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1.
结构材料喷射成形技术与雾化沉积高温合金   总被引:3,自引:0,他引:3  
喷射成形是利用快速凝固方法直接制备金属材料坯料或半成品的先进材料制造技术 ,喷射沉积高温结构材料的冶金性能好、生产效率高、成本低 ,因而在近几年得到了迅速发展 .本项研究的主要目的是要通过喷射成形工艺参数的调整、最大限度地直接减少喷射成形坯中的孔隙度 ,进而得到优质坯料 .利用优化的雾化喷射沉积技术制备了多种高温合金沉积坯 ,沉积坯整体致密、晶粒细小、组织均匀、无宏观偏析、含气量低、力学性能提高 .还简要地比较了喷射成形高温合金与用常规铸锭冶金工艺和粉末冶金工艺制备高温合金的异同 ;总结了航空材料研究院喷射成形高温材料近年来的研究状况 ,包括专用高温材料喷射成形装置和技术及其应用 .  相似文献   

2.
中小尺寸高温合金件的无接触电磁成形   总被引:7,自引:1,他引:6  
介绍了一种新型金属熔体无接触电磁成形技术及其原理,该技术将电磁铸造技术与高梯度定向凝固技术融为一体,对于熔化和成形活泼金属、高温合金难熔金属和高纯金属等中小尺寸构件具有重要的研究与应用价值。另外,从电磁场和凝固过程角度讨论了中小尺寸高温合金样件的电磁成形过程,探讨了工艺参数对成形过程的影响规律,并获得了表面质量较好的高温合金样法。  相似文献   

3.
喷射成形技术及应用   总被引:2,自引:1,他引:1  
简要介绍了喷射成形技术的原理、特点,讨论了近几年来喷射成形技术在不锈钢、铸铁、铝合金、高温合金等材料中的应用与发展趋势。  相似文献   

4.
喷射成形高温合金的研究进展   总被引:1,自引:0,他引:1  
李周  田世藩 《材料导报》1999,13(5):18-19,4
喷射成形高温合金具有成分均匀,无宏观偏析,氧含量低,晶粒细小等特征,同时具有较好的综合性能,是喷射成形研究的重要方向和活跃的前沿。简要介绍了喷射成形的基本原理,并对国家外喷射成形高温合金的研究进展情况进行综合评述。  相似文献   

5.
喷射成形过共晶Al-Si合金材料的研究现状   总被引:1,自引:0,他引:1  
过共晶Al-Si合金具有较高的强度、较低的密度和热膨胀系数、良好的耐磨性和耐蚀性,在汽车、造船、航空航天及其他制造行业广泛应用.但当合金中Si含量太高时,合金组织粗大、偏析严重,同时材料的强度、塑性急剧降低而失去使用价值.喷射成形技术是一种全新的材料制备技术,具有快速凝固技术的基本特征,同时还具有生产工序简单、氧化和污染小等优点,在国外已经在特殊钢、高温合金、铝合金和铜合金等方面进行了产业化应用.但利用喷射成形技术来制备和生产过共晶Al-Si合金材料还很不成熟,有许多问题还没有得到妥善的解决,作者提出两点建议来进一步改善过共晶Al-Si合金材料的性能(1)在喷射成形过共晶Al-Si合金中添加微量稀土元素;(2)利用喷射共沉积技术制备过共晶Al-Si合金为基体的纤维增强复合材料.  相似文献   

6.
采用喷射成形技术制备了Al-8.5Fe-1.3V-1.7Si合金,采用透射电镜、X射线衍射和力学性能实验对该合金的组织和性能进行了分析,在合金的显微组织中检测到了第二相粒子.拉伸实验结果表明,由于存在热稳定相Al12(Fe,V)3Si颗粒,喷射成形Al-8.5Fe-1.3V-1.7Si合金在室温和高温下都具有较高的拉伸强度.  相似文献   

