oxygen cutting
英 [ˈɒksɪdʒən ˈkʌtɪŋ]
美 [ˈɑːksɪdʒən ˈkʌtɪŋ]
网络 气割; 氧气切割; 氧切割
双语例句
- Pure oxygen combustion is of great significance for cost cutting, ener-gy conserving and glass quality improving.
对目前降低成本、节省能源、提高玻璃产质量具有很重要的意义。 - Thus, the utility model has multiple functions, and the utility model can not only use oxygen and propane gas, but also use oxygen and gasoline to carry out gas cutting.
所以,功能多,既可用氧气和丙烷气,又可用氧气和汽油进行气割。 - According to the different main gas, mainly divides into argon plasma arc cutting division, the oxygen plasma arc cutting and cutting, air plasma arc type.
根据不同的主要气体,主要分为氩等离子弧切割划分,氧气切割和等离子弧切割,空气等离子弧的类型。 - A mixture of oxygen and acetylene; used to create high temperatures for cutting or welding metals.
氧和乙炔的混合物,用于为切削或焊接金属提供高温环境。 - Contains of Oxygen Cylinder, Acetylene Cylinder, Oxygen Regulator, Acetylene Regulator, flashback arresters, high pressure flexible houses, cutting and welding kits, safety and protective equipment necessary.
包括氧气、乙炔瓶,氧气、乙炔减压表,回火器,高压软管,焊枪,割刀以及其他设备。 - Oxygen is widely applied in the metal industries in conjunction with acetylene and other fuel gases for metal cutting, welding, scarfing, hardening, cleaning, and melting.
同乙炔和其它燃料气体一起,氧广泛应用于金属工业的金属切割、焊接、嵌接、淬火、清洁和熔化。 - This paper introduced the advantage and application of nitrogen in laser cutting, by comparing with oxygen lance cutting.
通过和氧气切割的对比,介绍了氮气在激光切割中的优势和应用。 - In the case of air containing oxygen of 20%, cutting speed increases rapidly and is much better than gas cutting.
当工作气体含氧量为20%时,切割速度急剧增加,大大优于气割。 - Oxygen activity determination and control in free cutting semi-killed steel
半镇静易切削钢中氧活度的测定与控制 - Widening application of oxygen-lpg to flame cutting
氧&液化石油气切割的推广应用 - Study and Application of Oxygen/ Natural Gas Cutting Technique
氧-天然气切割工艺的研究与应用 - Oxygen/ fuel flashback arrester is a necessary safety apparatus during oxygen-fuel cutting, gas welding, iron and steel casting, and is widely applied in the transportation pipe, gas cutting and gas welding.
氧气、燃气回火防止器是氧-燃气气割、气焊、钢铁连铸等热加工过程中必备的劳动安全防护装置,在氧气和燃气输送管道、气割、气焊中大量使用。 - The architecture and implementation of a robot oxygen plasma cutting system were introduced.
介绍了一种机器人氧等离子切割控制系统的设计方法。 - Multi-agent structured robot oxygen plasma cutting system
基于多Agent的机器人氧等离子切割系统 - Oxygen/ fuel flashback arrestor and its application during gas cutting
氧、燃气回火防止器与其在气割作业中的应用 - The effects of cutting speed and aided oxygen pressure on the cutting quality and the adhesive slag quantity were analysed in the experiment of cutting of aluminium plate by CO2 laser.
在CO2激光切割铝面板的试验中,分析了切割速度和辅助氧压对切割质量及熔渣附着量的影响; - The effect factors on the cutting quality in numerical control flames cutting contain the oxygen purity, the power of preheating flames and the preheating time, oxygen pressure, cutting velocity and the distance from cutting jet to workpiece.
影响数控火焰切割机切割质量的因素有氧气的纯度、预热火焰功率及时间、氧气压力、切割速度、割嘴到工件的距离等。 - Oxygen plasma arc cutting technology with long service life and its application at shipyards
长寿命氧气等离子孤切割技术及其在造船厂的推广应用 - The experiment of cutting oxygen free copper using PCD and SPD cutting tools are carried out, and the surface quality of machined workpieces is tested and analyzed.
用人造聚晶金刚石(PCD)和天然单晶金刚石(SPD)刀具对无氧铜材料进行了切削试验,对加工表面质量进行了检测和分析。 - Combustion of oxygen ethanol was researched by thermodynamic theory. Thermogenesis and energy balance of every zone were analyzed when the flame is burning. It was proved that the flame of oxygen ethanol can be used as heat source of oxygen cutting by theory temperature calculation.
按热力学理论讨论了氧乙醇的燃烧过程,分析火焰燃烧时各区域的产热及其能量平衡,计算火焰理论温度,提出氧乙醇火焰可以作为金属氧气切割方法的热源。 - Oxygen flame cutting of thick steel plate
厚钢件的氧火焰成形切割 - The flame cutting is used iron oxide produced during combustion temperature to cut carbon steel. It is designed by the torch for burning iron oxide providing full oxygen, which ensures to get good cutting results.
火焰切割利用氧化铁在燃烧过程中所产生的高温来对切割碳钢的,燃烧氧化铁所使用的氧气是通过对割炬的设计来实现的,这样可以保证切割效果良好。 - To analyze the effects of water and ultrasonic frequency pulse, air and oxygen plasma arc cutting experiments were carried out in the the dry and wet circumstances respectively. The dc cutting and the ultrasonic frequency pulsed experiments were also conducted in every case.
为了分析水中超声频脉冲和不同等离子气的工艺效果,分别在干式和湿式条件下,进行了空气和氧气等离子切割试验,并且每种试验条件下都进行了直流切割以及超声频脉冲切割。