Ti50Ni27Nb20Ta3 Şekil Hatırlamalı Alaşımda Isıl İşlemlerin Faz Dönüşüm Histeresizi ve Termal Aktivasyon Enerjisi Üzerine Etkilerinin İncelenmesi
Yıl 2024,
Cilt: 36 Sayı: 1, 245 - 253, 28.03.2024
Esra Balci
,
Fethi Dağdelen
Öz
Bu çalışmada dörtlü TiNiNbTa alaşımına farklı ısıl işlemler uygulanarak alaşımın termal parametreleri üzerine ısıl işlemlerin etkileri incelendi. Isıl işlem sıcaklıkları 700℃, 800℃ ve 900℃ seçildi. Isıl işlem yapılan alaşımların DSC eğrileri farklı ısıtma-soğutma hızına bağlı olarak alındı. Isıl işlem sıcaklığını artmasına bağlı alaşımın dönüşüm sıcaklıklarının azaldığı belirlendi. Fakat artan ısıl işlem sıcaklığı ile termal aktivasyon enerjisinin önemli derecede arttığı gözlendi. Ayrıca ısıl işlem sıcaklığının artması austenite faz pik minumununu (Ap) ve dönüşüm histeresizini (Hf) önemli derecede azalttığı gözlendi.
Destekleyen Kurum
Fırat Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimi (FÜBAP)
Kaynakça
- Patoor E, Lagoudas D.C, Entchev P.B, Brinson L.C and Gao X. Shape memory alloys, Part I: General properties and modeling of single crystals, Mechanics of materials 2006;38:391-429.
- Nishiyama Z. Martensitic transformation. Elsevier: Academic Pres, 2012.
- Liu J. and Y Guo. Process capability of wire-edm of NiTi shape memory alloy at main cut and trim cut modes, Procedia Manufacturing 2015;1: 904-914.
- Dagdelen F. and Y Aydogdu.Transformation behavior in NiTi–20Ta and NiTi–20Nb SMAs, Journal of Thermal Analysis and Calorimetry 2019;136: 637-642.
- Piao M, Miyazaki S, Otsuka K. Characteristics of deformation and transformation in Ti44Ni47Nb9 shape memory alloy, Materials Transactions JIM 1992; 33: 346-353.
- Zhang C.S, Zhao L.C, Duering T.W. and Wayman C.M. Effects of deformation on the transformation hysteresis and shape memory effect in a Ni47Ti44Nb9 alloy, Scripta Metallurgica et Materialia 1990;24:1807-1812.
- Zhang C.S, Wang Y.Q, Chai W. and Zhao L.C. The study of constitutional phases in a Ni47Ti44Nb9 shape memory alloy, Materials Chemistry and Physics 1991;28:43-50.
- He X.M, Rong L.J, Yan D.S. and Li Y.Y. Temperature memory effect of Ni47Ti44Nb9 wide hysteresis shape memory alloy, Scripta materialia 2005;53:1411-1415.
- Sui J.H, Gao Z.Y, Li Y.F, Zhag Z.G. and Cai W. A study on NiTiNbCo shape memory alloy, Materials Science and Engineering: A 2009;508: 33-36.
- Bhagyaraj J, Ramiah K.V, Saikrishma C.N. and Bhaumik S.K. Behavior and effect of Ti2Ni phase during processing of NiTi shape memory alloy wire from cast ingot, Journal of alloys and compounds 2013;581: 344-351.
- El-Bagoury N. Comparative study on microstructure and martensitic transformation of aged Ni-rich NiTi and NiTiCo shape memory alloys, Metals and Materials International 2016; 22: 468-473.
- Eggeler G, Allafi J.K, Gollerthan S, Somsen C, Schmahl W. and Sheptyakow D.On the effect of aging on martensitic transformations in Ni-rich NiTi shape memory alloys, Smart materials and structures 2005;14: 186.
- Dovchinvanchig M, Zhao C.W, Zhao S.L, Meng X.K, Jin Y.J. and Xing Y.M. Effect of Nd addition on the microstructure and martensitic transformation of Ni-Ti shape memory alloys, Advances in Materials Science and Engineering 2014;6:489-701.
