教师名录
06/2021-今 248cc永利集团官网线路,副研究员
International Journal of Electronics and Communications 审稿人
Frontiers in Chemistry 审稿人
International Journal of Pressure Vessels and Piping 审稿人
Journal of Strain Analysis for Engineering Design 审稿人
International Journal of Materials Science and Applications 审稿人
ASME 2018 PVP conference 优胜奖(HONORABLE MENTION, IN THE RUDY SCAVUZZO SYMPOSIUM & 26TH ANNUAL COMPETITION)
[1] Zhang T , Lu K , Katsuyama J , et al. Stress intensity factor solutions for surface cracks with large aspect ratios in cylinders and plates [J]. International Journal of Pressure Vessels and Piping, 2021, 189, 104262 (SCI, IF 2.23, WOS:000614145400011).
[2] Zhang T, Wang S, Wang W. An energy-based method for flow property determination from a single-cycle spherical indentation test (SIT)[J]. International Journal of Mechanical Sciences, 2020, 171, 105369. (SCI, IF 4.631, WOS:000525417400005)
[3] Zhang T, Wang S, Wang W. A comparative study on fracture toughness calculation models in spherical indentation tests (SITs) for ductile metals[J]. International Journal of Mechanical Sciences, 2019, 160: 114-128. (SCI, IF 4.631, WOS:000485209700010)
[4] Zhang T, Wang S, Wang W. A unified energy release rate based model to determine the fracture toughness of ductile metals from unnotched specimens[J]. International Journal of Mechanical Sciences, 2019, 150: 35-50. (SCI, IF 4.631, WOS:000458597800005)
[5] Zhang T, Wang S, Wang W. A constitutive model independent analytical method in determining the tensile properties from incremental spherical indentation tests (ISITs)[J]. International Journal of Mechanical Sciences, 2018, 148: 9-19. (SCI, IF 4.631, WOS:000448097900002)
[6] Zhang T, Wang S, Wang W. A comparative study on uniaxial tensile property calculation models in spherical indentation tests (SITs)[J]. International Journal of Mechanical Sciences, 2019, 155: 159-169. (SCI, IF 4.631, WOS:000468721800013)
[7] Zhang T, Wang S, Wang W. Method to determine the optimal constitutive model from spherical indentation tests[J]. Results in physics, 2018, 8: 716-727. (SCI, IF 4.019, WOS:000428027700100)
[8] Zhang T, Guo J, Wang W. A strain-pattern-based spherical indentation method for simultaneous uniaxial tensile residual stress and flow property determination[J]. The Journal of Strain Analysis for Engineering Design, 2020. (SCI, IF 1.63, WOS:000537816700001)
[9] Zhang T, Wang S, Wang W. A study on determination of tensile properties of metals at elevated temperatures from spherical indentation tests[J]. The Journal of Strain Analysis for Engineering Design, 2019, 54(5-6): 331-347. (SCI, IF 1.63, WOS:000489390000001)
[10] Zhang T, Wang S, Wang W. Determination of the proof strength and flow properties of materials from spherical indentation tests: an analytical approach based on the expanding cavity model[J]. The Journal of Strain Analysis for Engineering Design, 2018, 53(4): 225-241. (SCI, IF 1.63, WOS:000432135300004)
[11] Zhang T, Wang S, Wang W. Improved methods to determine the elastic modulus and area reduction rate in spherical indentation tests[J]. Materials Testing, 2018, 60(4): 355-362. (SCI, IF 0.799, WOS:000429292400003)
[12] Zhang T, Wang W. Li A, The spherical indentation approach for fracture toughness evaluation: A study based on the energy release rate [C], ASME 2018 Pressure Vessels and Piping Conference. Prague, 2018. (EI, Accession number: 20184706125668)
[13] Zhang T, Wang W. Li A, A Study on the Ball Indentation Test for Linear Hardening Metals [C], ASME 2017 Pressure Vessels and Piping Conference. Hawaii, 2017. (EI, Accession number: 20174704421825)
主持项目:
[1] 国家自然科学基金“虑及焊接接头韧脆过渡特性的压入损伤机理及断裂韧度预测方法研究”(30万元)
[2] 省优势学科经费“异种钢焊接接头单轴力学性能的压入检测”(20万元)
[3] 企业课题“手持式压入检测仪器开发与试制”(27万元)
[4] 企业课题“承压设备力学性能的压入检测技术开发”(19.2万元)
[5] 企业课题“力学性能微小试样测试仪器与配套软件开发”(30万元)
[6] 企业课题“基于细观损伤本构的超期服役老旧不锈钢失效行为预测”(9万元)
参与项目:
[1] 国家自然科学基金“自动球压痕法测试材料力学性能的机理和普适性研究”
[2] 国家重点研发课题“材料性能微损测试关键技术研究及仪器研制”
一种反复加卸载球形压头压入获取材料断裂韧度的方法(CN108982261B,已授权)
[1] Zhang T , Lu K , Katsuyama J , et al. Stress intensity factor solutions for surface cracks with large aspect ratios in cylinders and plates [J]. International Journal of Pressure Vessels and Piping, 2021, 189, 104262 (SCI, IF 2.23, WOS:000614145400011).
