Font Size:
a
A
A
Keyword [quenching-partitioning]
Result: 1 - 20 | Page: 1 of 3
1.
High Product Of Strength And Elongation Of Steels Treated By Quenching-PartitioningTempering Process And The Mechanism Of Strength And Ductility
2.
High Strength-ductility And Engineering Realization Of A Novel Quenching-Partitioning-Tempering (Q-P-T) Steel
3.
Microstructure-based Finite Element Simulation Of Strain-induced Martensitic Transformation
4.
Heat Treatment Of A New Type Of Modified Ultrahigh Carbon Wear-resistant Steel
5.
Influence Of The Surface Groove Morphology On The Mechanical Behavior And Formability Of Q-P-T Steels
6.
A New Q-P-T Heat Treatment Process Of Research
7.
A Study Of Cast Steels And Heat Treatment For Trough Walls Of Scraper Conveyors
8.
The Mechanism Of Hydrogen Embrittlement And Improvement Method For Q-P-T Steel
9.
Martensitic Transformation Crystallography And Finite Element Simulation Of Microstructure In Steels
10.
Mechanism Of Ductility Enhancement Of An Advanced High Strength-ductility Q-P-T Steel And Its Dynamic Mechanical Properties
11.
Research On Microstructures And Properties Of Quenching-partitioning-tempering Medium Carbon Steels With The Addition Of Nb And Cu
12.
Influence Of Novel Q-P-T Process And Traditional Q&t Process On Residual Stress And Structure And Properties
13.
Investigations On Hot Stamping Technology Based On Quenching&Partitioning (Q&P) Process
14.
Research On Microstructures And Mechanical Properties Of Hot Rolled Quenching And Partitioning Steels With Trip Effect
15.
Study Of Q&P Heat Treatment On Microstructure And Properties Of Low Alloy Wear Resistant Steel
16.
Research On The Quenching- Partitioning(Q&P)steel Microstructure And Properties
17.
Microstructures And Properties Of Nitrided Metastable 38CrMoAl Steel
18.
Microstructure And Mechanical Properties Of Low Carbon Silicon Manganese Steel Treated By Austempering And By Quenching-Partitioning Processes
19.
Study On Deformation Mechanism Of Medium Manganese Steel Based On Q-P-T Process
20.
The Relationship Between Microstructure And Properties Of Bainite/Martensite Multiphase Steel Under New Heat Treatment Process
<<First
<Prev
Next>
Last>>
Jump to