铸态AZ31镁合金强流脉冲离子束改性

利用强流脉冲离子束（C+,H+）对变形镁合金AZ31的压铸件靶材分别进行1,5,10,20,30,50和100次辐照实验,分析辐照前后表面形貌和相组成,并检测辐照表面及横截面沿深度方向显微硬度。结果表明：HIPIB辐照次数对靶材形貌影响较大,多次辐照使靶材熔坑呈周期性变化趋势;-Mg17Al12相弥散分布于-Mg相中。1～30次辐照,表面显微硬度提高,其主要原因为晶粒细化及微应变导致的晶体缺陷;30～50次辐照,显微硬度显著降低,其原因在于晶体缺陷的演变,如位错移动导致的小角度晶界形成,甚至出现回复再结晶过程;50～100次辐照表面显微硬度略有降低,其原因在于辐照表面组织结构及热力学行为达到稳定态。辐照效应形成冲击应力波导致长程硬化,20次辐照的横截面显微硬度在距表层30 m和240 m处分别达到极大值1.0 GPa和1.3 GPa。     

利用强流脉冲离子束技术在室温下沉积类金刚石薄膜研究

利用强流脉冲离子束技术在Si基体上快速大面积沉积类金刚石(DLC)薄膜.电压为250kV,束流密度为250A·cm-2,脉宽为80—100ns,能流密度为5J·cm-2的离子束(主要由碳离子和氢离子组成)聚焦到石墨靶材上,使石墨靶材充分蒸发和电离,在石墨靶的法线方向的Si基体上沉积非晶的碳薄膜.Raman谱分析显示,所沉积薄膜为类金刚石薄膜.随着靶材与基体之间距离的减小,薄膜中sp3碳成分含量增加,同时硬度值也有所增大,并且薄膜的摩擦系数和表面粗糙度增加.x射线光电子能谱(XPS)分析显示薄膜中的sp3碳 关键词： 强流脉冲离子束 类金刚石薄膜 XPSRaman谱分析     

用偏压法拉第筒测量强流脉冲离子束

 分析了偏压法拉第筒测量强流脉冲离子束的原理和影响测量准确度的主要因素,研制了一种结构简单的偏压离子法拉第筒阵列,利用该装置测量了200kV小型强流脉冲离子束源的束流密度分布,束流中心密度最大值约为170A/cm²。     

用偏压法拉第筒测量强流脉冲离子束

分析了偏压法拉第筒测量强流脉冲离子束的原理和影响测量准确度的主要因素,研制了一种结构简单的偏压离子法拉第筒阵列,利用该装置测量了200kV小型强流脉冲离子束源的束流密度分布,束流中心密度最大值约为170A/cm2。     

强脉冲离子束与新材料工艺

近几年强脉冲离子束胜材料表面改性和薄摹研究表明，强脉冲能量效应赋予离子束新的物理性质，非常有希望形成高效率、低成本的离子束工艺，为此对脉中功率密度为１０＾－６－－１０＾９Ｖ／ｃｍ＾２、脉冲宽度〉１μｓ的强脉冲子束辐照效应强脉冲离子源及其在材料研究中的应用前景进行了评述。     

强流脉冲离子束辐照对不锈钢耐腐蚀性能的影响

 利用强流脉冲离子束（HIPIB）对316L不锈钢进行了表面辐照处理,研究了HIPIB辐照对其在0.5mol/L H2SO4溶液中电化学腐蚀性能的影响。极化曲线测量结果表明,HIPIB辐照能够显著提高316L的抗腐蚀性能,自腐蚀电流对辐照次数的依赖性与自腐蚀电位相比明显较强。采用扫描电子显微镜（SEM）、X射线衍射（XRD）和电子探针（EPMA）分析辐照后试样表面形貌、表面层相结构和元素分布的变化。结果表明：HIPIB辐照使试样表面光滑化,表面层产生择优取向,且发生了杂质元素的选择性烧蚀,是316L不锈钢耐电化学腐蚀性能得以提高的主要原因。     

强流脉冲离子束与靶作用域值的研究

结合Monte Carlo 方法和热力学方法，建立了脉冲离子束能量模型以及靶材相变温度模型. 利用该模型可以确定产生喷发等离子体的域值，得到强流脉冲离子束与靶材作用过程中靶材 温度的变化规律以及形成喷发等离子体的初始温度. 关键词： 强流脉冲离子束 靶 域值 数值研究     

