利用电沉积表面工程技术可以有效地降低材料的磨损与腐蚀,延长工件使用寿命。
Optimum application of electrodeposition surface engineering techniques can considerably decrease the wear and corrosion loss, and hence effectively prolong the serving life of components.
最后探讨了冲击载荷下磨损与腐蚀的交互作用机理,以及冲击功对交互作用机理的影响。
The influence of impact energy on the synergy and the mutual effect mechanism between corrosion and wear were discussed.
具有很高抗拉强度的材料。由于具有抗磨损性能,因此特别适用于要求微分硬度的应用场合。与高纯度铬合金钢相比,具有更好的耐腐蚀性能。
Very high tensile material. Very good when differential hardness is required due to its resistance to galling. Higher corrosion resistance than high straight chrome alloy steels.
结果表明载荷与腐蚀磨损间仍然存在线性关系。
The linear relationship, with different slopes between corrosive wear and loads was confirmed.
在腐蚀与磨损共存的条件下,两者协同作用加速材料流失。
Under coexist condition of both corrosion and abrasion, the loss of layer metal mutually effected by both factors will be accelerated.
酸性腐蚀与生锈是由机油成分所控制的,而磨料磨损是由空气、机油过渡与机油更换间隔时间所控制的。
Acidic corrosion and rusting are controlled by formulation of the oil while the abrasive wear is controlled by air and oil filtration and oil drain intervals.
论述了陶瓷内件控制阀的研制,该阀内件同时具有耐腐蚀、耐磨损(包括冲刷、气蚀)与耐高温的性能。已获得成功应用。
The control valves with ceramic trim are expounded. It has the corrosion-proof, abrasion-proof and high temperature proof performance, and it also has obtained successful application.
电磨损分断对比试验发现,与常规机械混粉同类触头相比该材料的耐电腐蚀性能提高了40%以上。
The experimental results indicated that the arc erosion resistance of the newly developed Ag5wt%C material was more than 40% higher than that of the conventionally blended counterpart.
电磨损分断对比试验发现,与常规机械混粉同类触头相比该材料的耐电腐蚀性能提高了40%以上。
The experimental results indicated that the arc erosion resistance of the newly developed Ag5wt%C material was more than 40% higher than that of the conventionally blended counterpart.
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