By visiting this site, you accept the use of cookies. More about our cookie policy.

Alloy ХН58МБЮД (EK61)

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 ХН58МБЮД
Designation GOST Latin XH58MBJuD
Transliteration HN58MBYuD
The chemical elements CrNi58CuBeAlД
Name The value
Designation GOST Cyrillic ЭК61
Designation GOST Latin EK61
Transliteration EhK61
The chemical elements -

Description

Alloy ХН58МБЮД used: for the manufacture of parts of instruments and equipment operating in cryogenic environments; blades of nozzle units and gas turbines.

Standards

Name Code Standards
Metal forming. Forgings В03 TU 14-1-4025-85
Sheets and stripes В33 TU 14-1-4381-87
Sectional and shaped rolling В32 TU 14-1-5045-91, TU 14-1-3763-84

Chemical composition

Standard C S P Mn Cr Si Ni Fe Cu Al V Ti Mo Nb Ce Zr La
TU 14-1-5045-91 ≤0.05 ≤0.015 ≤0.015 ≤0.7 14.5-18.5 ≤0.5 The rest 12-16 0.1-1 0.5-1.3 0.3-0.6 0.2-1 3-5 4-5.5 0.02 ≤0.1 0.01
TU 14-1-3763-84 ≤0.05 ≤0.02 ≤0.02 ≤0.7 14.5-18.5 ≤0.5 The rest 12-16 0.1-1 0.5-1.3 0.3-0.6 0.2-1 3-5 4-5.5 0.02 ≤0.2 0.01
Ni is the basis.
According to TU 14-1-5045-91 the chemical composition is given for the alloy grade KhN58MBYUD-ID (EC61-ID) and XH58MBY-VD (EC61-VD). In the alloy, no more than 0.020% of cerium is calculated and lanthanum is not more than 0.010%. The calculated content of cerium, lanthanum and zirconium is not determined by chemical analysis. In the finished metal, deviations from the mass fraction of elements along carbon by +0.010% and vanadium by ± 0.10% are allowed.
According to TU 14-1-4025-85, TU 14-1-3763-84, the chemical composition is given for the alloy grade KhN58MBYUD-ID (EC61-ID) and XH58MBY-VD (EC61-VD).

Mechanical characteristics

Section, mm sT|s0,2, MPa σB, MPa d5, % y, % kJ/m2, кДж/м2
The bars as supplied on the other 14-1-3763-84 (in cross-section show the direction of cutting out of samples)
20-25 ≥900 ≥1200 ≥20 ≥40 ≥490
20-25 ≥900 ≥1200 ≥20 ≥40 ≥590
20-25 ≥580 ≥700 ≥8 ≥12 -
The bars as supplied on the other 14-1-5045-91. Annealing in air from 980-1000 °C (exposure for 1 hour) + Aging 715-745 °C (aging 15 hours), cooled with the furnace to 640-660 °C (excerpt 10 hours), air cooling
20-25 ≥885 ≥1180 ≥20 ≥40 -
20-25 ≥539 ≥670 ≥5 ≥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 the alloy should not have shrinkage and looseness, bubbles, cracks, inclusions, delaminations, visible without using the magnifying devices.

Our consultant will save your time

+49 (170) 650 7006
Telegram:
WhatsApp:

Subscription

Special offers and discounts. :)