Composition demixing effect on cathodic arc ion plating

The composition demixing effect has been found often in alloy coatings deposited by cathodic arc ion plating using various alloy cathode targets. The characteristics of composition demixing phenomena were summarized. Beginning with the ionization zone near the surface of the cathode target, a physical model in terms of the ions generated in the ionization zone and their movement in the plating room modified by bias electric field was proposed. Based on the concept of electric charge state, the simulation calculation of the composition demixing effect was carried out. The percentage of atoms of an element in coating and from the alloy target was demonstrated by direct comparison. The influences of the composition change of the alloy target and the bias electric field on the composition demixing effect were discussed in detail. It is also proposed that the average charge states of the elements may be used to calculate the composition demixing effect and to design the composition of the alloy target.

Friction and Wear Performances of Cathodic Arc Ion Plated TiAlSiN Coating under Oil Lubricated Condition

TiAlSiN coating was deposited on H13 hot work mould steel using cathodic arc ion plating（CAIP）. The surface-interface morphologies and phases of the obtained coating were analyzed using field emission scanning electron microscopy（FESEM） and X-ray diffraction（XRD）, respectively, and the morphologies, distributions of chemical elements and profiles of worn tracks were also researched using scanning electron microscopy（SEM）, energy disperse spectroscopy（EDS）, and optical microscope（OM）, respectively. The friction-wear performances of TiAlSiN coating under oil lubricated and dry fiction conditions were investigated, and the wear mechanisms of TiAlSiN coating were discussed. The experimental results show that the coating is primarily composed of（Ti, Al）N, AlTiN, and TiN hard phases, Si_3N_4 exists between the（Ti, Al）N crystal grains, increasing the coating microhardness to 3200 HV. The TiAlSiN coating has excellent performances of reducing friction and wear resistance, the average coefficient of friction（COF） of TiAlSiN coating under oil lubricated condition is only 0.05, lowered than the average COF of 0.211 under dry friction condition, the wear rate decreases by about 81.2% compared with that under dry friction condition. The wear mechanism of TiAlSiN coating under oil lubricated and dry friction conditions is composed of abrasive wear, fatigue wear, and abrasive wear, respectively. The internal friction of oil lubrication is a main factor of decreasing fatigue wear.

STUDY ON HIGH TEMPERATURE PERFORMANCES OF MCrAlX COATINGS DEPOSITED BY MULTI-ARC ION PLATING

NCoCrAlSiYHf and CoNiCrAlTaY coatings which belong to protective Al 2O 3 scale forming type were deposited by multi arc ion plating technique . The effect of deposition process parameters on qualities of the coatings was discussed. The high temperature oxidation performances isothermal oxidation with 950℃ / 500h and 1100℃ / 100h were studied. And also, the hot corrosion performances at 700℃ and 800℃, with molten mixed salt composed of 75%wt Na 2SO 4 and 25%wt NaCl were investigated. Then the high temperature protection decaying mechanisms were proposed.

EXPERIMENTAL STUDY ON SUPERFICIAL COAT OF GEARS OF NITRIDED 32Cr2MoV COATED WITH TiN FILM BY MULTI-ARC ION PLATING

After 32CrMoV is selected to manufacture nitrided gears coated with TiN by multi-arc ion plating, all of these uncoated gears and coated gears run in the gearbox under the same initial conditions so as to compare their difference concerning properties and microstructure. Experiment results indicate that tooth surface of the coated-TiN gears does not suffer surface abnormalities in meshed zone. Instead, the gears with nitrided case exhibit an abrasion mark on the meshed zone of tooth surface, which results in more weight loss of nitrided gears. The morphology of the surface suggests TiN film with more than 2 000 HV is so dense and smooth that coated-TiN gears have higher wear resistance compared with the uncoated gears. The microstructure of coated-TiN gears is finer, hardness is higher and its distribution of coated-TiN gears is more reliable than uncoated ones, which makes nitride layer combined with TiN film tightly. Consequently, the wear-resistance of gears has been dramatically promoted.

Structure and Tribological Properties of CrTiAlN Coatings Deposited by Multi-Arc Ion Plating

CrTiAIN coatings were prepared by using a home-made industrial scale multi-arc ion plating system. The coatings were found to be composites of face-center-cubic CrN and TiN. The surface roughness, microhardness, and tribological properties of the films were significantly affected by the nitrogen pressure and dc-pulsed bias voltage applied to the substrate. The CrTiA1N coatings with the smoothest surfaces were obtained at optimum conditions of nitrogen pressure of 5.0 Pa and bias voltage of -200 V. The samples were found to exhibit a hardness of 2900 HV0.05 with an average friction coefficient of 0.16 and wear rate of 1.5× 10^-16 m^3/N.m against cemented carbide.

