The Improvement of Oxidation Resistance of a Re-Based Diffusion Barrier/Ni�CAl Coating on the Single-Crystal Ni-Based TMS-82+ Superalloy

Oxidation behavior of a Re-based diffusion barrier/Ni?CAl coated single-crystal (SC) Ni-based TMS-82+ superalloy was studied to compare with those of the base and Ni?CAl coated superalloys under cyclic air at 1150 °C for 200 h. The base superalloy showed a negative mass gain due to extensive oxide spallation, and the Ni?CAl coated superalloy without the diffusion barrier started to spall slightly after about 90 h. The oxidation resistance of the Ni?CAl coated superalloy with the Re-based diffusion barrier was greatly improved due to the formation of a dense ??-Al₂O₃ layer in the scale. The Re-based alloy was an effective diffusion barrier layer against inward diffusion of Al and outward diffusion of alloying elements in the alloy substrate due to the reduced thickness of interdiffusion zone with small amount of detrimental precipitates and higher content of Al in the Ni?CAl coating that supplied enough Al for formation of the ??-Al₂O₃ layer.     

Development of Re‐based diffusion barrier coatings on nickel based superalloys

A diffusion barrier type coating with a duplex layer structure, an inner σ‐(Re, W, Cr, Ni) as a diffusion barrier and outer Ni‐aluminide as an Al reservoir, was formed on a Nickel based, single crystal, superalloy (TMS‐82 +) and on Hastelloy X. Oxidation properties of both the alloys with or without the diffusion barrier coating were investigated in air under thermal cycling between room temperature and 1423 K for up to 360 ks. The inner σ layer with a composition (at%) of (35–40) Re, (15–20) W, (15–25) Cr and (15–25) Ni was produced by electrodeposition of Ni‐70Re and Ni‐20W films from aqueous solutions followed by Cr‐pack cementation at temperatures between 1473 and 1573 K, and the outer Ni‐aluminides of β‐(Ni,Cr)Al + γ′‐(Ni,Cr)₃Al was formed by electrodeposition of a Ni film, followed by Al pack cementation. After the 360 ks oxidation it was found that the structure and composition of both σ layer and alloy substrate were retained with little change. Furthermore, there was little Al in the σ layer. It could be concluded that the Re‐based alloys such as σ (Re(W),Cr,Ni) are very promising candidates as a diffusion barrier between the outer Al‐reservoir layer and alloy substrate at temperature of 1423 K. It was found that the Re(W)‐Cr‐Ni acts as a diffusion barrier for both inward diffusion of Al and outward diffusion of alloying elements in the alloy substrate.     

Effect of creep deformation on oxidation behavior of nickel‐based alloy with Re‐based diffusion barrier coating

Oxidation and creep behaviors of a Ni‐Mo‐based alloy (Hastelloy‐X) with a diffusion barrier coating consisting of duplex, inner Re‐based alloy, and outer β‐NiAl layers were investigated at 1243 K in air with an external tensile stress of 22.5 MPa. For comparison the alloys, as‐received, heat treated, and with the Ni‐aluminide coating, were oxidized under creep deformation. Creep rapture time for the diffusion barrier‐coated alloy was longer than those for the bare alloy and with the β‐NiAl‐coated alloy. After creep deformation to a strain of 3.5% for 190 h, it was found that the Re‐based alloy layer has few cracks and flaws and the β‐NiAl layer has the similar structure and composition before and after the creep test. The external scale mainly consisted of θ‐Al₂O₃ at the early stage of creep, and with further oxidation the external scale became a duplex layer, inner, equi‐axed α‐Al₂O₃, and outer, plate‐like θ‐Al₂O₃, which exfoliated significantly. It was concluded that the Re‐based alloy layer acts effectively as a barrier against inward Al diffusion and outward diffusion of alloy elements under creep deformation.     

离子镀TiN膜层的阻扩散性

研究了用离子镀方法沉积 TiN 膜作为高温环境下耐热涂层和基体之间扩散壁障(中间阻挡层)的可行性。结果表明,有 TiN 中间层试样。其高温抗氧化性能明显提高,TiN 层在一定温度范围内有良好的稳定性和阻扩散性。阐述了以Al 为耐热涂层时,TiN 中间层阻挡 Al 原子扩散的机理。     

Oxidation Behavior of a Re-Base Diffusion-Barrier/β-NiAl Coating on Nb–5Mo–15W at High Temperatures

A β-NiAl coating with or without a Re-base alloy layer was formed on a Nb–5Mo–15W alloy. The coated alloys were oxidized isothermally in air at 1373 and 1473 K. Electroplating of a high (more than 70at.%)-Re–Ni film, Cr-pack cementation, Ni plating, and then Al-pack cementation, in this sequence, formed a coating structure with Re-base alloy and β-NiAl layers. The Re-base alloy layers were comprised of an outer σ-phase in the Re–Cr(Ni) system and an inner χ-phase in the Re–Nb(Cr) system. It was found that reaction between the β-NiAl and the alloy substrate was significantly suppressed when the Re-base alloy layers were present. The Re-base σ and χ phases were found to be good candidates for a diffusion barrier against inward-Al diffusion because they have very low solubilities for Al.     