强流脉冲离子束辐照对不锈钢耐腐蚀性能的影响

利用强流脉冲离子束（HIPIB）对316L不锈钢进行了表面辐照处理,研究了HIPIB辐照对其在0.5mol/L H2SO4溶液中电化学腐蚀性能的影响。极化曲线测量结果表明,HIPIB辐照能够显著提高316L的抗腐蚀性能,自腐蚀电流对辐照次数的依赖性与自腐蚀电位相比明显较强。采用扫描电子显微镜（SEM）、X射线衍射（XRD）和电子探针（EPMA）分析辐照后试样表面形貌、表面层相结构和元素分布的变化。结果表明：HIPIB辐照使试样表面光滑化,表面层产生择优取向,且发生了杂质元素的选择性烧蚀,是316L不锈钢耐电化学腐蚀性能得以提高的主要原因。     

强磁与应力场耦合作用下AZ31镁合金塑性变形行为

研究强磁场对AZ31镁合金塑变能力和微观组织的作用,在3 T脉冲强磁场条件下对合金进行磁场耦合应力时的拉伸实验.采用电子背散射衍射、Ⅹ射线衍射和透射电镜分析等方法研究材料的微观组织.结果表明:与0 T拉伸试样相比,3 T拉伸试样抗拉强度和延伸率分别提高了2.2%和28.7%,说明将强磁场耦合作用于材料塑性变形过程时,能在不降低材料强度的同时提高镁合金的塑性变形能力,有助于同步改善材料强韧性.磁场作用机理主要表现为磁致塑性效应,计算表明主要合金相β(Mg_(17)Al_(12))为顺磁性,有助于发挥磁场作用效果.磁场提高了位错运动灵活性并促使位错增殖,晶界处位错堆积和应力集中促进了再结晶形成,晶粒发生细化,发挥细晶强韧化效果;同时磁场诱发塑性变形时的晶粒转动,新生成非基面取向的晶粒弱化了镁合金(0001)基面织构,该组织特征有助于提高材料的塑变能力.     

流脉冲离子束辐照对DZ4合金性能的影响

 用含Cⁿ⁺和H⁺、加速电压250 kV、脉冲宽度70 ns、束流密度160 A/cm²的强流脉冲离子束辐照DZ4合金，辐照次数分别为2，5，10，15。实验结果表明：辐照后样品的表面出现了熔坑，多次脉冲辐照后样品的表面熔坑边缘模糊甚至消失。近表面存在厚1~2 mm的重熔层，晶粒较细，晶界模糊；熔坑周围富集Cr和Mo等元素;强流脉冲离子束辐照处理后DZ4合金的耐腐蚀性能明显提高，腐蚀速率下降,这是由于辐照减弱了由于晶界和晶粒本体的成分差异而引起的晶界腐蚀；同时离子束辐照后的DZ4合金在高温氧化时更容易形成一层连续的保护性氧化物，其主要成分是致密的Al₂O₃，使得DZ4合金的耐高温氧化性能也有所改善。     

Corrosion behaviors in physiological solution of cerium conversion coatings on AZ31 magnesium alloy

In this paper, a non-toxic Ce-based conversion coating was obtained on the surface of bio-medical AZ31 magnesium alloys. The micro-morphology of the coating prepared with optimal technical parameters and immersed in physiological solution (Hank's solution) in different time was observed by scanning electron microscopy (SEM), composition of the cerium conversion coating and corrosion products in Hank's solution were characterized by X-ray photoelectron spectroscopy (XPS) and energy dispersive spectroscopy (EDS), respectively. In addition, the corrosion property in Hank's solution was studied by electrochemical experiment and immersion test. The results show that the dense Ce-based conversion coating is obtained on the surface of AZ31 magnesium alloys in optimal technical parameters and the conversion coating consists of a mass of trivalent and tetravalent cerium oxides. The cerium conversion coating can provide obvious protection of magnesium alloys and can effectively reduce the degradation speed in Hank's solution. Also the degradation products have little influence on human body.     

Optimization of laser beam welding process parameters to attain maximum tensile strength in AZ31B magnesium alloy

An empirical relationship is developed to predict tensile strength of the laser beam welded AZ31B magnesium alloy by incorporating process parameters such as laser power, welding speed and focal position. The experiments were conducted based on a three factor, three level, central composite face centered design matrix with full replications technique. The empirical relationship can be used to predict the tensile strength of laser beam welded AZ31B magnesium alloy joints at 95% confidence level. The results indicate that the welding speed has the greatest influence on tensile strength, followed by laser power and focal position.     

