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991.
基于裂比的非晶合金永磁电机设计技术 总被引:1,自引:1,他引:0
非晶合金材料电磁性能优异,应用于电机领域能显著降低电机铁心损耗,提高电机效率。针对非晶合金材料的特点,基于永磁电机基本设计理论,推导了非晶合金电机铜耗与铁心损耗的解析表达式。基于非晶合金永磁电机损耗的解析表达式对非晶合金永磁电机裂比(定子内外径之比)、磁密比值(气隙磁密与铁心磁密之比)的设计进行了研究,得出了非晶合金永磁电机裂比、磁密比值的设计规律。在对非晶合金永磁电机设计规律研究的基础上完成了一台非晶合金永磁电机的设计并进行了试验。所做的研究对非晶合金电机的设计及优化具有一定的参考价值。 相似文献
992.
993.
高温合金和钛合金由于性能优越,被广泛应用于航天航空领域。但由于高温合金高温强度大且导热性差,加工硬化等现象严重,在机加工过程中刀具磨损严重,加工表面质量较差;钛合金塑性小,钛的活性较强容易被氧化或是产生氢脆性,在机加工时会出现严重的加工硬化和粘刀现象,加工难度较大。电火花加工依靠火花放电产生的局部高温来蚀除材料,工具电极和工件不接触,加工不受材料的机械性能限制,因此对于高温合金和钛合金的加工有重要的意义。从电火花成形加工、电火花线切割加工、微细电火花加工、电火花铣削、电火花表面强化和其他电火花加工方式6个方面综述了高温合金和钛合金材料电火花加工研究的新进展,并介绍了主要的研究成果。 相似文献
994.
995.
采用热等静压工艺对Ti一6A1—4V(简称TC4)雾化预合金粉的粉末冶金技术进行了研究,采用不同的固溶温度、时效温度以及时效时间,研究了热处理工艺对TC4钛合金组织和性能的影响。结果表明,采用预合金粉工艺制备的Ti一6A1—4V粉末钛合金材料力学性能良好,于965℃固溶并采用水冷,然后在470℃时效,试样具有优良的力学性能,适宜冷加工生产。 相似文献
996.
本文采用新一代高分子材料———热塑性弹性体为基体材料,制备不同配方的铝合金化学铣切保护涂料。所进行的实验主要包括保护涂料的制备,自制保护涂料与国外铝合金化学铣切保护涂料的性能进行对比,即外观、粘度、固体含量、抗蚀性、浸蚀比、致密性、附着力和可剥性,并优化自行配制化铣保护涂料的配方。实验证明:研制的新一代铝合金化学铣切保护涂料基本达到美国同类产品的性能水平。 相似文献
997.
基于数字图像相关的预腐蚀2024-T4铝合金疲劳开裂实验研究 总被引:1,自引:0,他引:1
通过三维数字图像相关(3D-DIC)方法研究预腐蚀2024-T4铝合金在三种不同最大应力水平和应力比下的疲劳开裂行为。通过应变场演化直观地显示裂纹萌生和扩展的时空特征,并通过扫描电镜观测关键损伤区域的断裂微观形貌。结果表明:试样边缘的局部腐蚀促进了疲劳裂纹萌生,影响了裂纹的形核位置,并引起材料氢脆现象;疲劳裂纹扩展方向与加载方向呈60°~68°角,表明疲劳裂纹扩展可以用KⅠ/KⅡ混合模式来描述;预腐蚀铝合金疲劳失效存在单裂纹断裂、多裂纹联合、多裂纹竞争和多裂纹平行扩展4种典型的失效模式。 相似文献
998.
The stress corrosion cracking (SCC) behavior and mechanism of 7050-T7451 aluminum alloy under wet-dry cyclic conditions were investigated. Slow strain rate tests (SSRTs) and electrochemical tests were used to study the effects of dry/wet ratio (DWR) and pre-immersion on SCC. Fracture and side surface characterizations were observed by scanning electron microscopy (SEM). The results demonstrate that SCC susceptibility decreases with an increase of the DWR. With an increase of the pre-immersion time, both continuous pre-immersion (CP) and wet-dry cyclic pre-immersion (WDP) samples are more sensitive to SCC, and the cracking mode in the SCC fracture region is intergranular. Furthermore, the effect of WDP on SCC is greater than that of CP when the total time immersed in solution before an SSRT is the same with each other. In fact, each single wet-dry cycle can be divided into three processes with respect to the change of solution on samples’ surface. Volatilization of water on the surface results in an increase in solute concentration, thus accelerating corrosion. 相似文献
999.
《中国航空学报》2016,(2):554-559
In order to satisfy the drastic temperature change and high chemical activity in directional solidification of Nb–Si based alloys, Y_2O_3 crucible is demanded to possess high thermal shock resistance and erosion resistance. This paper improved the sintering degree and density of Y_2O_3 crucible by optimizing the sintering temperature and time, and its practical application performance was investigated. Y_2O_3 grains gathered with the increase of sintering temperature and time, and the contact area enlarged, resulting in the open pores being changed into closed pores.The higher density caused the improvement of erosion resistance of Y_2O_3 crucibles. However, excessive density weakened the thermal shock resistance. Considering high-temperature strength, erosion resistance, thermal shock resistance and costs, optimum sintering temperature and time of Y_2O_3 directional solidification crucible were 1800 °C and 120 min, respectively, and the porosity was20%. Improved Y_2O_3 crucible has been successfully applied to directional solidification of Nb–Si based alloys, and significantly reduced the oxygen contamination. Slight interaction occurred between Hf and Y_2O_3, but no obvious dissolution, penetration or erosion was found, showing good erosion resistance and thermal shock resistance. 相似文献
1000.
《中国航空学报》2021,34(4):375-386
Laser welding of dissimilar titanium/aluminum alloys has been employed at an increasing rate, particularly in the aerospace industry, owing to its advantages in terms of current design flexibility and fuel/cost savings. The major problem with dissimilar Ti/Al welds arises from the difference in the thermal expansion and contraction of the two metals, which leads to hot-cracking susceptibility and the mitigation of the mechanical property after welding. In the present study, pulsed Nd:YAG laser welding of Ti6Al4V and AA6060 has been addressed. Hot-cracking susceptibility in the heat affected zone and the shear fracture behavior of the lap joints were investigated through microstructural characterization and mechanical tests. The results indicate that the hot cracking tendency can be reduced by increasing the pulse peak power (7.5–8.5 kW) and the laser point diameter (0.8–1.0 mm) with specific pulse duration and overlap. An alternative control strategy for less hot cracks in the Ti/Al lap joint can be to increase the weld width and decrease the cooling rate during solidification. The shear fracture of the Ti/Al lap joint is likely to occur along the lower side path of the weld interface with decreasing weld surface collapsed amount and increasing aluminum base metal melt depth. 相似文献