Aluminization of high purity iron and stainless steel by powder liquid coating

Powder liquid coating is investigated metallographically as an aluminization technique for high-purity iron [Acta Mater., in press] and stainless steel. In this process, Fe₂Al₅ forms initially during heat treatment, with c axis preferentially aligned with the sample normal. In Fe–18mass%Cr alloy, Cr exhibits almost the same concentration profile as Fe except for the temporary formation of a Cr₅Al₈ network in the early stage of heat treatment. Fe–25Cr–18Ni alloy forms a thinner aluminized layer compared to the other substrates, and contains an Al–Ni-rich layer and spherical precipitates (ordered B2). The diffusion of Al and Ni in the system (B2/bcc/fcc) is simulated using a new formulation of the diffusion equation for the ternary Fe–Al–Ni system taking the concentration-dependent interdiffusion coefficient into account. The bcc layer is found to be predominantly in a steady state due to the large interdiffusion coefficients, and characteristic uphill diffusion of Al in the B2 layer is attributed to the existence of Ni.     

An Al+Y Coating Process for Improvement of the High-Temperature Oxidation Resistance of a TiAl Alloy

An Al+Y codeposition by a single EB–PVD process has been developed to improve the high-temperature oxidation resistance of a TiAl alloy. The Al+Y codeposited TiAl alloy with various ratios of Al and Y evaporation sources was evaluated by isothermal and cyclic-oxidation tests. The coating layer has a composition gradient because of the difference in vapor pressure between Y and Al. The oxidation resistance can be extensively improved by the formation of an Al+Y codeposition layer and it depends on the ratio of the source material of Al and Y. The best oxidation resistance was obtained from the Al+Y codeposited TiAl alloy with a ratio of Al:2Y. With the proper ratio of Al:Y, the Al+Y codeposition coating forms two layers of the oxides during high-temperature oxidation+the outer (Y, Al)O layer and the inner Al₂O₃ layer, containing small amounts of Y oxide. These oxide layers, which have a fine grain size, act as a diffusion barrier, thus suppressing the rate of inward diffusion of O and may readily relieve thermal stresses.     

NiCrAlY/Al-Al2O3/Ti2AlNb高温抗氧化和力学性能研究

采用电弧离子镀技水在NiCrAlY涂层与O相Ti₂AlNb合金之间沉积不同Al:Al₂O₃比例的Al-Al₂O₃薄膜作为扩散阻挡层.研究了900℃下恒温氧化500 h后NiCrAlY/Al-Al₂O₃/Ti₂AlNb体系中Al-Al₂O₃层阻挡合金元素互扩散的行为,以及对涂层氧化动力学曲线的影响.结果表明,没有添加扩散阻挡层的NiCrAlY/Ti₂AlNb体系,涂层和基体之间的元素互扩散十分严重,涂层丧失抗氧化能力;而添加扩散阻挡层的材料体系,涂层和基体之间的元素互扩散受到抑制,涂层的长期抗高温氧化性能得到提高.对于3Al-Al₂O₃,1Al-Al₂O₃和0Al-Al₂O₃ 3种扩散阻挡层,综合比较材料体系的抗氧化性能、阻挡层阻挡涂层和基体元素互扩散能力、以及涂层和基体之间结合力,当1Al-Al₂O₃薄膜作为扩散阻挡层时,材料性能最优异.同时,本文利用扩散阻挡系数简洁定量地表示出不同Al:Al₂O₃比例阻挡层的阻挡扩散能力.     

