Gh4169 /Nc19fenb (France) / 2.4668, Nicr19fe19nb5 / Mo3 (Germany) / Na 51 (UK) / Uns No7718 (USA) / Nicr19nb5mo3 (ISO) / Nickel-Chromium-Iron Alloy / Gh169 /

GH169 alloy is a precipitation hardening nickel-chromium-iron alloy containing niobium and molybdenum. It has high strength, good toughness and corrosion resistance in high and low temperature environments at 700 °C.

concept

The alloy is a precipitation hardening nickel-chromium-iron alloy containing niobium and molybdenum. It has high strength at 700°C, good toughness and corrosion resistance in high and low temperature environments. The delivery state can be solution treated or precipitation hardened.

Main features
Ease of processing
High tensile strength, fatigue strength, creep strength and rupture strength at 700ºC
High oxidation resistance at 1000ºC
Stable chemical properties at low temperature
Good welding performance
Because of its high temperature strength, excellent corrosion resistance and easy processability at 700ºC, it can be widely used in various high-demanding occasions.
Acid environment
Nuclear Engineering

Similar grades
GH4169, GH169 (China), NC19FeNb (France), .2.4668, NiCr19Fe19Nb5, Mo3 (Germany), NA 51 (UK) GH169, UNS NO7718 (USA) NiCr19Nb5Mo3 (ISO)

chemical composition

                              Ni  Cr     Fe        C    Mn    Si    Mo  Cu  Co   Al    Ti     Nb      B        P       S
minimum               50  17  margin                           2.8               0.2 0.65  4.75 0.002
maximum value     55  21              0.08 0.35 0.35  3.3  0.3  1.0 0.8  1.15  5.5  0.006  0.015 0.015

Physical properties
Density ρ=8.24g/cm3

Melting temperature range 1260~1320ºC

Machining and Heat Treating

GH169 alloy is easy to machine in various industrial processes.

warm up

The workpiece must be surface cleaned before and during heating to keep the surface clean. If the heating environment contains sulfur, phosphorus, lead or other low melting point metals, GH169 alloy will become brittle. Impurities originate from marked paint, chalk, lubricating oil, water, fuel, etc. The sulfur content of fuel should be low, for example, the impurity content of liquefied gas and natural gas should be less than 0.1%, the sulfur content of city gas should be less than 0.25g/m3, and the sulfur content of petroleum gas should be less than 0.5%.

The heated electric furnace should preferably have a more accurate temperature control ability, the furnace gas must be neutral or weakly alkaline, and the fluctuation of the furnace gas composition in oxidizing and reducing properties should be avoided.

Thermal processing

The suitable hot working temperature of GH169 alloy is 1120-900ºC. The cooling method can be water quenching or other rapid cooling methods. After hot working, it should be annealed in time to ensure the best performance. During hot processing, the material should be heated to the upper limit of the processing temperature. In order to ensure the plasticity during processing, the final processing temperature when the deformation amount reaches 20% should not be lower than 960 °C.

cold working

Cold working should be carried out after solution treatment. The work hardening rate of GH169 is greater than that of austenitic stainless steel, so the processing equipment should be adjusted accordingly, and there should be an intermediate annealing process during cold working.

heat treatment

Different solution treatment and aging treatment processes will result in different material properties. Due to the low diffusion rate of the γ" phase, the best mechanical properties of the GH169 alloy can be obtained by long-term aging treatment.

polished

The oxides near the welds of GH169 workpieces are more difficult to remove than those of stainless steel. They need to be polished with a fine abrasive belt. Before pickling in a mixed acid of nitric acid and hydrofluoric acid, the oxides should also be removed with sandpaper or a salt bath pretreatment. deal with.

machining

Machining of GH169 needs to be carried out after solution treatment, taking into account the work hardenability of the material. Unlike austenitic stainless steel, GH169 is suitable for low surface cutting speeds.

welding

The precipitation hardening GH169 alloy is very suitable for welding and has no tendency to crack after welding. Solderability, ease of processing, and high strength are several advantages of this material.

GH169 is suitable for arc welding, plasma welding, etc. Before welding, the surface of the material should be clean, free of oil stains, chalk marks, etc., and the bright metal should be polished within 25mm around the weld.

Recommended Soldering Materials for Inconel 718:

GTAW/GMAW
Nicrofer S 5219
W.-Nr. 2.4667
SG-NiCr19NbMoTi
AWS A 5.14 ERNiFeCr-2
BS 2901 Part 5: NA 51

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