Alloy Aa7075(合金 Aa7075)研究综述
Alloy Aa7075 合金 Aa7075 - For this purpose, this study compares the deep drawing behavior of the alloy AA7075 by using different thermally-assisted forming operations. [1] Additively manufactured high strength aluminium (Al) alloy AA7075 was prepared using selective laser melting (SLM). [2]为此,本研究通过使用不同的热辅助成形操作比较了合金 AA7075 的拉深行为。 [1] 使用选择性激光熔化 (SLM) 制备了增材制造的高强度铝 (Al) 合金 AA7075。 [2]
Aluminum Alloy Aa7075 铝合金 Aa7075
In this paper, a new analytical model is proposed to predict the bulge location and geometry in two point incremental forming of an aerospace aluminum alloy AA7075-O for a 67° truncated cone. [1] It is discovered that, various dynamic recrystallization mechanisms were recorded for aluminum alloy AA7075 depending on the imposed strain conditions. [2] In the proposed work, an induction furnace was used to fabricate aluminum alloy AA7075 by melting individual elements such as pure Al, Zn, Mg, and Cu, followed by 10 wt. [3] In addition, an experimental campaign is performed on the aluminum alloy AA7075-O, in order to identify material variability and repeatability of tests. [4] This work investigates the mechanism of bonding and the influence of the process parameters during Friction Assisted Joining of aluminum alloy AA7075 with carbon fiber reinforced PolyPhenylene Sulfide. [5] High-strength aluminum alloy AA7075 is extensively used in aerospace systems in overaged temper condition due to its high strength and stress corrosion cracking resistance. [6] The tests were conducted on hybrid joints made of aluminum alloy AA7075 alloy and semicrystalline Polyamide PA66. [7] This study successfully demonstrated the overall advantages of multistep anodization of heat-treated wrought aluminum alloy AA7075-T6 that is a widely used in aerospace, automotive and fracture-critical applications. [8] In this work, a new Arcan fixture has been designed, and then manufactured from aluminum alloy AA7075-T73. [9] Thus, to fill this research gap in this paper, mixed mode I/II fracture resistance of dissimilar aluminum alloy AA7075-T6 / pure copper butt joints welded by the FSW is investigated both experimentally and theoretically. [10] In this article, we explore the corrosion resistance afforded to aluminum alloy AA7075 substrates by unfunctionalized exfoliated graphite nanocomposite coatings as a function of the exfoliated graphite loading. [11] The optical microstructures of unreinforced, as-cast Aluminum alloy AA7075 and 6 wt% Al2O3 composites for all stirring speeds show dendrite microstructure resulting from the casting process, but the composite at the stirring speed of 850 rpm shows a more refined microstructure. [12] In this study, friction stir welding was used to join sheets of the aluminum alloy AA7075 with commercially pure copper cpCu. [13]在本文中,提出了一种新的分析模型来预测 67° 截锥的航空铝合金 AA7075-O 两点增量成形中的凸起位置和几何形状。 [1] 发现,根据施加的应变条件,记录了铝合金 AA7075 的各种动态再结晶机制。 [2] 在所提议的工作中,使用感应炉通过熔化诸如纯铝、锌、镁和铜等单个元素,然后用 10 wt. [3] 此外,对铝合金 AA7075-O 进行了一项实验活动,以确定材料的可变性和测试的可重复性。 [4] 本工作研究了铝合金AA7075与碳纤维增强聚苯硫醚摩擦辅助连接过程中的粘合机理和工艺参数的影响。 [5] 高强度铝合金AA7075因其高强度和抗应力腐蚀开裂性而广泛用于过时效条件下的航空航天系统。 [6] 测试是在由铝合金 AA7075 合金和半结晶聚酰胺 PA66 制成的混合接头上进行的。 [7] 这项研究成功地展示了热处理变形铝合金 AA7075-T6 的多步阳极氧化的整体优势,该铝合金广泛用于航空航天、汽车和断裂关键应用。 [8] 在这项工作中,设计了一种新的 Arcan 夹具,然后用铝合金 AA7075-T73 制造。 [9] 因此,为填补本文的研究空白,对异种铝合金AA7075-T6/纯铜FSW焊接接头的混合模式I/II断裂抗力进行了实验和理论研究。 [10] 在本文中,我们探讨了非功能化剥离石墨纳米复合涂层赋予铝合金 AA7075 基材的耐腐蚀性与剥离石墨负载的关系。 [11] 在所有搅拌速度下,未增强的铸态铝合金 AA7075 和 6 wt% Al2O3 复合材料的光学显微组织均显示出铸造过程产生的枝晶显微组织,但在 850 rpm 的搅拌速度下,复合材料显示出更精细的显微组织。 [12] 在这项研究中,搅拌摩擦焊用于将铝合金 AA7075 与商业纯铜 cpCu 连接起来。 [13]
Aluminium Alloy Aa7075
It was found that the fluidity length of aluminium alloy AA7075 decreased by almost 20 cm on addition of the reinforcing agent, aluminium oxide. [1] The hybrid sol-gel coatings developed in the present work serve as corrosion protection of aluminium alloy AA7075 and are based on (3-glycidyloxypropyl) trimethoxysilane (GPTMS), tetraethyl orthosilicate (TEOS) and silica (SiO2) nanoparticles, with the addition of cerium nitrate as a corrosion inhibitor. [2] Aluminium alloy AA7075 matrix composites reinforced with varying vol% (5, 10 and 15 vol%) of niobium carbide (NbC) were fabricated by friction stir processing. [3] The joining of high strength aluminium alloy AA7075-T6 sheets of 3 mm thickness was an attempt utilizing friction stir welding process. [4] Aluminium alloy AA7075 matrix composites reinforced with different vol. [5] Žagar and Grum [9] studied two types of aluminium alloys, EN AW 2007 and EN AW 6082, treated by shot peening, in which the surfaces of the metals were subjected to cold deformation Influence of Grinding on Residual Stress Measurements of Shot Peened Aluminium Alloy AA7075 Žagar, S. [6] Aluminium alloy AA7075-T651 is one of the newest and promising commercials rolled sheet metal for structural applications in defensive areas like military, space and air vehicle, aerospace because of its excellent and unbeatable combination of high strength-to-weight ratio and good corrosion resistance, high fatigue strength. [7] First investigations on the highstrength aluminium alloy AA7075 show a temperature-dependent and tensilecompressive asymmetric material behaviour. [8] aluminium alloy AA7075) were used as joint adherends. [9]发现添加增强剂氧化铝后,铝合金 AA7075 的流动长度减少了近 20 cm。 [1] 本工作中开发的混合溶胶-凝胶涂层用作铝合金 AA7075 的腐蚀保护,基于 (3-缩水甘油氧基丙基) 三甲氧基硅烷 (GPTMS)、原硅酸四乙酯 (TEOS) 和二氧化硅 (SiO2) 纳米粒子,并添加了铈硝酸盐作为缓蚀剂。 [2] 通过搅拌摩擦加工制备了用不同体积百分比(5、10 和 15 体积百分比)的碳化铌 (NbC) 增强的铝合金 AA7075 基复合材料。 [3] 3 mm 厚的高强度铝合金 AA7075-T6 板的连接是利用摩擦搅拌焊接工艺的一种尝试。 [4] 不同体积增强的铝合金AA7075基复合材料。 [5] Žagar 和 Grum [9] 研究了两种类型的铝合金,EN AW 2007 和 EN AW 6082,通过喷丸处理,其中金属表面经受冷变形研磨对喷丸铝合金残余应力测量的影响AA7075 扎加尔,S. [6] 铝合金 AA7075-T651 是最新的和有前途的商用轧制金属板材之一,用于军事、航天和飞行器、航空航天等防御领域的结构应用,因为它具有高强度重量比和良好的耐腐蚀性的优异和无与伦比的组合,疲劳强度高。 [7] 对高强度铝合金 AA7075 的首次研究显示了一种与温度相关的拉伸压缩不对称材料行为。 [8] 铝合金AA7075)被用作连接被粘物。 [9]
alloy aa7075 matrix
Aluminium alloy AA7075 matrix composites reinforced with varying vol% (5, 10 and 15 vol%) of niobium carbide (NbC) were fabricated by friction stir processing. [1] Aluminium alloy AA7075 matrix composites reinforced with different vol. [2]通过搅拌摩擦加工制备了用不同体积百分比(5、10 和 15 体积百分比)的碳化铌 (NbC) 增强的铝合金 AA7075 基复合材料。 [1] 不同体积增强的铝合金AA7075基复合材料。 [2]