工程机械涂装车间节能设计探讨

鉴于工程机械行业涂装车间能耗较大的实际情况,针对工程机械涂装特点,从涂装工艺、设备、产品设计和管理等方面对节能措施进行了分析与讨论。     

Study on tribological behavior of electrodeposited Cu–Si3N4 composite coatings

Cu–Si₃N₄ composite coatings were prepared by electrolysis from a copper sulphate solution containing dispersed Si₃N₄ particles of 0.4 or 1 μm mean size. Wear behavior of Cu–Si₃N₄ composite and pure copper coatings were evaluated using a pin-on-disc test machine under dry condition sliding. Effects of current density and particle concentration on the incorporation percentage of Si₃N₄, the preferred orientation of copper crystallites, the microstructure, the microhardness and the wear resistance of the coatings were determined. Si₃N₄ particles in the copper matrix resulted in the production of composite deposits with smaller grain sizes and led to change the preferred orientation growth from [1 0 0] to [1 1 0]. It was proved that the presence of Si₃N₄ particles decreases the wear loss and the friction coefficient of the coating. According to the results, the friction coefficient decreased dramatically from 0.52 to 0.26 for pure copper coatings to 0.16–0.24 for Cu–Si₃N₄ composite coatings. In addition, fluctuation of friction coefficient values for Cu–Si₃N₄ composite coating was lower compared with the pure copper coating. The wear properties of Cu–Si₃N₄ composite coatings were shown to depend on the weight fraction, the size and the distribution of co-deposited particles.     

Aesthetically textured,hard latex coatings by fast IR-assisted evaporative lithography

Polymer coatings with periodic topographic patterns, repeating over millimetre length scales, can be created from lateral flows in an aqueous dispersion of colloidal particles. The flow is driven by differences in evaporation rate across the wet film surface created by IR radiative heating through a shadow mask. This new process, which we call IR radiation-assisted evaporative lithography (IRAEL), combines IR particle sintering with the concept of evaporative lithography. Here, a series of experiments has been conducted in which the mass of the latex is measured as a function of the exposure time under infrared radiation through a mask. The water evaporation rates and the minimum exposure time required for a dry film are estimated as a function of the power density of the IR emitter. The temperature of the wet film is monitored to avoid overheating and boiling of the water, which will otherwise cause defects. It is demonstrated that textured films can be created on a variety of substrates (plastics, metals, paper and glass), and processing times can be as short as 5 min. We use IRAEL to decorate household goods with an aesthetic coating with the desired texture.     

UV nanoimprint using flexible polymer template and substrate

Nano to micro-sized patterns were formed on a flexible polymer substrate using a flexible UV imprint stamp. A 6 in. diameter flexible UV nanoimprint template was fabricated using PVC hot embossing and DLC coating. Using the UV nanoimprint process with the DLC coated PVC template, nano to micro-sized patterns were clearly formed on the flexible PET substrate without a residual layer, due to the antistiction properties and high mechanical hardness of the DLC coating. By depositing a Cr layer on the imprinted resist pattern and lifting it off, Cr metal patterns were fabricated on the PET substrate.     

Effects of initial albumen quality and mineral oil–chitosan emulsion coating on internal quality and shelf‐life of eggs during room temperature storage

Effects of mineral oil (MO) and mineral oil–chitosan emulsion (MO:CH = 25:75) as coatings on internal quality and shelf‐life of eggs were evaluated during 5‐week storage at 25 °C. Eggs with three different initial albumen qualities [Haugh unit (HU): H = 87.8, M = 75.6 and L = 70.9] were evaluated. As storage time increased, HU and yolk index values decreased whereas weight loss increased. Coating with MO and/or 25:75 MO:CH emulsion could preserve the internal quality for at least 4 more weeks for H‐eggs and at least 3 more weeks for M and/or L‐eggs, all with weight losses <0.92%. All coated eggs had >70% positive purchase intent, and their colour differences at week 0 could not be detected by naked human eye (ΔE^* < 3.0, noncoated eggs as reference). Consumers significantly differentiated freshly MO‐coated from noncoated eggs on overall surface appearance. This study demonstrated that MO and 25:75 MO:CH emulsion coatings could preserve internal quality and prolong shelf‐life of eggs.     

钼添加对CrN涂层抗氧化性能的影响

研究钼添加对CrN涂层微观结构和抗氧化性能的影响,采用反应磁控溅射法在硅片和高速钢片上制备不同Mo含量的Cr-Mo-N涂层,并在500~800 ℃的高温空气中退火1 h,用X射线衍射（XRD）、拉曼光谱和扫描电子显微镜（SEM）对涂层退火前后的微观形貌进行表征。沉积的CrN和Cr-Mo-N涂层均表现出基于CrN晶格的B1面心立方相（fcc）。Mo离子取代Cr-N晶格中的Cr离子,形成Cr-Mo-N固溶体。在600 ℃时,XRD和拉曼光谱表明,Mo含量较高的Cr-Mo-N涂层中形成MoO₃相,表面较粗糙,含氧量较高。在700 ℃时,CrN涂层由于内应力的作用,其横截面形貌为疏松的柱状晶,并有一定的多孔区,而Cr-Mo-N涂层则为致密的柱状晶结构。低Mo含量（<17at%）的Cr-Mo-N涂层比CrN涂层具有更好的抗氧化性。     