汽车发动机用AZ91D合金的表面喷涂与性能

采用热喷涂工艺在压铸态AZ91D合金表面制备了Al涂层,研究了热处理温度和保温时间对AZ91/Al涂层界面组织形貌的影响,并对比分析了扩散层的耐腐蚀性能和耐磨性能。结果表明,热处理前Al涂层与基材为机械结合,热处理后Al涂层与AZ91合金基材的界面处可形成冶金结合扩散层,且随着保温时间延长,扩散层厚度不断增加;热处理温度在375 ℃以下时扩散层主要由β-Mg₁₇Al₁₂相构成,375 ℃×8 h热处理后为α-Mg+β-Mg₁₇Al₁₂相,425 ℃×1 h热处理后为γ-Mg₂Al₃和β-Mg₁₇Al₁₂相。AZ91合金基材和扩散层腐蚀电位从高至低顺序为γ>β>α+β>AZ91合金基材,扩散层的腐蚀电流密度均低于AZ91合金基材,阻抗谱图中容抗弧半径从大至小顺序为γ>β>α+β>AZ91合金基材,扩散层的耐腐蚀性能均优于AZ91合金基材;γ、β和α+β扩散层的摩擦稳定性系数都高于AZ91合金基材,而磨损速率和磨痕宽度都要小于AZ91合金基材,其中β扩散层的磨损速率和磨痕宽度最小,具有最佳的抵抗磨损的能力。     

Probing into diffusion bonding of laser surface treated γ-Ti–Al alloy/Ti–6Al–4V alloy

Abstract

In this work, a novel diffusion bonding technique combining the laser surface treatment (LST) with the diffusion bonding is used to join a γ-Ti–Al alloy with a Ti–6Al–4V alloy. By using the LST and subsequent heat treatment, a layer with a fine grain structure can be obtained on their surface of the two alloys. The diffusion bonding behaviour between γ-Ti–Al alloy and Ti–6Al–4V alloy with or without LST under the different bonding conditions is investigated. The result reveals that LST can improve the diffusion bonding behaviour of the two alloys, and the three point bending strength of the joints can be promoted. The sound bonding between the two alloys with the LST is achieved at 1173 K under 80 MPa in 2 h.     

Formation of a Rhenium-base Diffusion-barrier-coating System on Ni-base Single Crystal Superalloy and its Stability at 1,423 K

A diffusion-barrier-coating system having a duplex structure comprised of an inner Re(W)–Cr–Ni layer and an outer Ni-aluminide layer was formed on a fourth generation, single-crystal Ni-base superalloy by using electroplating of Re(Ni) and Ni(W) films, Al- and Cr- (high-Cr and low-Cr) pack cementations, and a combination of the two treatments. With the ReW-high-Cr coating, fine needle- or plate-like precipitates formed in the alloy substrate below the inner Re(W, Cr, Ni) layer, while there was little of this precipitate with the ReW-low-Cr pack-cementation coating. The inner, Re-base alloy layer in the ReW-high-Cr coating was identified to be a σ-(Re,Cr,W,Ni) phase, while the inner layer of the ReW-low-Cr was a mixture of σ-(Re,Cr,W,Ni) and δ-Re(Cr,W,Ni) phases. After heating the coated alloys at 1,150 °C for 100 h in air, the outer Al reservoir layer became β-NiAl containing (31–33)Al with α-Cr particles and fine precipitates of γ′-Ni₃Al with both the ReW-high-Cr and ReW-low-Cr treatments. In the case of the ReW-high-Cr coating there were numerous light-colored, needle-like precipitates formed deep in the alloy substrate under the inner layer, while in the case of the ReW-low-Cr coating γ′ appeared near the inner layer. It was found that the inner, Re-base alloy layer acted as a diffusion barrier, and that its structure was maintained with little change in composition after 100 h of oxidation at 1,150 °C. K. Z. Thosin is from Indonesian Institute of Sciences, LIPI.     

TiAl-Nb基合金高温抗氧化研究进展

TiAl-Nb基合金具有优异的综合性能,在先进飞行器及武器等耐高温部件中有巨大的应用潜力,但其高温抗氧化性能无法满足实际使用需求。综述了TiAl-Nb基合金高温抗氧化防护方面的研究进展,包括TiAl-Nb基合金的多元合金化、表面合金化、抗氧化涂层及其抗氧化机理,通过分析不同氧化防护措施的特性,展望了TiAl-Nb基合金高温抗氧化防护的发展趋势。国内外研究结果显示,通过多元合金化方法改善合金组织,并在氧化过程中促进形成保护性Al_2O_3而抑制形成TiO_2,是提高TiAl-Nb基合金高温抗氧化性能的有效手段。利用表面合金化对合金表面的显微组织和成分进行改善,氧化时促进抗氧化性能优良的Al_2O_3或SiO_2保护膜形成,显著提高了TiAl-Nb基合金的抗氧化性能。但高温下合金化层与基体之间的Al、Si、Ti等元素的互扩散会加剧合金化层的退化,进行表面多元合金化,特别是添加微量活性元素,对促进保护性氧化膜的形成及抑制互扩散有良好效果。通过制备表面抗氧化涂层,在氧化时生成保护性氧化膜,阻碍O的内扩散,能够起到良好的高温抗氧化作用,但需要解决涂层/基体合金的结合力较差和反应扩散等问题,制备复合涂层或扩散阻挡层是解决上述问题的有效途径。     

