Yield Strength (YS = yield strength or proof stress)
YS  |  US |  UK |  France |  Germany |  China |  Russia |  Japan |  Australia |  Sweden |
| 550MPa | HY80 | Q1N | 1.3964 | * 1) NS56 | |||||
| 590MPa | 60HLES | 921A TA5-A | AK-25 48-OT3 | ||||||
| 630MPa | 1.3974 | ||||||||
| 690MPa | HY100 | Q2N | AB-2 | * 2) NS70 | |||||
| 700MPa | 80HLES | BIS812 EMA | Weldox 700 | ||||||
| 785MPa | 980 | AK-29 | NS80 | ||||||
| 890MPa | HY130 | 100HLES | AB-3? | NS90 | Weldox 900 | ||||
| 980MPa | AK- ?? | ||||||||
| 1078MPa | * 3) HY156 | NS110 | |||||||
| 1175MPa | AK- ?? |
* 1) steel of 550MPa and NS56 is equivalent to HY80 grade steel.
* 2) steel of 690MPa and NS70 is equivalent to HY100 grade steel.
* 3) steel 1078MPa and NS110 is equivalent to the HY156 grade steel.
The Table is from towards the end of Japanese Document "High-tensile steel Summary of national submarine" or Summary of High Tensile Steel for Submarines by Country 2013 http://seesaawiki.jp/w/doramarine/ .
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"S" has identified the document below which provides a comprehensive summary of some nuclear and conventional submarine pressure hull steel (and some Titanium) strengths. This is for at least 11 major submarine producing countries. The document is attributed to a vast number of open sources.
The higher the yield (stronger) the steel alloy or Titanium alloy in a submarines pressure hull the deeper it can dive in operations. As well as alloy strength other factors also influence diving depth including:
- supports for the the pressure hull
- compartments or multiple pressure hulls, and
- strength of the welds used to join sections of the pressure hull.
It is not possible to verify the accuracy of most of the figures. Commenters who know more are invited to supply corrections.
Please connect with Submarine Matters"Previous Use of Titanium in Russian Submarines" July 14, 2015 http://gentleseas.blogspot.com.au/2015/07/previous-use-of-titanium-in-russian.html.
Document Link
Click http://seesaawiki.jp/w/doramarine/ - document will appear to be mainly in Japanese - if you have Windows right click mouse - then click Translate to English (or Russian or Chinese etc). The English translation is not great - which is why I have provided a summary of some Chinese and Russian pressure hull strengths below.
Document Name and Year
Document Name and Year
"High-tensile steel Summary of national submarine" or Summary of High Tensile Steel for Submarines by Country 2013.
Summary of Chinese and Russian High Tensile Alloys Pressure Hulls by Submarine Class
Below are some of the details for China and Russia. Many more details are in the Document text.
Utilising converters
- The Japanese NS measure (kgf/mm2) to US (ksi = 1,000 psi) and vice versa http://www.endmemo.com/sconvert/kgf_mm2ksi.php
- psi x 1000 = HY converted to MPa and vice versa http://www.convertunits.com/from/psi/to/MPa .
Chinese Submarine pressure hulls
Type 093 "Shang" class SSN (2 or 3 active) and Type 094 "Jin" class SSBN (4 active) "980" steel which has a strength between 784MPa and 802MPa = average of 793MPa = NS81 = HY115
Type 039 "Song" class SSK (13 active) and possibly Type 039A "Yuan" class SSK (13 active, 7 building) 921A steel: strength 590MPa = NS60 = HY86
Chinese GJB944-90 Titanium alloy (TA5-A) strength 588MPa = NS60 = HY85 seems to be the equivalent to Russian 48-OT3 Titanium alloy.
Russian submarine pressure hulls
Akula class SSN commissioned 1991 onwards, ten still active (possibly uses "AK-33" steel alloy) = 979MPa = NS100 = HY142
Lada class SSK one commissioned 2010 uses "AB-2 "steel: strength 588-686MPa = NS60 - NS70 = HY85 = HY100 (thickness in mm?)
Sierra class SSN one launched 1983, four built, perhaps two still active - uses Titanium alloy hull - average strength 690MPa = NS70 = HY100
Victor class SSN commissioned from 1967 - early Victors (classes I and IIs) may have used "AK-29" steel: strength 784MPa = NS80 = HY114. Eight Victor IIIs still active - may use "AK-33" = 979MPa = NS100 = HY142.
November class SSN in commission 1959-1990 used "K-25" low magnetic steel 588MPa = NS60 = HY85
I'll summarise other parts of the document in the future.
Pete