Structure of Near-Surface Layer of High-Strength Steel Subjected to Abrasive Waterjet Cutting

2018 ◽  
Vol 119 (9) ◽  
pp. 871-879
Author(s):  
T. I. Tabatchikova ◽  
N. A. Tereshchenko ◽  
I. L. Yakovleva ◽  
N. Z. Gudnev
Keyword(s):  
Surface Layer ◽  
High Strength Steel ◽  
High Strength ◽  
Abrasive Waterjet ◽  
Near Surface ◽  
Waterjet Cutting ◽  
Abrasive Waterjet Cutting

Quality formation of the surface layer during abrasive waterjet cutting

2020 ◽  
pp. 53-57
Author(s):  
М.А. Tamarkin ◽  
E.E. Tishchenko ◽  
А.V. Verchenko ◽  
S.A. Novokreschenov
Keyword(s):  
Surface Roughness ◽  
Surface Layer ◽  
Abrasive Waterjet ◽  
Technological Design ◽  
Waterjet Cutting ◽  
Design And Implementation ◽  
Sheet Materials ◽  
Abrasive Waterjet Cutting ◽  
Part Surface ◽  
Quality Formation

The process of waterjet cutting of sheet materials and the obtained treated surfaces is studied. A dependence for determining the roughness of the obtained surfaces is derived, the adequacy of which is confirmed experimentally. Recommendations on technological design and implementation of this processing in production are given. Keywords waterjet cutting, part, surface roughness, [email protected]

Abrasive Waterjet Cutting Simulation Using Coupled SPH-FEA Method

2018 ◽  
Author(s):  
Mohd Izzat Mohd Thiyahuddin ◽  
Nian Wei Tan ◽  
Mazlan Dindi ◽  
M Ikhranizam M Ros ◽  
M Zhafran Sulaiman ◽  
...  
Keyword(s):  
Abrasive Waterjet ◽  
Cutting Simulation ◽  
Waterjet Cutting ◽  
Abrasive Waterjet Cutting

Enhanced Reconditioning of Heavy-Duty Pulp Industry Equipment

2020 ◽  
pp. 219-235
Author(s):  
Armando Lopes Ramalho ◽  
Agostinho da Silva ◽  
Marcelo Calvete Gaspar ◽  
Carlos Capela ◽  
Luis Celorrio-Barragué ◽  
...  
Keyword(s):  
Mechanical Properties ◽  
Production Process ◽  
Manufacturing Process ◽  
Cutting Process ◽  
Abrasive Waterjet ◽  
Heavy Duty ◽  
Waterjet Cutting ◽  
Pulp Industry ◽  
Material Characteristics ◽  
Abrasive Waterjet Cutting

Within a pulp industry production process, a drop in the performance of a wood log rotary debarker was identified. Such loss of performance was due to the occurrence of excessive wear of the device's cutting blades, requiring their regular and premature replacement. The material used to manufacture the cutting blades, Hardox 500, has characteristics considered adequate for the required use. However, it was concluded that the blade manufacturing process degraded its mechanical properties, leading to its premature wear when placed in service. The present study intends to propose, characterize, and validate an alternative cutting process to manufacture the debarker's cutting blades. Abrasive waterjet cutting technology was proposed to produce the cutting blades. The suitability of this manufacturing process is discussed considering the specified geometry and the material characteristics of the resulting cutting blades.

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