Approximate Design of Alloy Composition of Cathode Target

An empirical formula for composition demixing analysis in cathodic arc ion plating using alloy target is established based on the concepts of average charged state and relative demixing parameter. The level of composition demixing effect is presented by demixing degree of one element. For binary constituent alloy target, the composition change trend in coating is discussed and the limit of demixing degree for each element is determined. The content of one element with higher average charged state gets larger in coating than in alloy target, at meantime, the content of one element with lower average charged state gets less. For each one of the two constituents, the less the atom percent in alloy target, the larger the difference of its contents between the coating and the target. For triple constituent alloy target, the content change of one element with moderate average charged state is discussed in detail. Its content in coating getting larger or less is determined by the combination result of the contents of the other two elements in alloy target. For a given content of the element with moderate average charged state in triple alloy target, the content deviation level of that element from coating to alloy target will be not larger than that using binary alloy target containing only that element and one of the two others. According to the wanted coating composition, the composition design of alloy target is easily deduced from the formula.

Study on Properties of Ti(C,N)/TiN Multi-Element-layer Films Plus Nanometer Lubrication Dry Films

Ti(C,N)/TiN multi-element-layer films was deposited on aluminium alloy substrates by using multi-arc ion plating. The microhardness of the films was 2000HV0.i which was nearly 21 times of that of the substrates. XRD analysis show that the main composition of the composite films system were Ti(C,N), TiN, Al3Ti, Al and a little Ti2N. The presence of MjTi new phase in the interface of the films/substrates indicated some metallurgical bonding between them, which implies higher adhesive strength of the films/substrates system. Pin-on-disc tests showed that the wear resistance of the substrates was improved substantially. However, the coefficient of friction of the films/substrate system was high (u=0.66), which resulted in the wear of the counterparts. To reduce the coefficient of friction, nanometer lubrication dry films was applied on top of the multi-element-layer films to form composite films system and subsequent wear tests showed that the resulting composite films led to reduction of the coefficient of friction from 0.66 to 0.16. Meanwhile, wear mass loss of the counterpart was reduced from 1.29 mg to 0.02 mg, so that increased wear resistance and reduced friction effects were achieved.

TiAlN/Cu Nanocomposite Coatings Deposited by Filtered Cathodic Arc Ion Plating

TiAIN]Cu nanocomposite coatings with Cu concentration of 0-1.4 at.% were deposited on the high- speed steel （HSS） substrates by filtered cathodic arc ion plating technique. The chemical composition, microstructure, morphology, adhesion strength, mechanical and tribological properties of the TiAIN/Cu coatings were characterized and analyzed. The results reveal that the coating structure and properties depend on not only the Cu concentration, hut also the deposition condition. The addition of Cu significantly decreases the grain size and weakens the texture in the TiAlN/Cu coatings. With increasing the Cu concentration, the coating hardness decreases slightly from 30.7 GPa of the pure TiAlN coating to 28.5 GPa of the TiAlN/Cu coating with 1.4 at,% Cu. All the TiAlN/Cu coatings present sufficient adhesion strength. In addition, the existing state of additive Cu in the TiAlN/Cu coatings is also investigated.

CrN涂层制备中氮气比例对耐磨抗黏附性能的影响

采用多弧离子镀技术在38CrMoAl样片表面制备CrN涂层,利用扫描电子显微镜、纳米压痕仪、摩擦磨损试验机、X射线衍射仪及接触角测量仪,研究了氮气比例对CrN涂层耐磨抗黏性能的影响。结果表明,随着氮气比例的增加,CrN涂层由Cr、Cr_(2)N和CrN的混合相向CrN单相转变;CrN涂层磨损率远低于基体磨损率,CrN⁃65涂层的磨损率最低仅为1.01×10^(-6)mm^(3)/(N·m),低于基体磨损率一个数量级。所有CrN涂层表面均表现出疏水性;聚碳酸酯(PC)熔体高温接触角试验中,CrN⁃15涂层与PC熔体的高温接触角最高为110.8°,高于基体的102.2°;经过低温退火处理后,所有表面与PC熔体的高温接触角均降低,但是CrN⁃15涂层退火后仍能保持最高的高温接触角(102.9°),明显高于退火后基体的高温接触角(85.3°),表现出最佳的抗黏附性能。CrN⁃15涂层表现出较好的耐磨性和抗黏附性,综合性能较好,为CrN涂层在塑料加工螺杆和注塑模具表面应用提供一定的技术支撑。

