Enhancing the Machining Performance of EDM Process by using RSM
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Enhancing the Machining Performance of EDM Process by using RSM (2016)
DE PB NW RP
ISBN: 9783659936739 bzw. 3659936731, in Deutsch, LAP Lambert Academic Publishing Okt 2016, Taschenbuch, neu, Nachdruck.
Lieferung aus: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
This item is printed on demand - Print on Demand Neuware - The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. 64 pp. Englisch.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
This item is printed on demand - Print on Demand Neuware - The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. 64 pp. Englisch.
2
Symbolbild
Enhancing the Machining Performance of EDM Process by using RSM (2016)
DE PB NW
ISBN: 9783659936739 bzw. 3659936731, in Deutsch, LAP Lambert Academic Publishing Okt 2016, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, Rheinberg-Buch [53870650], Bergisch Gladbach, Germany.
Neuware - The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. 64 pp. Englisch.
Von Händler/Antiquariat, Rheinberg-Buch [53870650], Bergisch Gladbach, Germany.
Neuware - The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. 64 pp. Englisch.
3
Enhancing the Machining Performance of EDM Process by using RSM
~EN NW AB
ISBN: 9783659936739 bzw. 3659936731, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Schweiz, Lieferzeit: 2 Tage, zzgl. Versandkosten.
The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters.
The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters.
4
Enhancing the Machining Performance of EDM Process by using RSM
~EN PB NW
ISBN: 9783659936739 bzw. 3659936731, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Enhancing the Machining Performance of EDM Process by using RSM: The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. Englisch, Taschenbuch.
Enhancing the Machining Performance of EDM Process by using RSM: The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. Englisch, Taschenbuch.
5
Enhancing the Machining Performance of EDM Process by using RSM
DE NW
ISBN: 9783659936739 bzw. 3659936731, in Deutsch, LAP Lambert Academic Publishing, neu.
Lieferung aus: Deutschland, Bücher und alle Bestellungen die ein Buch enthalten sind versandkostenfrei, sonstige Bestellungen innerhalb Deutschland EUR 3,-, ab EUR 20,- kostenlos, Sofort lieferbar.
Enhancing the Machining Performance of EDM Process by using RSM, The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters.
Enhancing the Machining Performance of EDM Process by using RSM, The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters.
6
Enhancing the Machining Performance of EDM Process by using RSM
DE HC NW
ISBN: 9783659936739 bzw. 3659936731, in Deutsch, Lap Lambert Academic Publishing, gebundenes Buch, neu.
Lieferung aus: Deutschland, Versandkostenfrei innerhalb von Deutschland.
The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. Lieferzeit 1-2 Werktage.
The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper The present work investigated the EDM process by using the new approach in order to maximize MRR and minimize EWR by introducing conductive Column (CC) in the workpiece material. The analytical parameters such as voltage (V) and conductive column varied in a range and their effect was realized by using response surface methodology (RSM). The remaining process parameter remains constant throughout the experimentation. The work material is AISI 1025 steel (having moderate conductivity) and copper electrode having diameter 10mm were selected for the experimentation. The face centred composite designs of RSM have been made to optimize process parameters of Die sinking EDM with an objective to maximize the MRR and minimize the EWR. The effects of gap voltage and conductive column and their interaction on the basis of two responses such as MRR and EWR were investigated. The contour plots were generated to realize the effects on responses. ANOVA and regression test were also performed to differentiate the significant and insignificant terms. The multiple response optimization method based on desirability function approach (DFA) was applied to find optimum values of input parameters. Lieferzeit 1-2 Werktage.
7
Enhancing the Machining Performance of EDM Process by using RSM
~EN PB NW
ISBN: 3659936731 bzw. 9783659936739, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
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