This study investigates the susceptibility of hot cracking and weldment heat treatment of Haynes 230 superalloy. The Varestriant test was conducted to evaluate this susceptibility. Welding was performed by gas tungste...This study investigates the susceptibility of hot cracking and weldment heat treatment of Haynes 230 superalloy. The Varestriant test was conducted to evaluate this susceptibility. Welding was performed by gas tungsten arc welding (GTAW) and plasma arc welding (PAW) with stress relief heat treatment and solid solution heat treatment. A tensile test is then performed to measure the changes in the mechanical properties of the heattreated material. The results indicate that the number of thermal cycles does not affect the susceptibility of Haynes 230 superalloy to hot cracking. However, it does increase the strain. In weldment of heat treatment, stress relief annealing increases the yield strength and tensile strength of the welded parts. The section of the tensile specimens shows fibrous fractures on the welded parts, regardless of whether they are heat-treated.展开更多
Amorphous Fe62-x Ni19CoxCu0.1 Si3.8B14Cr1. 1 (x=0, 1, 5, 10) ribbons were annealed under magnetic field and tensile stress, respectively, and their magnetic properties were investigated. Fe73.5 Cu1 Nb3 Si15.5 B7 and...Amorphous Fe62-x Ni19CoxCu0.1 Si3.8B14Cr1. 1 (x=0, 1, 5, 10) ribbons were annealed under magnetic field and tensile stress, respectively, and their magnetic properties were investigated. Fe73.5 Cu1 Nb3 Si15.5 B7 and Fe66 Ni10- Cu1 Nb3Si11 B9 nanocrystalline alloy ribbons were also fabricated for comparison. Excellent DC tolerant property was obtained in the amorphous FeNiCoCuSiBCr ribbons after thermomagnetic treatment and the constant permeable property was improved with increasing Co content. The relative permeability was constant up to the DC bias field of approximately 6 ×10 ^-4 , 9 ×10 ^-4, and 10 × 10^-4 T and the values of relative permeability μ were 1 650, 1 200, and 1 000 with the Co content being 0, 5 at. %, and 10 at.%, respectively. Besides, stress-annealed FeNiCoCuSiBCr al- loy ribbons were proved to exhibit positive saturation magnetostriction constant λs.展开更多
文摘This study investigates the susceptibility of hot cracking and weldment heat treatment of Haynes 230 superalloy. The Varestriant test was conducted to evaluate this susceptibility. Welding was performed by gas tungsten arc welding (GTAW) and plasma arc welding (PAW) with stress relief heat treatment and solid solution heat treatment. A tensile test is then performed to measure the changes in the mechanical properties of the heattreated material. The results indicate that the number of thermal cycles does not affect the susceptibility of Haynes 230 superalloy to hot cracking. However, it does increase the strain. In weldment of heat treatment, stress relief annealing increases the yield strength and tensile strength of the welded parts. The section of the tensile specimens shows fibrous fractures on the welded parts, regardless of whether they are heat-treated.
基金Sponsored by National High-tech Research and Development Program of China(2012AA030301)National Natural Science Foundation of China(51071050)
文摘Amorphous Fe62-x Ni19CoxCu0.1 Si3.8B14Cr1. 1 (x=0, 1, 5, 10) ribbons were annealed under magnetic field and tensile stress, respectively, and their magnetic properties were investigated. Fe73.5 Cu1 Nb3 Si15.5 B7 and Fe66 Ni10- Cu1 Nb3Si11 B9 nanocrystalline alloy ribbons were also fabricated for comparison. Excellent DC tolerant property was obtained in the amorphous FeNiCoCuSiBCr ribbons after thermomagnetic treatment and the constant permeable property was improved with increasing Co content. The relative permeability was constant up to the DC bias field of approximately 6 ×10 ^-4 , 9 ×10 ^-4, and 10 × 10^-4 T and the values of relative permeability μ were 1 650, 1 200, and 1 000 with the Co content being 0, 5 at. %, and 10 at.%, respectively. Besides, stress-annealed FeNiCoCuSiBCr al- loy ribbons were proved to exhibit positive saturation magnetostriction constant λs.