空间燃料电池金属钛表面复合涂层制备与性能研究

金属Ti因其密度小(仅为不锈钢的0.6倍)和比强度高等特点,是轻量化空间燃料电池金属板材料的首要选择,但其在弱酸性环境中长时间工作容易被腐蚀。为了改善金属Ti双极板耐蚀性,采用多弧离子镀技术在金属Ti表面制备了由Ti过渡层及TiN表层构成的Ti/TiN复合涂层,研究制备工艺参数对Ti/TiN复合涂层微观结构及力学、电化学性能的影响规律。利用场发射扫描电子显微镜(SEM)分析涂层的微观形貌,利用X射线衍射仪分析涂层的相组成,利用纳米压痕仪评价涂层的力学性能,利用电化学工作站评价涂层在模拟质子交换膜燃料电池(PEMFC)阴极工作环境下的耐蚀性。结果表明:制备工艺参数优化后的Ti/TiN复合涂层具有优异的表面质量和良好的耐蚀性,腐蚀电流密度为6.383μA/cm^(2),是金属Ti腐蚀电流密度的0.6倍,Ti/TiN复合涂层显著提高了金属Ti的耐蚀性,可为空间燃料电池金属双极板表面改性提供技术支持。

2Cr13钢离子渗氮和WCrAlTiSiN离子镀复合处理及电化学行为

马氏体不锈钢的常规表面改性方法基本局限在单一化学热处理或镀膜,对表面性能的提升有限。对2Cr13不锈钢进行离子渗氮与多弧离子镀WCrAlTiSiN纳米多层涂层复合强化处理,研究其在天然海水环境中的耐腐蚀性能。采用不同的表面强化工艺,即未处理(Untreated)、低温渗氮处理(LPN)、高温渗氮处理(HPN)、单一镀膜处理(Coating)、低温渗氮+镀膜处理(LPN+C)和高温渗氮+镀膜处理(HPN+C)。采用X射线衍射、光学显微镜、透射电子显微镜和维氏硬度计对不同样品的组织结构、化学成分和硬度等进行表征。采用电化学阻抗法和动态电位极化法对2Cr13在天然黄海海水中的电化学行为进行测试。试验结果表明:WCrAlTiSiN涂层可在一定程度上提升腐蚀性能,但是溶液中的Cl^(−)通过较薄单一涂层的缺陷侵入基体。LPN样品因渗氮层的存在提升了一定的耐腐蚀性能,而HPN样品因为渗氮温度过高而导致CrN大量析出,使得样品表面出现“贫Cr”现象,耐腐蚀性能下降。复合处理样品的渗氮层-WCrAlTiSiN涂层可形成保护屏障,有效阻止电荷转移和电流从阳极流向阴极,提高2Cr13钢在海水环境中的耐腐蚀性能。通过离子渗氮-多弧离子镀WCrAlTiSiN纳米涂层复合强化方法可有效提升马氏体不锈钢在海水中的耐腐蚀性能。

多弧离子镀CrAlSiN涂层对Cr12MoV钢显微硬度和耐磨性影响的研究

为了提高Cr12MoV表面的硬度和耐磨性能,采用多弧离子镀技术在淬火及氮化处理后的Cr12MoV冷作模具钢表面制备CrAlSiN涂层。结果表明:经淬火、氮化和镀膜处理后Cr12MoV钢的显微硬度得到提高,淬火后镀膜的硬度为3028 HV,氮化后镀膜的硬度为3471 HV,是基体硬度(283HV)的12倍以上。氮化处理后镀膜层的摩擦系数低于淬火后镀膜层的摩擦系数。综合对比各试样的硬度、耐磨性、摩擦系数可知,多弧离子镀CrAlSiN涂层前氮化处理的效果优于淬火处理的。