- Zhao Y.N, Jiang S.Y, Zhang Y.Q. and Liang Y.L. Influence of Fe addition on phase transformation, microstructure and mechanical property of equiatomic NiTi shape memory alloy, Acta Metallurgica Sinica (English Letters) 2017;30: 762-770.
- Kök M, Zardawi H.S.A, Qader I.N and Kanca M.S.The effects of cobalt elements addition on Ti2Ni phases, thermodynamics parameters, crystal structure and transformation temperature of NiTi shape memory alloys, The European Physical Journal Plus 2019;134:197.
- Balcı E. and Dagdelen F.Thermal, structural properties and potential dynamic corrosion study of Ti-27Ni-21Nb-2Ta SMA, Iranian Journal of Science and Technology Transactions A: Science 2022;46: 353-359.
- Balci E. and Dagdelen F. The comparison of TiNiNbTa and TiNiNbV SMAs in terms of corrosion behavior, microhardness, thermal and structural properties, Journal of Thermal Analysis and Calorimetry 2022;147:10943-10949.
- Balci E, Dagdelen F, Qader I.N and Kök M. Effects of substituting Nb with V on thermal analysis and biocompatibility assessment of quaternary NiTiNbV SMA, The European Physical Journal Plus 2021;136: 145.
- Ercan E, Dagdelen F, Kök M. and Balci E. Investigation of Thermodynamic Properties of Ni30Ti20Cu20 Shape Memory Alloy, Bitlis Eren University Journal of Science 2019; 8: 1194-1202.
- Kissinger H.E. Reaction kinetics in differential thermal analysis,Analytical chemistry 1957;29:1702-1706.
- Ozawa T.A. New method of analyzing thermogravimetric data, Bulletin of the chemical society of Japan 1965; 38:1881-1886.
- Takhor R. Advances in nucleation and crystallization of glasses, American Ceramics Society Columbus 1971;166: 13-23.
- Mohammed S.S, Balci E, Dagdelen F and Saydam S. Comparison of Thermodynamic Parameters and Corrosion Behaviors of Ti50Ni25Nb25 and Ti50Ni25Ta25 Shape Memory Alloys, Physics of Metals and Metallography 2022;123: 1427-1435.
Investigation of The Effects of Heat Treatments on Phase Transformation Hysteresis and Thermal Activation Energy in Ti50Ni27Nb20Ta3 Shape Memory Alloy
Yıl 2024,
Cilt: 36 Sayı: 1, 245 - 253, 28.03.2024
Esra Balci
,
Fethi Dağdelen
Öz
In this study, the effects of heat treatments on the thermal parameters of the alloy were investigated by applying different heat treatments to the quaternary TiNiNbTa alloy. Heat treatment temperatures of 700℃, 800℃ and 900℃ were selected. DSC curves of heat-treated alloys were taken depending on different heating-cooling rates. It was determined that the transformation temperatures of the alloy decreased due to the increase in the heat treatment temperature. However, it was observed that the thermal activation energy increased significantly with increasing heat treatment temperature. In addition, it was observed that increasing the heat treatment temperature significantly decreased the austenite phase peak minimum (Ap) and conversion hysteresis (Hf).
Kaynakça
- Patoor E, Lagoudas D.C, Entchev P.B, Brinson L.C and Gao X. Shape memory alloys, Part I: General properties and modeling of single crystals, Mechanics of materials 2006;38:391-429.
- Nishiyama Z. Martensitic transformation. Elsevier: Academic Pres, 2012.
- Liu J. and Y Guo. Process capability of wire-edm of NiTi shape memory alloy at main cut and trim cut modes, Procedia Manufacturing 2015;1: 904-914.
- Dagdelen F. and Y Aydogdu.Transformation behavior in NiTi–20Ta and NiTi–20Nb SMAs, Journal of Thermal Analysis and Calorimetry 2019;136: 637-642.
- Piao M, Miyazaki S, Otsuka K. Characteristics of deformation and transformation in Ti44Ni47Nb9 shape memory alloy, Materials Transactions JIM 1992; 33: 346-353.