SiC晶须对等离子喷涂YSZ涂层显微结构的影响

为了研究SiC晶须对等离子喷涂YSZ（Y₂O₃部分稳定的ZrO₂）涂层显微结构的影响规律,采用喷雾造粒技术制备了晶须含量分别为0%、1%、2%和3%（质量分数）的团聚YSZ颗粒（0#、1#、2#和3#粉末）,利用等离子喷涂技术（APS）分别制备了0#、1#、2#和3#等4组涂层。利用扫描电镜（SEM）及金相显微镜等测试分析设备研究SiC晶须分散工艺和定量表征方法,以及团聚颗粒的形态和涂层的显微结构,并分析了含晶须涂层的成型过程。结果表明：机械搅拌时间增加至5 h时,晶须具有较好的分散程度,对应的晶须面积分数为11.03%。含晶须的团聚颗粒主要呈“水滴状”和“纺锤状”,1#、2#和3#粉末中“水滴状”和“纺锤状”团聚颗粒的数量比例分别为16.5%,22.7%和39.3%。由于非水平态晶须对颗粒中未熔融原粉末在冲击和铺展过程的阻碍作用,涂层的孔隙率随着晶须含量的增加而增加,0#涂层的孔隙率为3.89%,1#、2#和3#涂层的孔隙率分别是0#涂层的3.15倍、4.17倍和7.52倍。     

Structural characteristics and high-temperature tribological behaviors of laser cladded NiCoCrAlY–B4C composite coatings on Ti6Al4V alloy

In order to improve the hardness and tribological performance of Ti6Al4V alloy, NiCoCrAlY–B₄C composite coatings with B₄C of 5%, 10% and 15% (mass fraction) were fabricated on its surface by laser cladding (LC). The morphologies, chemical compositions and phases of obtained coatings were analyzed using scanning electronic microscope (SEM), energy dispersive spectrometer (EDS), and X-ray diffraction (XRD), respectively. The effects of B₄C mass fraction on the coefficient of friction (COF) and wear rate of NiCoCrAlY–B₄C coatings were investigated using a ball-on-disc wear tester. The results show that the NiCoCrAlY–B₄C coatings with different B₄C mass fractions are mainly composed of NiTi, NiTi₂, α-Ti, CoO, AlB₂, TiC, TiB and TiB₂ phases. The COFs and wear rates of NiCoCrAlY–B₄C coatings decrease with the increase of B₄C content, which are contributed to the improvement of coating hardness by the B₄C addition. The wear mechanisms of NiCoCrAlY–B₄C coatings are changed from adhesive wear and oxidation wear to fatigue wear with the increase of B₄C content.     

基于热喷涂界面微纳结构设计的涂层力学性能研究进展

热喷涂陶瓷涂层在航空航天、交通运输等众多领域具有广阔的应用前景,常见的热喷涂陶瓷涂层体系包括陶瓷层、金属/合金粘结层和金属基体.由于陶瓷层与粘结层具有较大的物化性能差异,使界面成为热喷涂陶瓷涂层易发生失效的区域,极大降低了涂层的服役寿命,遏制了热喷涂陶瓷涂层更为广泛的应用.以热喷涂界面的微观和宏观结构设计为出发点,综述了微观界面和扩散对界面力学性能的影响,总结了微米-纳米颗粒的界面结构、成分连续梯度变化的涂层结构和涂层缺陷对性能的影响.同时总结了三点弯曲、显微硬度和纳米压痕对界面力学性能的系统表征方法,并结合不同测试方法的特性,给出了对应的多尺度界面力学性能的计算公式.上述结果对设计和制备高性能复合涂层具有重要的理论意义,对延长涂层服役寿命具有实际的应用价值.     

氧乙炔火焰喷焊镍基复合涂层的显微组织和腐蚀性能研究

目的 研究Ni60和Ni60WC喷焊涂层的显微组织、防腐和耐磨性能及其腐蚀机理,为恶劣工况下服役的零件选择合适的喷焊涂层提供参考.方法 采用氧乙炔火焰喷焊工艺在16Mn钢基体上制备Ni60和Ni60WC涂层,用X射线衍射仪、金相显微镜和扫描电子显微镜分析了喷焊涂层的相结构和显微组织,并采用电化学工作站、盐雾腐蚀试验机、磨粒磨损试验机测试了两种喷焊涂层的防腐和耐磨性能.结果 喷焊层与基体间都存在冶金结合层和热影响区,Ni60涂层的显微组织为NiCr固溶体基体上弥散分布着大量细小粒状和杆状碳化物和硼化物.Ni60WC喷焊涂层组织中,除了具有与Ni60涂层类似的基体相和细颗粒硬质相外,还较均匀地分布着不同尺寸的WC颗粒.Ni60和Ni60WC涂层的磨损率分别为16Mn钢的8.3％和2.3％,自腐蚀电流密度分别为16Mn钢的1.0％和7.6％.另外,基体相和硬质相之间的电偶腐蚀是两种镍基喷焊涂层的主要腐蚀机理.结论 这两种镍基喷焊涂层均能显著提高16Mn钢的抗磨和防腐性能,其中,Ni60喷焊涂层耐腐蚀性更好,Ni60WC喷焊涂层耐磨损性能更好.