Add to ORKGAn analysis of the effect of jet impact angle on the major cutting performance measures in abrasive waterjet (AWJ) machining of alumina ceramics is presented based on experimental investigations. It is found that angling the jet forward in the cutting plane is an effective means in improving the cutting performance. A quantitative assessment is made which shows that the optimum jet impact angle for cutting alumina ceramics is about 10o. Further improvement on the cutting performance can be made by using the optimum jet impact angle in multipass AWJ cutting
The development of high performance material such as composites and advanced ceramics has a variety ...
An experimental investigation was conducted on the machinability of aluminum oxide ceramics using th...
Abrasive waterjet (AWJ) cutting is one of the most recently developed manufacturing technologies. It...
The need to enhance the cutting performance and capability of abrasive waterjet (AWJ) technology has...
An experimental investigation of abrasive waterjet (AWJ) cutting of alumina ceramics with controlled...
An analysis of the cutting performance of multipass abrasive waterjet machining is presented based o...
Abrasive waterjet (AWJ) cutting is one of the most recently developed nontraditional manufacturing t...
An experimental investigation is presented of the various cutting performance measures, such as the ...
A study of the depth of jet penetration (or depth of cut) in abrasive waterjet (AWJ) cutting of alum...
Abstract: An experimental investigation is presented of the various cutting performance measures, su...
Abrasive waterjets (AWJ) have in a short time become an indispensable industrial tool for many machi...
An experimental investigation has been undertaken to study the depth of cut in multipass abrasive wa...
The cutting performance in abrasive waterjet (AWJ) multipass cutting with and without controlled noz...
Machining of aluminum oxide Al2O3 can be classified as challenging by reason of its brittle and high...
AbstractMachining of aluminum oxide Al2O3 can be classified as challenging by reason of its brittle ...
The development of high performance material such as composites and advanced ceramics has a variety ...
An experimental investigation was conducted on the machinability of aluminum oxide ceramics using th...
Abrasive waterjet (AWJ) cutting is one of the most recently developed manufacturing technologies. It...
The need to enhance the cutting performance and capability of abrasive waterjet (AWJ) technology has...
An experimental investigation of abrasive waterjet (AWJ) cutting of alumina ceramics with controlled...
An analysis of the cutting performance of multipass abrasive waterjet machining is presented based o...
Abrasive waterjet (AWJ) cutting is one of the most recently developed nontraditional manufacturing t...
An experimental investigation is presented of the various cutting performance measures, such as the ...
A study of the depth of jet penetration (or depth of cut) in abrasive waterjet (AWJ) cutting of alum...
Abstract: An experimental investigation is presented of the various cutting performance measures, su...
Abrasive waterjets (AWJ) have in a short time become an indispensable industrial tool for many machi...
An experimental investigation has been undertaken to study the depth of cut in multipass abrasive wa...
The cutting performance in abrasive waterjet (AWJ) multipass cutting with and without controlled noz...
Machining of aluminum oxide Al2O3 can be classified as challenging by reason of its brittle and high...
AbstractMachining of aluminum oxide Al2O3 can be classified as challenging by reason of its brittle ...
The development of high performance material such as composites and advanced ceramics has a variety ...
An experimental investigation was conducted on the machinability of aluminum oxide ceramics using th...
Abrasive waterjet (AWJ) cutting is one of the most recently developed manufacturing technologies. It...