NESLUŠAN, Miroslav ;CZ´´AN, Andrej ;ŽUPERL, Uroš . Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 48, n.10, p. 557-564, july 2017. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/sl/article/analysis-of-the-heat-distribution-when-grinding-of-a-vt-9-titanium-alloy-and-its-relation-to-residual-stresses/>. Date accessed: 08 oct. 2024. doi:http://dx.doi.org/.
Neslušan, M., Cz´´an, A., & Župerl, U. (2002). Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses. Strojniški vestnik - Journal of Mechanical Engineering, 48(10), 557-564. doi:http://dx.doi.org/
@article{., author = {Miroslav Neslušan and Andrej Cz´´an and Uroš Župerl}, title = {Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {48}, number = {10}, year = {2002}, keywords = {grinding; titanium alloys; heat distributions; residual stresses; }, abstract = {Heat distribution during machining is one of the phenomenological characteristics of this process because it significantly influences the functional properties of machined surfaces. This paper deals with heat distribution during the grinding of a VT 9 titanium alloy and its relationship to the quality of ground parts in terms of residual stresses. The analysis of the heat distribution is based on a measurement of the temperature in the contact of the grinding wheel and workpiece, and the tangential component of the cutting force. The heat distribution when grinding a VT 9 titanium alloy differs from the heat distribution when grinding a conventional (14 209.4) roll-bearing steel (a typical representative of ground-hardened steels) mainly because of the low heat conductivity of titanium alloys. Also the application of CBN and diamond grinding wheels significantly reduces the thermal exposition of the ground parts, primarily when applying cutting fluid. This fact significantly influences the residual stresses after grinding. The results of the analysis show that there is a strong correlation between energy partitioning and residual stresses.}, issn = {0039-2480}, pages = {557-564}, doi = {}, url = {https://www.sv-jme.eu/sl/article/analysis-of-the-heat-distribution-when-grinding-of-a-vt-9-titanium-alloy-and-its-relation-to-residual-stresses/} }
Neslušan, M.,Cz´´an, A.,Župerl, U. 2002 July 48. Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 48:10
%A Neslušan, Miroslav %A Cz´´an, Andrej %A Župerl, Uroš %D 2002 %T Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses %B 2002 %9 grinding; titanium alloys; heat distributions; residual stresses; %! Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses %K grinding; titanium alloys; heat distributions; residual stresses; %X Heat distribution during machining is one of the phenomenological characteristics of this process because it significantly influences the functional properties of machined surfaces. This paper deals with heat distribution during the grinding of a VT 9 titanium alloy and its relationship to the quality of ground parts in terms of residual stresses. The analysis of the heat distribution is based on a measurement of the temperature in the contact of the grinding wheel and workpiece, and the tangential component of the cutting force. The heat distribution when grinding a VT 9 titanium alloy differs from the heat distribution when grinding a conventional (14 209.4) roll-bearing steel (a typical representative of ground-hardened steels) mainly because of the low heat conductivity of titanium alloys. Also the application of CBN and diamond grinding wheels significantly reduces the thermal exposition of the ground parts, primarily when applying cutting fluid. This fact significantly influences the residual stresses after grinding. The results of the analysis show that there is a strong correlation between energy partitioning and residual stresses. %U https://www.sv-jme.eu/sl/article/analysis-of-the-heat-distribution-when-grinding-of-a-vt-9-titanium-alloy-and-its-relation-to-residual-stresses/ %0 Journal Article %R %& 557 %P 8 %J Strojniški vestnik - Journal of Mechanical Engineering %V 48 %N 10 %@ 0039-2480 %8 2017-07-07 %7 2017-07-07
Neslušan, Miroslav, Andrej Cz´´an, & Uroš Župerl. "Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses." Strojniški vestnik - Journal of Mechanical Engineering [Online], 48.10 (2002): 557-564. Web. 08 Oct. 2024