Mo层对锆合金表面微熔NiCr涂层的抗高温氧化机理的影响

为提高Zr合金包壳表面涂层的抗高温氧化性,采用多弧离子镀加激光微熔(LMM)的复合技术在Zr合金包壳表面制备Mo/NiCr涂层,通过观察氧化前后的涂层SEM形貌和元素分布,以及通过XRD判断涂层成分,分析涂层抗高温氧化性能的变化。结果表明:经过激光微熔处理的涂层表面孔隙减少,Mo/NiCr涂层激光微熔的功率高于NiCr涂层激光微熔的功率,涂层表面出现非平衡凝固组织特征,随着Mo涂层的添加,在更高激光功率微熔后Zr合金的扩散位置从距涂层表面4.0μm增加到18.5μm。样品在1000℃空气和水蒸气条件下分别氧化30 min后,Zr合金向Mo/NiCr涂层的扩散程度远低于向NiCr涂层的扩散程度,因为有Mo层作为阻挡扩散层阻挡了NiCr与Zr的相互扩散,所以O难以通过Mo层与Zr反应生成Zr_(2)O,并促使β-Zr向着脆性的α-Zr相转变。在涂层中,Zr_(2)O会成为O的扩散通道,而脆性的α-Zr相区域更容易生成Zr_(2)O导致扩散通道增多,极大减弱了涂层的抗氧化作用,最终导致4组检测涂层中,水蒸气氧化的LMM-NiCr涂层中O的扩散程度最深,距离涂层表面足有14.0μm,而水蒸气氧化的LMM-Mo/NiCr涂层O的扩散程度最浅,距离涂层表面仅至1.5μm。这表明Mo的添加可以提高激光微熔的功率,在激光微熔中阻挡Zr向涂层表面的扩散,在氧化中阻挡O向Zr扩散和Zr向涂层表面的扩散,间接阻止O的扩散通道出现和抑制H_(2)O的扩散孔隙生成,Mo的添加提高了涂层的抗高温氧化性能。

脉冲偏压和氮气分压对多弧离子镀(Zr,Cr)N薄膜结构和性能的影响

为探究基体脉冲偏压和氮气分压对(Zr,Cr)N薄膜性能的影响,采用多弧离子镀技术沉积薄膜样品,并利用扫描电子显微镜、原子力显微镜、X射线衍射仪、摩擦实验仪和表面性能实验仪对(Zr,Cr)N薄膜样品的表面形貌、物相结构、力学性能和浸润性能进行分析.实验结果表明:在保持脉冲偏压为50 V不变、改变氮气分压的实验中,氮气分压为0.3 Pa时,薄膜的表面粗糙度最小,耐磨性能最好,磨损率为1.4167×10^(-13)m^(3)/(N·m);氮气分压为0.5 Pa时,疏水性能最好,水接触角为105.42°.在保持氮气分压0.5 Pa不变、改变基体偏压的实验中,薄膜表面粗糙度随偏压的增大而减小,摩擦磨损性能得到提升,当偏压增大到-250 V时,薄膜具有最好的疏水性能,此时接触角达到106.88°.

Thickness Dependence of Structural and Optical Properties of Chromium Thin Films as an Infrared Reflector for Solar-thermal Conversion Applications

The thermal emittance of Cr film, as an IR reflector, was investigated for the use in SSAC. The Cr thin films with different thicknesses were deposited on silicon wafers, optical quartz and stainless steel substrates by cathodic arc ion plating technology as a metallic IR reflector layer in SSAC. The thickness of Cr thin films was optimized to achieve the minimum thermal emittance. The effects of structural, microstructural, optical, surface and cross-sectional morphological properties of Cr thin films were investigated on the emittance. An optimal thickness about 450 nm of the Cr thin film for the lowest total thermal emittance of 0.05 was obtained. The experimental results suggested that the Cr metallic thin film with optimal thickness could be used as an effective infrared reflector for the development of SSAC structure.

High temperature oxidation resistance of CrN/(Ti,Al,Zr,Cr)N bilayer films deposited by multi-arc ion plating

CrN/（Ti,Al,Zr,Cr） N bilayer films were successfully deposited on cemented carbide（ WC-8% Co） substrates by multi-arc ion plating process using two Ti-Al-Zr alloy targets and one pure Cr target. As a result of bilayered structure and addition of alloying elements（ e. g. Al and Cr）,the films exhibited excellent high temperature oxidation resistance under both short-term isothermal（ up to 800 ℃） and long-term cyclic（ up to 600 ℃） exposure conditions. Combined with pre-established outstanding tribological properties（ e. g. maximum hardness of 4 000HV0. 01 and maximum adhesion strength over 200 N）,these observations make such films quite a promising candidate to extend the cutting tool life span and boost the performance in high-productivity,high-speed and high-feed cutting or in dry machining conditions.