Diffusion barrier behaviors of (Ru,Ni)Al/NiAl coatings on Ni-based superalloy substrate

For Ni-based single crystalline superalloy with high temperature protective coatings, the formation of detrimental phases in the superalloy substrate resulting from interdiffusion between the coatings and the substrate significantly degrades the mechanical properties of the substrate. In this paper, a novel (Ru,Ni)Al/NiAl diffusion barrier coating was produced by electrodeposition of Ru together with electron beam-physical vapor deposition of Ni–Al layer. The microstructure and diffusion barrier behavior of the (Ru,Ni)Al/NiAl coating was investigated by scanning electron micrograph (SEM) equipped with energy dispersive spectroscopy (EDS). SRZ mainly consisting of P phase and other TCP phases were presented beneath the NiAl coating due to the interdiffusion between the coating and Ni-based superalloy. The (Ru,Ni)Al layer effectively slowed down inward diffusion of Al from the coating and outward diffusion of alloying elements such as W and Mo, therefore suppressed the formation of TCP phases and SRZ.     

Evaluation of aluminide diffusion coatings for thermal cyclic oxidation protection of a nickel‐base superalloy

Active element modified aluminide diffusion coatings on IN738 substrates were produced by a new route using continuously cast, aluminum alloy wires consisting of Al‐Y, Al‐Ce, Al‐La and Al‐Si‐Y. The cast wires were used as evaporation sources for ion‐vapour deposition followed by diffusion heat treatments to form nickel aluminide coatings. In order to examine the oxidation resistance of these coatings at elevated temperatures, thermal cyclic oxidation experiments were carried out in air at 1050°C. While all coatings were found to provide significant protection, the Al‐La modified coatings provided the greatest resistance to cyclic oxidation. On the other hand, with coatings based on Al‐Si‐Y alloys, while silicon has a strong ability to reduce the outward diffusion of aluminum, the adverse effect of silicon on mechanical properties of the coating, together with the formation of volatile silicon monoxide, led to catastrophic localized oxidation of the protective coatings.     

Oxidation protection of NiCoCrAlY coatings on γ-TiAl

The effect of NiCoCrAlY overlay coatings on the oxidation resistance of γ-TiAl was studied at 900 ℃ in static air. To hinder the interdiffusion of the elements, the Al/Al2O3 layer was added between the coating and the alloy. The results show that the TiAl alloy exhibits poor oxidation resistance. NiCoCrAlY coating can not effectively protect the γ-TiAl substrate from high temperature oxidation because of the serious interdiffusion between the coating and the substrates. With Al/Al2O3 diffusion barrier, the NiCoCrAlY coating exhibits excellent oxidation protection on γ-TiAl alloy.     

Re对Ni_3Al-Mo基合金的1150℃氧化性能的影响(英文)

研究3种Ni3Al-Mo基合金在1150℃时的静态氧化行为。采用XRD、SEM和EPMA对氧化后试样的表面、截面形貌以及元素在氧化膜的分布进行研究。结果表明:氧化膜主要分为3层,最外层为NiO层,中间层由NiO、NiAl2O4及少量NiMoO4组成,最内层主要由富Al的NiAl2O4、Al2O3组成。Re元素主要分布在中间层,在氧化过程中起到"扩散障"作用,降低Al、Mo元素向外扩散的速率,促使在内层形成富铝氧化膜层以降低氧化速率,提高合金的抗氧化能力。     

Formation and Oxidation Behavior of a Diffusion-Barrier-Coating System on a Ni–Mo base Alloy at 1,373 K in Air

A Ni-aluminide/Re-base diffusion-barrier-coating system and, for comparison, a sole Ni-aluminide coating were formed on the Ni–Mo based alloy Hastelloy-X, and the oxidation behavior of the coated alloys was investigated in air at 1,100 °C for up to 400 h. After 100 h of oxidation the diffusion-barrier-coating system consisted of a duplex structure comprised of an inner σ-(Re, Mo, Cr, Ni) and an outer β-NiAl layers and covered by a protective Al₂O₃ scale. By contrast, the Ni-aluminide coating had degraded, forming a reaction diffusion zone, γ-Ni(Cr, Mo, Fe, Al), with voids, and the external scale exfoliated extensively. After 400 h of oxidation of the diffusion-barrier-coating system, an intermediate reaction-diffusion zone was present. The Mo of the alloy substrate was enriched in the inner σ-layer, changing it from a Re-base alloy to a Mo-base alloy. The Mo-base alloy appeared to enhance both inward-Al diffusion and outward diffusion of alloying elements such as Mo, Fe, and Cr to form the intermediate reaction-diffusion zone. The outer layer consisted mainly of β-NiAl with channels of γ-Ni(Cr, Mo, Fe, Al). It was concluded that the Re-base alloy such as a σ-phase in the Ni–Cr–Re system acts as an effective diffusion-barrier layer, but that this is not the case for the Mo-base alloy layer.     

