Alloy ХН65КМВЮБ (ЭП800)
Alloy KhN66VMTYUB (EI698MP; VZH136)
Alloy KhN67VMTU (EP202; KhN67MVTU)
Alloy KhN65KMVYUB (EP800)
Alloy CrN65VMYUTL (EI893L)
Alloy KhN65VMTU (EI893)
Alloy CrN65VMMBU (EP914; VZH131)
Alloy CrN65VBMYu (EP902)
Alloy KhN62MVKYu (EI867)
Alloy KhN62VMYUT (EP708)
Alloy KhN62VMKU (EI867)
Alloy KhN62BMKTU (EP742)
Alloy CrN62BMVY (EP709)
Alloy KhN60MYUVT (EP539)
Alloy KhN60MVTU (EP487)
Alloy KhN60M (EP367; 06Kh15N60M1)
Alloy KhN60KMYUVTB (EC9)
Alloy CrN60KMYUBVTF (EP962)
Alloy KhN60KVYUMB (EP957)
Alloy KhN59VG (EK82)
Alloy KhN58MBYUD (EK61)
Alloy KhN58MBYu (EK171; VZH159)
Alloy KhN58VMKYR (EP238)
Alloy KhN57MTVU (EP590)
Alloy KhN73MBTU (EI698)
Alloy EP539LMU
Alloy ChS70
Alloy ChS104
Alloy CNK7
Alloy KhN80TBY (EI607; KhN80T1BY (EI607A))
Alloy KhN80 (EI334)
Alloy KhN77TURU (EI437BU)
Alloy KhN77TUR (EI437B)
Alloy KhN75TBU (EI869)
Alloy KhN75VMU (EI827)
Alloy CrN75VMFU (EI827)
Alloy KhN57MKYUVTBR (EP958)
Alloy KhN71MTYUB (EI698P)
Alloy KhN70MVU (EI828)
Alloy KhN70MVTYUB (EI598)
Alloy KhN70VMYUT (EI765)
Alloy CrN70VMFTU (EI826)
Alloy CrN70VMTUF (EI826; CrN70VMTUF)
Alloy KhN70VMTU (EI617)
Alloy KhN70 (EI442)
Alloy KhN68VMTYUK (EP693)
Alloy KhN67MBYu (EP782)
Alloy VZHL12E
Alloy ZhS6KP
Alloy ZhS30
Alloy ZhS3
Alloy ZhS16
Alloy BC9L
Alloy BC4LM
Alloy BC4L
Alloy VZHL2
Alloy VZhL18
Alloy VZHL16
Alloy VZHL14H (VZHL14)
Alloy ZhS6U
Alloy VZHL12U
Alloy VZhL1
Alloy 67H26M (EI639; NIMO-25)
Alloy 58NHVKTBU (EP877; ХН58VCBTU)
Alloy 50H6MFA
Alloy 50H3CU (EP967)
Alloy 3MI3U
Alloy 10X20H77TU
Alloy 03Х20Н45М4БЧ (ChS42)
Alloy 03X20H45M4BRZ (ChS43)
Alloy KhN52KVMTYUB (EP975P)
Alloy KhN56MBYUD (EK62)
Alloy KhN56VMTU (EP199; VZh101)
Alloy KhN56VMKU (EP109)
Alloy KhN55MVU (EP454)
Alloy KhN55MVTs (ChS57)
Alloy KhN55MBYu (KhN63M9B2u; EP666)
Alloy KhN55VMTFKU (EI929)
Alloy KhN55VMTKU (EI929)
Alloy KhN54KVMTYUB (EP962P)
Alloy KhN53KVMTYUB (EP741P)
Alloy KhN57VKYUTMBL (ZhS6)
Alloy KhN51MTYUKFR (EP220)
Alloy KhN51KVMTYUB (EP741NP)
Alloy KhN50KVMTYUB (BB750)
Alloy KhN50VMTYUB (EP648)
Alloy KhN50VMTKFY (EP57)
Alloy KhN45MVTYUBR (EP718)
Alloy Kh15N60Yu3A (EP548)
Alloy H95S3Yu (EP711)
Alloy H95G (EP18)
Alloy H70M (EP495)
Designation
| Name | The value |
|---|---|
| Designation GOST Cyrillic | ХН65КМВЮБ |
| Designation GOST Latin | XH65KMBJuB |
| Transliteration | HN65KMVYuB |
| The chemical elements | CrNi65CoCuВAlBe |
| Name | The value |
|---|---|
| Designation GOST Cyrillic | ЭП800 |
| Designation GOST Latin | EP800 |
| Transliteration | EhP800 |
| The chemical elements | - |
Description
Alloy ХН65КМВЮБ used: for the manufacture of pellet-prescisely made by hot pressing and intended for subsequent hot forming; details of special equipment; parts aircraft engines and stationary gas turbines operating at 750−800 °C.
Note
Alloy heat-resistant Nickel-based
Standards
| Name | Code | Standards |
|---|---|---|
| Sectional and shaped rolling | В32 | TU 14-1-4834-90 |
Chemical composition
| Standard | C | S | P | Mn | Cr | Si | Ni | Fe | Al | B | Mo | Nb | W | Ce | Co |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| TU 14-1-4834-90 | ≤0.05 | ≤0.01 | ≤0.015 | ≤0.5 | 12-13.5 | ≤0.4 | The rest | ≤3 | 4.2-4.9 | ≤0.01 | 5-6 | 1.5-2 | 4-6 | ≤0.02 | 8.5-10.5 |
Ni is the basis.
According to TU 14-1-4834-90 the chemical composition is given for the alloy KhN65KMVYUB-VD (EP800-VD). Cerium and boron are introduced into the metal by calculation and chemical analysis are not determined. It is possible to replace cerium with other elements of the REM.
According to TU 14-1-4834-90 the chemical composition is given for the alloy KhN65KMVYUB-VD (EP800-VD). Cerium and boron are introduced into the metal by calculation and chemical analysis are not determined. It is possible to replace cerium with other elements of the REM.
Mechanical characteristics
| Section, mm | sT|s0,2, MPa | σB, MPa | d5, % | y, % | kJ/m2, кДж/м2 |
|---|---|---|---|---|---|
| Bars-pressestelle on the other 14-1-4834-90. The longitudinal samples. Five-step annealing of the samples: heated to 1150-1180 °C, maintained for 5 hours, oklejanie (annealing) in air + Heat to 1040-1060 °C, exposure for 2 hours, the cooling (quenching) in air + Heat to 990-1110 °C, exposure for 2 hours, the cooling (quenching) in air + Heat to 890-910 °C, exposure for 2 hours, the cooling (quenching) in air + Heat to 840-860 °C, exposure for 2 hours, the cooling (quenching) in air | |||||
| ≥635 | ≥1080 | ≥14 | ≥15 | ≥294 | |
| ≥588 | ≥810 | ≥8 | ≥12 | - | |
Description mechanical marks
| Name | Description |
|---|---|
| Section | Section |
| sT|s0,2 | Yield strength or limit of proportionality with a tolerance for residual deformation of 0.2% |
| σB | Limit short-term strength |
| d5 | Elongation after rupture |
| y | The relative narrowing |
| kJ/m2 | Toughness |
Technological properties
| Name | The value |
|---|---|
| Macrostructure and contamination | The macrostructure of bars-prescisely should not have traces of shrinkage looseness, cracks, slag inclusions that are visible without using the magnifying devices. |
| Features of production | Bars-pressestelle on the other 14-1-4834-90 are supplied without heat treatment. Bars with a diameter of over 100 mm are subjected to ultrasonic testing. |