TY - JOUR AU - Neslušan, Miroslav AU - Cz´´an, Andrej AU - Župerl, Uroš PY - 2002 TI - Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses JF - Strojniški vestnik - Journal of Mechanical Engineering DO - KW - grinding; titanium alloys; heat distributions; residual stresses; N2 - Heat distribution during machining is one of the phenomenological characteristics of this process because it significantly influences the functional properties of machined surfaces. This paper deals with heat distribution during the grinding of a VT 9 titanium alloy and its relationship to the quality of ground parts in terms of residual stresses. The analysis of the heat distribution is based on a measurement of the temperature in the contact of the grinding wheel and workpiece, and the tangential component of the cutting force. The heat distribution when grinding a VT 9 titanium alloy differs from the heat distribution when grinding a conventional (14 209.4) roll-bearing steel (a typical representative of ground-hardened steels) mainly because of the low heat conductivity of titanium alloys. Also the application of CBN and diamond grinding wheels significantly reduces the thermal exposition of the ground parts, primarily when applying cutting fluid. This fact significantly influences the residual stresses after grinding. The results of the analysis show that there is a strong correlation between energy partitioning and residual stresses. UR - https://www.sv-jme.eu/sl/article/analysis-of-the-heat-distribution-when-grinding-of-a-vt-9-titanium-alloy-and-its-relation-to-residual-stresses/
@article{{}{.}, author = {Neslušan, M., Cz´´an, A., Župerl, U.}, title = {Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {48}, number = {10}, year = {2002}, doi = {}, url = {https://www.sv-jme.eu/sl/article/analysis-of-the-heat-distribution-when-grinding-of-a-vt-9-titanium-alloy-and-its-relation-to-residual-stresses/} }
TY - JOUR AU - Neslušan, Miroslav AU - Cz´´an, Andrej AU - Župerl, Uroš PY - 2017/07/07 TI - Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 48, No 10 (2002): Strojniški vestnik - Journal of Mechanical Engineering DO - KW - grinding, titanium alloys, heat distributions, residual stresses, N2 - Heat distribution during machining is one of the phenomenological characteristics of this process because it significantly influences the functional properties of machined surfaces. This paper deals with heat distribution during the grinding of a VT 9 titanium alloy and its relationship to the quality of ground parts in terms of residual stresses. The analysis of the heat distribution is based on a measurement of the temperature in the contact of the grinding wheel and workpiece, and the tangential component of the cutting force. The heat distribution when grinding a VT 9 titanium alloy differs from the heat distribution when grinding a conventional (14 209.4) roll-bearing steel (a typical representative of ground-hardened steels) mainly because of the low heat conductivity of titanium alloys. Also the application of CBN and diamond grinding wheels significantly reduces the thermal exposition of the ground parts, primarily when applying cutting fluid. This fact significantly influences the residual stresses after grinding. The results of the analysis show that there is a strong correlation between energy partitioning and residual stresses. UR - https://www.sv-jme.eu/sl/article/analysis-of-the-heat-distribution-when-grinding-of-a-vt-9-titanium-alloy-and-its-relation-to-residual-stresses/
Neslušan, Miroslav, Cz´´an, Andrej, AND Župerl, Uroš. "Analysis of the Heat Distribution when Grinding of a VT 9 Titanium Alloy and its Relation to Residual Stresses" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 48 Number 10 (07 July 2017)
Strojniški vestnik - Journal of Mechanical Engineering 48(2002)10, 557-564
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
Heat distribution during machining is one of the phenomenological characteristics of this process because it significantly influences the functional properties of machined surfaces. This paper deals with heat distribution during the grinding of a VT 9 titanium alloy and its relationship to the quality of ground parts in terms of residual stresses. The analysis of the heat distribution is based on a measurement of the temperature in the contact of the grinding wheel and workpiece, and the tangential component of the cutting force. The heat distribution when grinding a VT 9 titanium alloy differs from the heat distribution when grinding a conventional (14 209.4) roll-bearing steel (a typical representative of ground-hardened steels) mainly because of the low heat conductivity of titanium alloys. Also the application of CBN and diamond grinding wheels significantly reduces the thermal exposition of the ground parts, primarily when applying cutting fluid. This fact significantly influences the residual stresses after grinding. The results of the analysis show that there is a strong correlation between energy partitioning and residual stresses.