Determining the wear behavior of H13 steel die during the extrusion process of pure nickel
Author:
Publisher
Elsevier BV
Subject
General Engineering,General Materials Science
Reference42 articles.
1. Improvement of tribological behavior of H-13 steel by optimizing the cryogenic-treatment process using evolutionary algorithms;Sanjeev;Tribol. Int.,2019
2. Effect of cobalt-based coating microstructure on the thermal fatigue performance of AISI H13 hot work die steel;Yang;Appl. Surf. Sci.,2020
3. Surface modification of AISI H13 steel by die-sinking electrical discharge machining and TiAlN coating: a promising hybrid technique to improve wear resistance;da Silva;Wear,2020
4. The influence from shape and size of tool surface defects on the occurrence of galling in cold forming of aluminium;Heinrichs;Wear,2011
5. The recrystallization model and microstructure prediction of alloy 690 during hot deformation;Jiang;Mater. Des.,2016
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3. Effect of Interface Friction on Surface Integrity and Microstructure during Extrusion of Pure Nickel;Advanced Engineering Materials;2023-03
4. Prediction and Optimization of Wear Depth on Rectangular Tube Surface in Roll Forming;Metals;2022-12-26
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