Add to ORKGThe paper deals with the calculation of the optimal traverse speed for diff erent types of materials, which is very important for predication, imaginings and dimensioning of technological factors and selection of the materials with the aim to increase of surface quality at abrasive waterjet cutting (AWJ) technology. The surface irregularities of the experimental used materials AISI 304, AISI 309 have been measured by non-contact shadow method. New empiri-cally compiled equations of the infl uence of the traverse speed on tensometrical state of cut, deformation resist-ance of material and surface roughness Ra are at AWJ cutting available
The abrasive water jet cutting technology is a new and modern technology which uses an abrasive mate...
The paper deals with the cutting of agglomerated materials with an abrasive water jet from the point...
Abrasive waterjet machining (AWJM) can perform various machining operations on almost any material i...
The paper deals with the calculation of the optimal traverse speed for diff erent types of materials...
The submitted paper aims to clarify the abrasive waterjet technology, particularly from the point of...
Experimental study of the surface quality produced by abrasive waterjet (AWJ) on metallic materials ...
The paper deals with tangential abrasive water jet (AWJ) turning of Incoloy alloy 925. The aim of t...
The article focuses on the normalized method of measurement and evaluation of a surface texture cre...
AbstractIn the present paper, the effects of material thickness, traverse speed and abrasive mass fl...
This article presents results of comparative studies into the roughness (very significant tribologic...
The effects of the main operational machining parameters on the material removal rate (MRR) in abras...
The article presents a review of research methods for the cutting process using the abrasive waterje...
The usage of abrasive waterjets has been established in many fields of industrial production. Still ...
AbstractThis paper describes problem during water jet cutting with low (different) surface roughness...
Currently, more than 50 000 different construction materials are available on the market and that nu...
The abrasive water jet cutting technology is a new and modern technology which uses an abrasive mate...
The paper deals with the cutting of agglomerated materials with an abrasive water jet from the point...
Abrasive waterjet machining (AWJM) can perform various machining operations on almost any material i...
The paper deals with the calculation of the optimal traverse speed for diff erent types of materials...
The submitted paper aims to clarify the abrasive waterjet technology, particularly from the point of...
Experimental study of the surface quality produced by abrasive waterjet (AWJ) on metallic materials ...
The paper deals with tangential abrasive water jet (AWJ) turning of Incoloy alloy 925. The aim of t...
The article focuses on the normalized method of measurement and evaluation of a surface texture cre...
AbstractIn the present paper, the effects of material thickness, traverse speed and abrasive mass fl...
This article presents results of comparative studies into the roughness (very significant tribologic...
The effects of the main operational machining parameters on the material removal rate (MRR) in abras...
The article presents a review of research methods for the cutting process using the abrasive waterje...
The usage of abrasive waterjets has been established in many fields of industrial production. Still ...
AbstractThis paper describes problem during water jet cutting with low (different) surface roughness...
Currently, more than 50 000 different construction materials are available on the market and that nu...
The abrasive water jet cutting technology is a new and modern technology which uses an abrasive mate...
The paper deals with the cutting of agglomerated materials with an abrasive water jet from the point...
Abrasive waterjet machining (AWJM) can perform various machining operations on almost any material i...