合金元素对典型阻燃钛合金燃烧行为的影响

阻燃钛合金是飞机发动机核心部件中的重要材料，由于钛合金燃烧过程难以控制，燃烧参数难以获得加大了研究难度。论文以典型阻燃钛合金Ti40和Ti14为研究对象，利用高速摄影在不同氧分压环境下通过直流点火研究其燃烧行为，探索其燃烧过程中的氧扩散过程，明确合金元素对阻燃行为的影响 。研究发现两种合金燃烧后均形成分层结构，Ti40合金中Cr和V元素向外扩散，和氧反应生成Cr2O3/V2O5，密度高于TiO2的密度，Ti原子很难通过Cr2O3向外扩散与氧反应，提高燃烧表面致密度，抑制氧的扩散；而对于Ti14合金，共析反应生成大量的液相，富Cu相包裹Ti相球化晶粒形成Cu元素富集层，隔离氧并减少钛与氧的接触，从而降低氧向基体的扩散速率，同时Cu相的包裹作用增加氧扩散的距离，氧需要更多的能量扩散与Ti接触并反应，从而抑制了反应的发生。     

Effect of heat treatment on interfacial and mechanical properties of A6022/A7075/A6022 roll-bonded multi-layer Al alloy sheets

Multi-layered Al alloy sheets can exhibit unique properties by the combination of properties of component materials. A poor corrosion resistance of high strength Al alloys can be complemented by having a protective surface with corrosion resistant Al alloys. Here, a special care should be taken regarding the heat treatment of multi-layered Al alloy sheets because dissimilar Al alloys may exhibit unexpected interfacial reactions upon heat treatment. In the present study, A6022/A7075/A6022 sheets were fabricated by a cold roll-bonding process, and the effect of the heat treatment on the microstructure and mechanical properties was examined. The solution treatment gave rise to the diffusion of Zn, Mg, Cu and Si elements across the core/clad interface. In particular, the pronounced diffusion of Zn, which is a major alloying element (for solid-solution strengthening) of the A7075 core, resulted in a gradual hardness change across the core/clad interface. Mg2Si precipitates and the precipitate free zone were also formed near the interface after the heat treatment. The heat-treated sheet showed high strengths and reasonable elongation without apparent deformation misfit or interfacial delamination during the tensile deformation. The high strength of the sheet was mainly due to the T4 and T6 heat treatment of the A7075 core.     

电泳共沉积NiCoCrAlY粘结层制备及抗高温氧化研究

目的 分析研究Ni基合金与粘结层之间的扩散和界面反应规律,以及其对热障涂层的抗高温氧化性能和工作寿命的影响.方法 采用电泳共沉积、真空致密化处理,在K17镍基高温合金表面制备NiCoCrAlY粘结涂层,并进行1000℃×100 h抗高温氧化实验,采用XRD、SEM、EDS分析NiCoCrAlY粘结涂层在高温氧化过程中合金元素的扩散规律.结果 高温氧化动力学曲线表明,氧化100 h制备的NiCoCrAlY粘结涂层的氧化速率为17.2134 mg/cm2,远低于K17镍基高温合金的.Ni由涂层向基体内扩散,Cr和Co向外扩散,Al向界面处扩散.电泳沉积制备的NiCoCrAlY粘结层经真空致密化处理后,涂层均匀、致密,粘结层主要由Ni3 Al、Al3 Y5 O12、Cr23 C6以及α-Al2 O3等组成.结论 NiCoCrAlY粘结涂层的抗高温氧化性高于K17镍基高温合金,在高温氧化过程中,α-Al2 O3氧化膜提高了NiCoCrAlY粘结涂层的高温抗氧化性.Ti主要来自基体的缺陷中,随着高温氧化作用,获得了由基体向外扩散所需要的能量,并且同时与氧反应生成TiO,TiO容易在粘结层表面形成泡状物质,Ti的扩散对粘结层的致密度与均匀度造成一定的影响.