2-Ti3Al相構(gòu)成;沉積層組織表現(xiàn)出由柱狀晶、等軸晶、胞狀晶及板條狀組織形成的層帶組織特征,沉積層組織內(nèi)的晶粒細(xì)化較明顯。沉積層的硬度分布范圍為537~598 HV0.3,底部的維氏硬度比中部及頂部高。TiAl合金試樣在室溫下的極限 抗壓強度為(1545±64) MPa,壓縮應(yīng)變?yōu)?17.68±0.07)%;室溫下沿激光掃描方向的極限抗拉強度為(514±92) MPa,斷后伸長率為(0.2±0.04)%;沿構(gòu)建方向的極限抗拉強度為(424±114) MPa,斷后伸長率為(0.15±0.07)%,TiAl合金試樣的室溫拉 伸斷口形貌特征屬于準(zhǔn)解理斷裂。通過優(yōu)化掃描策略并輔以后續(xù)熱處理,有望改善合金組織均勻性及力學(xué)性能的各向 異性。;Complex shaped TiAl alloy components can be manufactured by laser additive manufacturing technology, further expanding the engineering applications of this lightweight high-temperature alloy in the aerospace field. However, there is currently limited research on the intrinsic relationship among the laser melting deposition process, microstructure, and properties of TiAl alloys. TiAl alloy specimens with good macroscopic quality were prepared by laser melting deposition using Ti-48Al-2Cr-2Nb alloy powder as raw materials. The microstructure, phase composition, hardness distribution of the deposited layer, and room temperature mechanical properties of the deposited specimens were studied under optimized process parameters. The results show that the microstructure of the deposited layer mainly consists of a large number of γ-TiAl phases and a small amount of α2-Ti3Al phases; the microstructure of the deposited sample exhibits a layer characteristics formed by columnar crystals, equiaxial crystals, cytosolic crystals, and laths structure, and the grain refinement in the microstructure of the deposited layer is obvious. The hardness distribution of the deposited layer ranges from 537 HV0.3 to 598 HV0.3, and the Vickers hardness at the bottom is higher than that at the middle and the top. The ultimate compressive strength of the TiAl alloy specimens is (1545±64) MPa at room temperature, with a compressive strain of (17.68±0.07)%, and the ultimate tensile strength along the scanning direction of the laser is (514±92) MPa at room temperature, with an elongation of (0.2±0.04)% after break; the ultimate tensile strength along the building direction is (424±114) MPa, with an elongation of (0.15±0.07)% after break. The tensile fracture morphology of TiAl alloy specimens exhibits quasi cleavage fracture characteristics. By optimizing the scanning strategy and assisting with subsequent heat treatment, it is expected to improve the uniformity of alloy structure and the anisotropy of mechanical properties."/>

最新色国产精品精品视频,中文字幕日韩一区二区不卡,亚洲有码转帖,夜夜躁日日躁狠狠久久av,中国凸偷窥xxxx自由视频

+高級檢索
網(wǎng)刊加載中。。。

使用Chrome瀏覽器效果最佳,繼續(xù)瀏覽,你可能不會看到最佳的展示效果,

確定繼續(xù)瀏覽么?

復(fù)制成功,請在其他瀏覽器進(jìn)行閱讀