介绍绿色切削液开发的基本要求。
The require for the development of the green cutting fluids was introduced.
小小一滴切削液,事关加工的结果。
含有杀菌剂以延长切削液使用寿命。
应用于永基切削液效果好。
It can be used to water base cutting fluids with good results.
切削液是金属切削加工中的重要配套材料。
Cutting fluid is the important related material in metal cutting process.
采用破乳—混凝—光催化氧化法处理废切削液。
The emulsion breaking-coagulation-photocatalysis oxidation process was used in the treatment of waste cutting fluid.
用于多效型水基合成切削液中,试验结果满意。
在切削加工中,使用切削液能显著降低切削力。
The cutting force can notably be deduced using the cutting fluid during machining.
采用破乳+—混凝—光催化氧化法处理废切削液。
The emulsion breaking-coagulation-photocatalytic oxidation process was used in the treatment of waste cutting fluid.
用试验方法优化出切削液的最佳配比和合成工艺。
The optimum formulated proportion and the synthetic process are optimized by the test method.
如何提高水基切削液的润滑性能,已成为目前研究的重点。
It has been more and more important how to improve lubricating property now.
质量成就品牌,科技创造未来,爱达威尔切削液与您共创美好明天!
Quality success brand, science and technology will create the future, Ada will cutting fluids and you create a better tomorrow!
在合适的试验条件下,还可利用铁谱仪直观地了解切削液的使用状态。
The usage status of cutting fluid can be observed directly by iron spectrometer under a suitable test condition.
论文首先对专家数据和实际需求进行分析研究,建立了切削液数据库。
First of all, the expert data and practical demands are analyzed and then the database of cutting fluids is set up.
文章阐述了传统切削液的现状及使用特点和新型切削技术及其发展趋势。
This article has explained the current situation and characteristics of traditional cutting fluid and the new cutting technology and its development trend.
论述了传统的切削液存在诸多危害,介绍了绿色切削液开发的基本要求。
The harm of traditional metal cutting fluids is described. The requirement for the development of the green cutting fluids was introduced.
HC - 1高效金属切削液是以合成塔底油副产物为基料,经多元配伍而成。
The HC-1 high-efficiency metallic cutting liquid is made up of the byproduct of synthetical tower oil, and comes into form by several ways.
305半合成水溶性切削液的好处是既有乳化液的润滑性,还有合成液的稳定性。
ATS-305 Semi synthetic soluble cutting fluid is the advantage of both emulsion lubrication, and synthetic fluid stability.
针对绿色制造对切削液系统的基本要求,提出了绿色制造中切削液系统的选择原则。
According to the basic requirement of cutting fluid system in green manufacturing, the selecting principle of cutting fluid system in green manufacturing was given.
切削液系统是机械加工中重要的组成部分,切削液是造成环境污染的主要根源之一。
The cutting fluid system is an important constituent part of the manufacturing machining, and during the machining process, cutting fluid is one of the main roots of environment pollution.
目的:提高医用纯钛植入体的加工质量,研究采用了一种专用切削液作医用纯钛加工。
Objective: To make up and study the cutting liquid for medical pure titanium implant.
水基切削液具有优良的冷却、清洗和防锈性能,但润滑性能差,因而应用范围受到限制。
The refrigeration, cleaning and antirust performances of water base cutting fluid were very outstanding, but lubricating property was poor. So, it was limited in range of application.
通过对水溶性极压添加剂、油性剂、缓蚀剂和杀菌剂的筛选,研制了合成不锈钢切削液。
It is researched of synthetic removal fluid for stainless steel through selecting the water soluble EP additive, oiliness agent, corrosion inhibitor and bactericide.
结果表明,选择合适的功能添加剂调配的合成切削液防锈性能较好,并适应较高硬度的水。
The effects of rust inhibitors, hard water and surfactants on synthetic cutting fluid were investigated.
综述了在对切削液性能要求和环保要求日益提高的情况下现代切削液技术的特点及发展趋势。
The features and developing trend of modern cutting fluid technology in the case of higher requirements for performances and environmental protection are introduced.
分析研究轴承磨加工工序所用的切削液,并选出新型环保导电聚苯胺水性防锈切削液进行试验。
Through analysis and research on cutting fluid used by the bearing grinding process, new environment protection conducting polyaniline water-based antirust cutting fluid is selected.
实验结果表明该切削液对钢铁有较强的缓蚀性能,可以将其广泛用于黑色金属的加工制造之中。
The results showed that the metal cutting liquor has stronger performance of corrosion mitigation to steel. It can be widely used in ferrous metal cutting process.
通过切削试验,分析了切削速度、背吃刀量以及切削液等参数改变时,对切削力及表面质量的影响。
Through cutting experiment, the influence on cutting force and surface quality was analyzed when change the parameters such as cutting speed, back cutting depth and cutting fluid and so on.
通过切削试验,分析了切削速度、背吃刀量以及切削液等参数改变时,对切削力及表面质量的影响。
Through cutting experiment, the influence on cutting force and surface quality was analyzed when change the parameters such as cutting speed, back cutting depth and cutting fluid and so on.
应用推荐