7.
喷射成形技术及其在钢铁材料上的应用   总被引:1,自引:0,他引:1  
喷射成形是近年来发展非常迅速的一种近终成形先进冶金工艺技术。与传统铸造工艺及粉末冶金工艺相比,喷射成形设备、工艺简单,能生产偏析小、晶粒细、致密度高的材料。喷射成形技术在铝基合金、铁基合金、高温合金、铜合金及复合材料等方面都得到了广泛的应用。主要介绍该技术的原理及其在钢铁材料方面的应用情况,并讨论了它在钢铁领域的发展趋势,指出喷射成形工艺是一种有望替代粉末冶金工艺生产高合金钢材及一些特殊钢材的崭新工艺。  相似文献   

8.
本文主要研究了大尺寸喷射成形高合金化材料高温合金沉积坯内部疏松成因及其改善工艺。研究认为,高温合金沉积坯中最后凝固部位液相金属补缩不足和断裂应变低是产生疏松的必要条件,而沉积坯的局部收缩变形产生的热应力是造成疏松的重要原因。通过有限元计算,提出一种热控喷射成形工艺,并得到试验验证。该工艺有效减少了坯体内部的疏松等冶金缺陷,改善了沉积坯的质量。  相似文献   

9.
《材料工程》2016,(3):F0002-F0002
先进高温结构材料重点实验室成立于2006年2月,其主要研究方向包括铸造高温结构材料及应用研究、喷射成形高温结构材料及变形高温合金应用研究、粉木高温结构材料应用研究、高温结构材料力学性能测试技术。研究领域几乎覆盖了航空、航天、舰船、电力、石油、核工业等应用的所有高温结构材料。  相似文献   

10.
应用喷射成形技术制备了Cr12MoV钢,采用金相、扫描电镜、X射线衍射等分析方法对其微观组织进行了研究.将喷射成形材料与铸造方法制备的材料进行了对比,结果表明,喷射态合金更加致密,晶粒更加细小,碳化物的分布也更加弥散,合金元素的偏析程度大大降低.  相似文献   

11.
In this paper, we present a new method for inserting several triangulated surfaces into an existing tetrahedral mesh generated by the meccano method. The result is a conformal mesh where each inserted surface is approximated by a set of faces of the final tetrahedral mesh. First, the tetrahedral mesh is refined around the inserted surfaces to capture their geometric features. Second, each immersed surface is approximated by a set of faces from the tetrahedral mesh. Third, following a novel approach, the nodes of the approximated surfaces are mapped to the corresponding immersed surface. Fourth, we untangle and smooth the mesh by optimizing a regularized shape distortion measure for tetrahedral elements in which we move all the nodes of the mesh, restricting the movement of the edge and surface nodes along the corresponding entity they belong to. The refining process allows approximating the immersed surface for any initial meccano tetrahedral mesh. Moreover, the proposed projection method avoids computational expensive geometric projections. Finally, the applied simultaneous untangling and smoothing process delivers a high‐quality mesh and ensures that the immersed surfaces are interpolated. Several examples are presented to assess the properties of the proposed method.  相似文献   

12.
13.
A flow calorimeter for enthalpy increment measurements on condensed gases is presented. A better knowledge of the properties of the liquefied natural gas is needed, and therefore a liquid loop has been designed for our flow calorimeter. The fluid loop in the calorimeter is designed in order to avoid the two-phase region, since two phases would give compositional disturbances in the measurements. The avoidance of the two-phase region is made possible by increasing the pressure of the test fluid after the measurement section, then heating the fluid at super-critical pressure past the critical point. Finally, the fluid is throttled to the low-pressure gas state at the inlet condition of the compressor that circulates the fluid. To perform the pressure increase, a new cryogenic pump has been designed. To evaluate the new equipment, measurements were taken on liquid ethane over the temperature range 146–256 K at pressure between 0.9 and 5.1 MPa.  相似文献   

14.
On November 30, 2007, the China Association for Standardization (CAS) held a press conference at Beijing Diaoyutai State Guest House. Leaders from the China Household Electric Appliance Research Institute, the China Household Electric Appliance Association, and the China Consumers' Association attended and made speeches.……  相似文献   

15.
Standards are the basis for production enterprises to organize production, ex-factory inspection, trade (delivery) and technical exchanges, product certification, quality arbitration and supervision.……  相似文献   