氧掺杂对NiCrAlYN纳米金属陶瓷涂层抗氧化性能的影响

研究了不同O含量掺杂对NiCrAlYN纳米金属陶瓷涂层在1100℃下抗氧化性能的影响。采用多弧离子镀设备,分别在0、10 sccm、20 sccm O_(2)流量下制备得到3种不同O含量的涂层。经1100℃、300 h的高温测试后,3组样品表面均生成了α-Al_(2)O_(3)和NiAl_(2)O_(4),氧化膜厚度分别为8.78μm、7.9μm和5.7μm。O_(2)流量为0和10 sccm涂层的氧化膜产生明显分层,其中上层为NiAl_(2)O_(4),下层为α-Al(2)O_(3);而流量为20 sccm涂层的氧化膜并没有发生明显分层。O掺杂量的增加能够抑制氧化膜中大颗粒状Y-Al氧化物夹杂的形成,降低氧化膜的生长速率。此外,氧化后未掺杂氧的涂层较含氧涂层退化严重,主要归因于氧掺杂涂层中弥散分布的氧化物颗粒抑制了涂层的退化。

Oxidation behavior of TiAlZrCr/(Ti,Al,Zr,Cr)N gradient films deposited by multi-arc ion plating

The two Ti-Al-Zr targets and one pure Cr target were used to prepare the TiAlZrCr/（Ti, Al, Zr, Cr）N gradient films on high speed steel （WlSCr4V） substrates by multi-arc ion plating technique. Short-term isothermal （at 600 ℃, 700 ℃, 800℃ and 900 ℃ for 4 h） and long-terra cyclic （at 700℃ and 800℃ for 100 h） high temperature oxidation behavior of the gradient films were studied. Then the oxide scales formed on the film specimens were characterized by scanning electron microscopy （SEM）, energy dispersion X-ray spectroscopy （EDS） and X-ray diffraction （XRD）. It was showed that, under short-term isothermal condition, the high temperature oxidation resistance of the gradient film was excellent up to 800 ℃ and an oxide scale comprising TiO2 was observed. On the other hand, under long-term cyclic high temDerature condition, the oxidation resistance of the gradient film was excellent at about 700 ℃.

多弧离子镀工艺对硬质合金PCB铣刀涂层性能的影响

在硬质合金PCB(printed circuit board)铣刀表面制备高性能的硬质涂层,可以改善切削过程中刀具快速磨损的问题。采用多弧离子镀涂层技术在YG06硬质合金试片及PCB铣刀基体上分别制备AlCrN单涂层、CrN/AlCrN复合涂层以及AlCrSiN/AlCrN纳米复合涂层,利用压痕仪及扫描电镜分析观察3种涂层的力学性能及形貌特征,且在相同条件下对3种PCB涂层铣刀进行涂层性能对比试验,分析刀具磨损机理。结果表明:3种工艺方案的涂层均有较好的膜基结合力;AlCrSiN/AlCrN纳米复合涂层铣刀使用寿命最长,约为CrN/AlCrN复合涂层铣刀的1.5倍,AlCrN单涂层铣刀的1.9倍;且其涂层的致密性和表面质量最好,更适用于IT158覆铜板的高速切削加工。

基底偏压对电弧离子镀制备AlCrVN涂层微结构及力学性能的影响

目的研究基底偏压对AlCrVN涂层微结构及力学性能的影响。方法采用电弧离子镀技术,使用合金靶AlCrV,纯N2作为引弧介质和氮源,在不同的基底偏压下制备AlCrVN涂层,对AlCrVN涂层的物相结构、微观形貌、硬度、摩擦因数及磨损率进行测试分析,作为对比制备了AlCrN涂层。结果AlCrVN涂层为柱状晶结构,由面心立方CrN为基础的(CrV)N置换固溶体相和Cr2N六方相2种晶相组成,随着基底偏压的增大,涂层衍射峰强度及位置变化不明显;涂层表面的大颗粒数量减少,凹坑增多;涂层硬度由50V时的22 GPa增大到150 V时的24.2 GPa,200 V时硬度值减小到22 GPa;摩擦因数由0.42增大到0.71;磨损率由6.4×10^(-7)mm^(3)/(N·m)逐渐增大到13.2×10^(-7)mm^(3)/(N·m)。结论基底偏压对AlCrVN涂层性能影响较大,低偏压(50V)时,涂层的摩擦因数、磨损率最低,耐磨性能最好。含V元素的AlCrVN涂层的力学和摩擦学性能都优于AlCrN涂层。