Comparative Study of Tribomechanical Properties of HiPIMS with Positive Pulses DLC Coatings on Different Tools Steels

Adrián Claver; Emilio Jiménez-Piqué; José F. Palacio; Eluxka Almandoz; Jonathan Fernández de Ara; Iván Fernández; José A. Santiago; Eneko Barba; José A. García

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Comparative Study of Tribomechanical Properties of HiPIMS with Positive Pulses DLC Coatings on Different Tools Steels

机译：不同工具钢上阳性脉冲DLC涂层的Hipims肌肉性质的比较研究

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Diamond-like carbon (DLC) coatings are very interesting due to their extraordinary properties; their excellent wear resistance, very low friction coefficient, great hardness, high elastic modulus or biocompatibility can be highlighted, as can their multifunctionality. Because of this, over recent decades they have been widely used in tribological applications, improving the performance and the useful life of machining tools in an effective way. However, these coatings have a disadvantage compared to other coatings deposited by commercially available techniques—their resultant adhesion is worse than that of other techniques and limits their industrial applications. In this work, tribological results of a scratch test, wear resistance and nanoindentation of tetrahedral amorphous carbon (ta-C) and tungsten carbide:carbon (WC:C) DLC coatings deposited by means of novel high-power impulse magnetron sputtering (HiPIMS) technology with positive pulses are reported. The coatings were deposited in three different tools steels: K360, vanadis 4 and vancron. These tools’ steels are very interesting because of their great and wide industrial applicability. Experimental results showed excellent tribological properties, such as resistance to wear or adhesion, in the two types of DLC coatings.

机译：由于其非凡的性质，钻石状碳（DLC）涂层非常有趣;它们优异的耐磨性，摩擦系数非常低，硬度，高弹性模量或生物相容性可以突出显示，可以是它们的多功能性。因此，近几十年来，他们已广泛用于摩擦应用，以有效的方式提高加工工具的性能和使用寿命。然而，与可商购技术沉积的其他涂层相比，这些涂层的缺点 - 它们所得到的粘合性比其他技术的粘合性更差，并限制其工业应用。在这项工作中，划痕试验，耐磨性和四面体无定形碳（TA-C）和碳化钨的粉碎和纳米缠绕：碳（WC：C）DLC涂层通过新型高功率脉冲磁控溅射（Hipims）沉积报道了具有正脉冲的技术。涂层沉积在三种不同的工具钢：K360，vanadis 4和山克朗。这些工具的钢材非常有趣，因为它们的巨大且宽敞的工业实用性。实验结果表明，在两种类型的DLC涂层中，实验结果显示出优异的摩擦学性质，例如耐磨或粘附性。

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来源
《Coatings》 |2021年第1期|共21页
作者
Adrián Claver; Emilio Jiménez-Piqué; José F. Palacio; Eluxka Almandoz; Jonathan Fernández de Ara; Iván Fernández; José A. Santiago; Eneko Barba; José A. García;
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中图分类生物物理学;
关键词
HiPIMSpositive pulseDLC coatingstribologyadhesionwear resistance;

机译：HipimSpositive Pulsedlc涂层涂层抗性;

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1. Tribomechanical properties of hard Cr-doped DLC coatings deposited by low-frequency HiPIMS [J] . Surface & Coatings Technology . 2020,第期

机译：低频Hipims沉积硬CR掺杂DLC涂层的焦点机械性能
2. The influence of positive pulses on HiPIMS deposition of hard DLC coatings [J] . Santiago J. A., Fernandez-Martinez I., Kozak T., Surface & Coatings Technology . 2019,第期

机译：阳性脉冲对硬DLC涂层Hipims沉积的影响
3. A comparative study of microstructural and tribological properties of N-DLC/DLC double layer and single layer coatings deposited by DC-pulsed PACVD process [J] . Sharifahmadian Omid, Mahboubi Farzad CERAMICS INTERNATIONAL . 2019,第6期

机译：DC脉冲PIPVD工艺沉积的N-DLC / DLC双层微观结构和摩擦学性能的对比研究
4. The role of HiPIMS with a positive voltage reversal on DLC coating properties in industrial applications [C] . Ivan Fernandez-Martinez, Ambioern Wennberg, Frank Papa, Society of Vacuum Coaters annual technical conference . 2018

机译：具有正电压反转功能的HiPIMS在工业应用中对DLC涂层性能的作用
5. A study of the synthesis, characterization and properties of pulse-plated ultrafine-grained zinc-nickel alloy coatings. [D] . Alfantazi, Akram. 1994

机译：脉冲镀超细晶粒锌镍合金涂层的合成，表征和性能的研究。
6. A Strategy for Alleviating Micro Arcing during HiPIMS Deposition of DLC Coatings [O] . Catalin Vitelaru, Anca Constantina Parau, Lidia Ruxandra Constantin, 2020

机译：在DLC涂层的HiPIMS沉积过程中减轻微电弧的策略
7. Comparative tests of samples of high-speed tool steel with high-speed steel with DLC coating in terms of abrasion resistance [O] . Martyna Nowak 2018

机译：用高速钢与DLC涂层高速工具钢样品的比较试验在耐磨性方面

Comparative Study of Tribomechanical Properties of HiPIMS with Positive Pulses DLC Coatings on Different Tools Steels

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