[2] Zhang T, Wang S, Wang W. An energy-based method for flow property determination from a single-cycle spherical indentation test (SIT)[J]. International Journal of Mechanical Sciences, 2020, 171, 105369. (SCI, IF 4.631, WOS:000525417400005)
[3] Zhang T, Wang S, Wang W. A comparative study on fracture toughness calculation models in spherical indentation tests (SITs) for ductile metals[J]. International Journal of Mechanical Sciences, 2019, 160: 114-128. (SCI, IF 4.631, WOS:000485209700010)
[4] Zhang T, Wang S, Wang W. A unified energy release rate based model to determine the fracture toughness of ductile metals from unnotched specimens[J]. International Journal of Mechanical Sciences, 2019, 150: 35-50. (SCI, IF 4.631, WOS:000458597800005)
[5] Zhang T, Wang S, Wang W. A constitutive model independent analytical method in determining the tensile properties from incremental spherical indentation tests (ISITs)[J]. International Journal of Mechanical Sciences, 2018, 148: 9-19. (SCI, IF 4.631, WOS:000448097900002)
[6] Zhang T, Wang S, Wang W. A comparative study on uniaxial tensile property calculation models in spherical indentation tests (SITs)[J]. International Journal of Mechanical Sciences, 2019, 155: 159-169. (SCI, IF 4.631, WOS:000468721800013)
[7] Zhang T, Wang S, Wang W. Method to determine the optimal constitutive model from spherical indentation tests[J]. Results in physics, 2018, 8: 716-727. (SCI, IF 4.019, WOS:000428027700100)
[8] Zhang T, Guo J, Wang W. A strain-pattern-based spherical indentation method for simultaneous uniaxial tensile residual stress and flow property determination[J]. The Journal of Strain Analysis for Engineering Design, 2020. (SCI, IF 1.63, WOS:000537816700001)
[9] Zhang T, Wang S, Wang W. A study on determination of tensile properties of metals at elevated temperatures from spherical indentation tests[J]. The Journal of Strain Analysis for Engineering Design, 2019, 54(5-6): 331-347. (SCI, IF 1.63, WOS:000489390000001)
[10] Zhang T, Wang S, Wang W. Determination of the proof strength and flow properties of materials from spherical indentation tests: an analytical approach based on the expanding cavity model[J]. The Journal of Strain Analysis for Engineering Design, 2018, 53(4): 225-241. (SCI, IF 1.63, WOS:000432135300004)
[11] Zhang T, Wang S, Wang W. Improved methods to determine the elastic modulus and area reduction rate in spherical indentation tests[J]. Materials Testing, 2018, 60(4): 355-362. (SCI, IF 0.799, WOS:000429292400003)
[12] Zhang T, Wang W. Li A, The spherical indentation approach for fracture toughness evaluation: A study based on the energy release rate [C], ASME 2018 Pressure Vessels and Piping Conference. Prague, 2018. (EI, Accession number: 20184706125668)
[13] Zhang T, Wang W. Li A, A Study on the Ball Indentation Test for Linear Hardening Metals [C], ASME 2017 Pressure Vessels and Piping Conference. Hawaii, 2017. (EI, Accession number: 20174704421825)
主持项目:
[1] 国家自然科学基金“虑及焊接接头韧脆过渡特性的压入损伤机理及断裂韧度预测方法研究”(30万元)
[2] 省优势学科经费“异种钢焊接接头单轴力学性能的压入检测”(20万元)
[3] 企业课题“手持式压入检测仪器开发与试制”(27万元)
[4] 企业课题“承压设备力学性能的压入检测技术开发”(19.2万元)
[5] 企业课题“力学性能微小试样测试仪器与配套软件开发”(30万元)
[6] 企业课题“基于细观损伤本构的超期服役老旧不锈钢失效行为预测”(9万元)
参与项目:
[1] 国家自然科学基金“自动球压痕法测试材料力学性能的机理和普适性研究”
[2] 国家重点研发课题“材料性能微损测试关键技术研究及仪器研制”
一种反复加卸载球形压头压入获取材料断裂韧度的方法(CN108982261B,已授权)