- Zhang C.S, Zhao L.C, Duering T.W. and Wayman C.M. Effects of deformation on the transformation hysteresis and shape memory effect in a Ni47Ti44Nb9 alloy, Scripta Metallurgica et Materialia 1990;24:1807-1812.
- Zhang C.S, Wang Y.Q, Chai W. and Zhao L.C. The study of constitutional phases in a Ni47Ti44Nb9 shape memory alloy, Materials Chemistry and Physics 1991;28:43-50.
- He X.M, Rong L.J, Yan D.S. and Li Y.Y. Temperature memory effect of Ni47Ti44Nb9 wide hysteresis shape memory alloy, Scripta materialia 2005;53:1411-1415.
- Sui J.H, Gao Z.Y, Li Y.F, Zhag Z.G. and Cai W. A study on NiTiNbCo shape memory alloy, Materials Science and Engineering: A 2009;508: 33-36.
- Bhagyaraj J, Ramiah K.V, Saikrishma C.N. and Bhaumik S.K. Behavior and effect of Ti2Ni phase during processing of NiTi shape memory alloy wire from cast ingot, Journal of alloys and compounds 2013;581: 344-351.
- El-Bagoury N. Comparative study on microstructure and martensitic transformation of aged Ni-rich NiTi and NiTiCo shape memory alloys, Metals and Materials International 2016; 22: 468-473.
- Eggeler G, Allafi J.K, Gollerthan S, Somsen C, Schmahl W. and Sheptyakow D.On the effect of aging on martensitic transformations in Ni-rich NiTi shape memory alloys, Smart materials and structures 2005;14: 186.
- Dovchinvanchig M, Zhao C.W, Zhao S.L, Meng X.K, Jin Y.J. and Xing Y.M. Effect of Nd addition on the microstructure and martensitic transformation of Ni-Ti shape memory alloys, Advances in Materials Science and Engineering 2014;6:489-701.
- Zhao Y.N, Jiang S.Y, Zhang Y.Q. and Liang Y.L. Influence of Fe addition on phase transformation, microstructure and mechanical property of equiatomic NiTi shape memory alloy, Acta Metallurgica Sinica (English Letters) 2017;30: 762-770.
- Kök M, Zardawi H.S.A, Qader I.N and Kanca M.S.The effects of cobalt elements addition on Ti2Ni phases, thermodynamics parameters, crystal structure and transformation temperature of NiTi shape memory alloys, The European Physical Journal Plus 2019;134:197.
- Balcı E. and Dagdelen F.Thermal, structural properties and potential dynamic corrosion study of Ti-27Ni-21Nb-2Ta SMA, Iranian Journal of Science and Technology Transactions A: Science 2022;46: 353-359.
- Balci E. and Dagdelen F. The comparison of TiNiNbTa and TiNiNbV SMAs in terms of corrosion behavior, microhardness, thermal and structural properties, Journal of Thermal Analysis and Calorimetry 2022;147:10943-10949.
- Balci E, Dagdelen F, Qader I.N and Kök M. Effects of substituting Nb with V on thermal analysis and biocompatibility assessment of quaternary NiTiNbV SMA, The European Physical Journal Plus 2021;136: 145.
- Ercan E, Dagdelen F, Kök M. and Balci E. Investigation of Thermodynamic Properties of Ni30Ti20Cu20 Shape Memory Alloy, Bitlis Eren University Journal of Science 2019; 8: 1194-1202.
- Kissinger H.E. Reaction kinetics in differential thermal analysis,Analytical chemistry 1957;29:1702-1706.
- Ozawa T.A. New method of analyzing thermogravimetric data, Bulletin of the chemical society of Japan 1965; 38:1881-1886.
- Takhor R. Advances in nucleation and crystallization of glasses, American Ceramics Society Columbus 1971;166: 13-23.
- Mohammed S.S, Balci E, Dagdelen F and Saydam S. Comparison of Thermodynamic Parameters and Corrosion Behaviors of Ti50Ni25Nb25 and Ti50Ni25Ta25 Shape Memory Alloys, Physics of Metals and Metallography 2022;123: 1427-1435.