Alloy738
Alloy738 Chemical composition:
Ni | C | Cr | Co | Mo | AI | Ti | B | Zr | Fe | Mn | Si | P | S | Cu | |
Min | Bal | 0.03 | 18 | 12 | 3.5 | 1.6 | 2.75 | 0.003 | 0.02 | ≤ | |||||
Max | 0.1 | 21 | 15 | 5 | 1.2 | 3.25 | 0.01 | 0.08 | 2 | 0.1 | 0.15 | 0.015 | 0.015 | 0.1 |
Alloy738 Physical properties:
Density | 8.22g/cm³ |
Melting point | 1330~1360℃ |
Magnetic properties | not |
Linear expansion coefficient
θ/℃ | 20~100 | 20~200 | 20~300 | 20~400 | 20~500 | 20~600 | 20~700 | 20~800 | 20~900 |
α/(10-6℃-() | 12.47 | 12.73 | 13.04 | 13.53 | 13.97 | 14.47 | 15.05 | 15.68 | 15.95 |
Resilient performance
θ/℃ | 20 | 100 | 200 | 300 | 400 | 500 | 600 | 700 | 800 | 850 | 900 |
Ed/GPa | 224 | 219 | 213 | 206 | 200 | 193 | 185 | 178 | 169 | 一 | 156 |
E/GPa | 215 | — | — | 一 | 一 | 178 | 166 | 137 | 126 | 113 | 一 |
G/GPa | 85 | 一 | 一 | 一 | 一 | 一 | 71 | 67 | 62 | 一 |
Alloy738 Mechanical properties:
Standard number and variety | Specimen status | Plate thicknessδ/mm | Tensile properties | 730℃Long-lasting performance | Room temperature hardness | |||||
θ/℃ | σb/MPa | σp0.2/MPa | δ₅/% | σ/MPa | τ/h | δ₅/% | ||||
QJ/DT01.6
3026Cold-rolled strip |
Supply status | ≤0.40 |
20 |
≤1035 | ≤585 | ≥25 | ≤100HRBor
Equivalent |
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>0.40 | ≤1000 | ≤550 | ≥35 | ≤100HRBor
Equivalent |
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QJ/DT01.63 026Cold-rolled strip |
Supply status+995℃±15℃× 2.0h±0.25h/AC
Or faster cold ten stabilization ten aging > |
≤0.50 | 20 | ≥1170 | ≥760 | ≥15 | — | 一 | 一 | (34~44)HRCor
Equivalent |
540 | ≥1000 | ≥690 | >13 | 一 | 一 | 一 | — | |||
>0.50 | 20 | ≥1205 | ≥795 | ≥20 | (34~44)HRCor
Equivalent |
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540 | ≥1035 | ≥725 | ≥15 | 一 | — | — | — | |||
0.40~0.50 | — | 一 | 一 | 一 | 430 | ≥23 | ≥4 | — | ||
>0.50 | — | 一 | 一 | 一 | 430 | ≥23 | ≥4 | 一 |
Alloy738 Alloy properties:
High temperature strength:HuaNickel Alloy738 and GH738 nickel-base superalloy have excellent high temperature strength and can maintain good mechanical properties in high temperature environments. This allows the alloy to withstand stress and deformation at high temperatures, ensuring the normal operation of the equipment.
Corrosion resistance: The alloy has good corrosion resistance and can resist the erosion of a variety of corrosive media. This allows the alloy to maintain stable performance in harsh working environments, extending the life of the equipment.
Oxidation resistance: HuaNickel Alloy738 and GH738 nickel-base superalloy have good oxidation resistance and can maintain stable performance in high-temperature oxidation environment. This enables the alloy to maintain good mechanical properties and corrosion resistance under high-temperature oxidation conditions, improving the reliability of the equipment.
Processability: HuaNickel Alloy738 alloy has good machinability and can adapt to a variety of complex processing processes. This enables the alloy to meet the requirements of different fields for the shape and size of parts, improving production efficiency and product quality.
Alloy738 Uses of alloys:
It is widely used in the field of rotating parts of aviation, aerospace, petroleum, chemical industry and power generation equipment, such as compressor blades, turbine discs, valve bodies, ring parts and shafts and other rotating parts.
Alloy738 Process performance:
Welding process: The alloy is difficult to weld and can be welded by argon arc welding. Generally, it is welded in a solution state and the same alloy is used as the welding wire.
The high-temperature strength of the weld after heat treatment is slightly lower than that of the base metal after heat treatment, so the weld should not be in a high-stress position. In addition, because the alloy has thermal brittleness and strain crack susceptibility, welding should be carried out in a solid solution state, and the welded parts should be solution treated again.
Relevant standards:
GB/T14992、 HB/Z140、 Q/5B4017、QJ/DT 01.63026 、QJ/DT 01.63056、 QJ/DT 01.63080、 QJ/DT 01.63099