16.
In the present study a high‐boron high speed steel (HSS) roll material was designed. Many expensive alloy elements have been substituted by cheap boron alloy, and high‐boron high speed steel roll has been manufactured by centrifugal casting method. The microstructures, mechanical properties and wear resistance of centrifugal casting high‐boron high speed steel roll have been investigated by optical microscopy (OM), scanning electron microscopy (SEM), and X‐ray diffraction (XRD) analysis, hardness test, impact test and wear test. The results indicated that the solidification microstructures of high‐boron high speed steel roll consisted of M2(B,C), (W,Mo)2(B,C), M3(B,C), M23(B,C)6 type borocarbides and martensite, a small amount of retained austenite. Borocarbides were continuously distributed over the grain boundary. After quenching from 1050 °C, local broken network appeared in partial borocarbides, and fine secondary borocarbide precipitated from the matrix. After tempering from 525 °C, the amount of precipitated borocarbide increased significantly. After heat treatment, the hardness of high‐boron high speed steel roll excelled 60 HRC, and its impact toughness excelled 8.0 J/cm2. The single groove steel rolling amount of high‐boron high speed steel rolls increases by 500% than that of bainite cast iron roll, when the rolls are used in K1 mill housing of bar mill.  相似文献   

17.
A four-ball tester was used to evaluate the anti-wear performance of three kinds of organomolybdemun compounds in the engine oils, i. e., molybdenum dialkyldithiophosphate (MoDDP), molybdenum dialkyldithiocarbamate ( MoDTC), and sulphur and phosphorus freeorganomolybdeum (Molybdate). The results indicate that a low concentration of MoDDP doesn' t improve the anti-wear properties of the commercial engine oils, but a high concentration of MoDDP can obviously improve the anti-wear properties and the load-carrying capacity of the engine oils. MoDTC doesn' t improve the antiwear properties of the engine oils, but worsens the anti-wear properties of the oils. Signifi can timprove ment of frictional and wear characteristics is obtained with Molybdate added in the commercial engine oils and the formulated oils.  相似文献   

18.
The definition of the thixotropy is a decrease in viscosity with time in shear and a subsequent recovery of viscosity after the shear deformation is removed.We ...  相似文献   

19.
Several researches have been reported about the characteristic of β-Ga2O3 nanowires which was synthesized on nickel oxide particle. But indeed, recent researches about synthesis of β-Ga2O3 nanowires on oxide-assisted transition metal are limited to nickel or cobalt oxide catalyst. In this work, Gallium oxide (β-Ga2O3 ) nanowires were synthesized by a simple thermal evaporation method from gallium powder in the range of 700 - 1000℃ using the iron, nickel, copper, cobalt and zinc oxide as a catalyst, respectively. The β-Ga2O3 nanowires with single crystalline without defects were successfully synthesized at the reaction temperature of 850, 900 and 950℃ in all the catalysts. But optimum experimental condition in synthesis of nanowires varied with the kind of catalyst. As increasing synthesis temperature,the morphology of gallium oxide nanowires changed from nanowires to nanorods, and its diameter increased. From these results, we could be proposed that the growth mechanism of β-Ga2O3 nanowires was changed with synthesis temperature of nanowires. Microstructure and morphology of Synthesized nanowire was characterized by HR-TEM, FE-SEM, EDX and XRD.  相似文献   

20.
Cubic boron nitride(c-BN) film was deposited on a Si (100) substrate by the RF-magnetron sputtering.The mainly problems for fabrication of c-BN films are the low purity and high intrinsic compressive stress. In order to solve the two problems, the c-BN film with the buffer interlayer was deposited on the substrate which had been implanted with nitrogen and/or boron ions. The results show: the implantation of nitrogen ions can obviously increase c-BN content and reduce the internal stress slightly; while the implantation of boron shows no obvious improvement to the content of c-BN, which can reduce the internal stress in the film obviously. In addition, it is suggested that the implantation of nitrogen and boron shows the best result, which not only can increase the content of c-BN, but also reduce the internal stress in the c-BN film obviously.  相似文献   

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