherm products. Please refer to the AMS2750F standards for the full detail (


Thermocouple accuracies
R, S
±1.0°F or ±0.6°C or ±0.1%
J, K, N
±2.0°F or ±1.1°C or ±0.4%

Figure 1

Usage period
Set temp. (°F)
Set temp. (°C)
One use
2300.0 and above
1260.0 and above
Quarterly or 10 uses
2200.0 to 2299.9
1204.5 to 1259.9
Quarterly or 90 uses
1800.0 to 2199.9
982.8 to 1204.4
Quarterly or 180 uses
1200.0 to 1799.9
648.9 to 982.7
Quarterly or 270 uses
500.1 to 1199.9
260.1 to 648.8
Quarterly or unlimited uses
At or below 500.0
Below 260.0

Figure 2

Temperature sensors (section 3.1)

This section in the standard outlines the sensor job, use, type, calibration and accuracy requirements. Figure 1 gives an example of common thermocouple types and accuracy requirements.

Thermocouple construction includes both expendable (any portion of the thermal element exposed to the process environment) and non-expendable thermocouples (thermal element protected from the process environment e.g., metal sheath).

Base-metal non-expendable load thermocouple usage is dependent on temperature. Control thermocouple replacement period should be based on data from SAT, TUS, re-calibration, trend analysis and results.

Control thermocouple replacement period should be based on data from SAT, TUS, re-calibration, trend analysis and results.

Instrument accuracies
Field test
±1.0°F or ±0.6°C or ±0.1%. Shall be digital and have a readability of 0.1°F or 0.1°C.
Control, recording instruments
±2.0°F or ±1.1°C or ±0.2%. Recording instruments shall be digital by 2022-06 and have a readability of 0.1°F or 0.1°C by 2022-06.

Figure 3

Instrumentation (section 3.2)

This section outlines the instrument job, type, calibration and accuracy requirements.

Figures 3 and 4 outline the key instrument type requirements supplied by Eurotherm.

Data recording instruments should be checked annually to the accuracy of ±1 min/h by an external timing device (timing device calibrated every 2 years to ±1 s/min).

A possible alternative is to document digital synchronization to NIST (or equivalent) via satellite, internet, or phone (at least monthly) to support these accuracy requirements.



Calibration intervals
Field test
Control, recording instruments
Class 1 monthly
Control, recording instruments
Class 2,3,4 quarterly
Control, recording instruments
Class 5,6 semiannually
Control, recording instruments
Refrigeration and quench equipment calibration semiannually

Figure 4

Thermal processing equipment (section 3.3)

This section defines the furnace class (1-6) uniformity tolerance and the instrumentation type (A-E).

SAT (section 3.4) describes a probe check to assess the variation from the process control systems with an independent master thermocouple and field instrument.

TUS (section 3.5) is used to assess the temperature variation within a qualified work zone with respect to setpoint temperature.




Furnace class

Figure 5

Sensors per control zone
Type A
Type B
Type C
Type D+
Type D
Type E
Hot & Cold
Additional Record

Figure 6

Heat treatment solutions to help meet AMS2750F

When subject to the necessary field calibration, the following instruments manufactured by Eurotherm are suitable for use in the aerospace industry (Nadcap/AMS2750) and automotive (IATF16949/CQI9 version 4).

Process control or recording (AMS2750F Table 7)

Calibration to meet ±2.0°F or ±1.1°C or ±0.2% of temperature, whichever is greater.

Eurotherm instrument
Model numbers
All models
EPC3016, EPC3008, and EPC3004
With enhanced thermocouple board (ET8)
Control and recording
All models
Control and recording
All models
Control and recording

Figure 7

Field test instruments

6000 series graphical recorder, model numbers: 6100A TUS and 6180A TUS with external CJC and fast-acting accuracy to meet ±1.0°F or ±0.6°C or ±0.1% of temperature, whichever is greater.

¹Devices for use in data acquisition (AMS2750F 3.2.4). Please refer to table below for electronic record solutions. Simple Network Time Protocol (SNTP) is available in the 6000 series graphical recorder, nanodac recorder/controller, PAC system hardware (model numbers T2550, T2750), and Eycon 10/20 visual supervisors to provide digital synchronization to help meet recording timing accuracy.

Electronic records
AMS2750F clause
Tamper evident
Record playback
Records in readable form
Record review
Protection of records
Hardware and software operation
System access
Software revisions

Figure 8

Industry 4.0 ready technology

EcoStruxure is Schneider’s open Internet of Things (IoT) enabled system architecture aiding the digital transformation to Industry 4.0 technology. Eurotherm connected instruments and software fit into this cybersecurity-in-mind designed architecture.

Ecostruxure diagram

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