激光诱导AZ31B镁合金薄板动态响应实验研究

为分析在激光冲击波作用下AZ31B镁合金薄板背面的动态响应,采用聚偏氟乙烯贴片传感器与数字示波器对强激光诱导的冲击波进行测量,得到压电波形,结合冲击波的传播特性,对弹塑性双波的传播规律进行了研究。结果表明：激光诱导的材料动态响应是快速的;压电波形图反映出的弹性前驱波与塑性加载波传播到靶材背面的时间与理论时间相符;弹性前驱波能量小引发的波形振幅较小,紧随着的塑性加载波能量大并引起较大振幅波动,弹塑性双波卸载过程与紧接着的加载过程导致了压电信号的波动振幅提高。     

Phase transformation of graphite irradiated by high-intensity pulsed ion beams

The microstructure and morphology of graphite irradiated by high-intensity pulsed ion beams (HIPIB) has been studied by varying the ion current density as 200, 350 and 1500 A/cm² with one to five shots. Phase transformation from graphite to diamond-like carbon (DLC) on the HIPIB-irradiated graphite was confirmed by Raman spectroscopy where a typical broadened asymmetric peak appeared in the wavenumber range of 1100-1700 cm⁻¹. Formation of DLC on the irradiated graphite strongly depended on the HIPIB parameters and preferably took place at the medium ion current density of 350 A/cm² up to five shots. Numerical simulation of ablation process was performed to explore the transformation mechanism of DLC from graphite irradiated by HIPIB. The calculation showed that the temperature profile in irradiated graphite at 350 A/cm² is almost identical to that at 200 A/cm², showing a deeper heat-affected zone in comparison with that of 1500 A/cm². Moreover, the ablation depth per shot is around 0.8 μm at 350 A/cm², higher than that of 0.4 μm at 200 A/cm² and much lower than that of 8.4 μm at 1500 A/cm², respectively. The experimental and numerical results indicate that a proper temperature and pressure repetitively created in the top layer of ablated graphite during HIPIB irradiation facilitates the phase transformation.     

Dry sliding tribological behavior of AZ31 magnesium alloy irradiated by high-intensity pulsed ion beam

The dry sliding tribological behavior of AZ31 magnesium alloy irradiated by high-intensity pulsed ion beam (HIPIB) at energy density of 3.4 J/cm² with 10 shots is investigated by dry sliding wear tests in order to explore the effect of HIPIB irradiation on tribological property of magnesium alloy. Surface morphologies, composition and structure of the irradiated AZ31 magnesium alloys are examined by electron probe microanalysis (EPMA) and X-ray diffraction (XRD). The results indicated that HIPIB irradiation led to the increase in surface microhardness and the reduction in friction coefficient and wear rate. Wear rate for both the original and the irradiated samples increased with increasing sliding load from 0.1 to 0.5 N. The transition from severe metallic wear to mild oxidative wear induced by HIPIB irradiation was observed by a combined analysis in surface morphology and chemical composition of wear tracks, mechanically mixed materials and wear debris, which is mainly attributed to the significant increase in microhardness resulting from grain refinement on the irradiated surface. In addition, defects induced by HIPIB irradiation promoted the diffusion of oxygen during sliding wear and therefore led to the formation of compact mixed materials and protective films on the wear tracks surface, which also contributes to the transition in wear mechanism of AZ31 magnesium alloy induced by HIPIB irradiation.     

强脉冲激光在AZ31B镁合金中诱导冲击波的实验研究

为了研究强脉冲激光在镁合金中诱导冲击波的衰减,采用Nd:Glass脉冲激光(1054 nm,23 ns)对AZ31B变形镁合金试样表面进行冲击,并利用响应快、测量范围大的PVDF压电膜传感器以及示波器实时测量了强脉冲激光在镁合金靶中诱导激光冲击波的相对压力.根据冲击波每次在靶材背面反射时,所经过距离的不同得到激光冲击波在镁合金中的衰减规律.结果表明,在激光能量为5J的强脉冲激光作用下,镁合金中冲击波衰减的平均速度为5.83×10³ m/s,与镁合金中应力波纵波的传播速度相符;强脉冲激光诱导冲击波在镁合金中是以指数规律衰减的.试验所得分析结果对激光冲击强化镁合金的应用具有重要意义. 关键词： 激光 镁合金 压电膜传感器 衰减规律