oxyacetylene
简明释义
英[ˌɒksiəˈsetəliːn]美[ˌɑːksiəˈsetəliːn]
adj. 氧乙炔的
n. 氧乙炔
英英释义
A type of welding that uses a flame produced by burning a mixture of oxygen and acetylene gas, commonly used for cutting and joining metals. | 一种焊接方式,使用氧气和乙炔气体混合燃烧产生的火焰,常用于切割和连接金属。 |
单词用法
氧乙炔火焰 | |
氧乙炔设备 | |
氧乙炔工艺 | |
氧乙炔气 | |
氧乙炔焊条 | |
氧乙炔安全注意事项 |
同义词
气体焊接 | 气体焊接通常用于金属制造。 | ||
氧气燃料焊接 | Oxy-fuel welding requires a high level of skill and safety precautions. | 氧气燃料焊接需要高水平的技能和安全预防措施。 |
反义词
例句
1.Oxyacetylene flame can' be used for welding of pipeline.
管道焊接不得使用氧乙炔焰焊接。
2.The combustion process of the oxyacetylene flame is a random one, it obtains good result using the Hidden Markov Model (HMM) which has good imitation ability on the random process.
氧乙炔火焰的燃烧过程是一个随机过程,用对随机过程有很好模拟能力的隐马尔可夫模型(HMM)对其进行建模与识别,可以达到更好的效果。
3.The preferred method is by oxyacetylene flame .
最好采用氧炔焰加热方法。
4.For the oxyacetylene flame is widely used in the industrial production, the automatic monitoring of its combustion states is played more and more attention.
由于氧乙炔火焰在工业生产中的广泛应用,其燃烧状态的自动监测越来越为人们所重视。
5.The method and technology of oxyacetylene flame braze welding for main cable wrapping at Shantou Bay Bridge were introduced, and the difficulties of the welding were analyzed.
介绍汕头海湾大桥主缆缠丝所采用的氧-乙炔火焰钎接焊方法及其工艺,并对主缆缠丝焊接的难点进行了分析。
6.Oxyacetylene flame is the hottest one known for ordinary use.
氧炔焰是常规用途中最热的火焰。
7.The remaining 20%of the acetylene production is principally used for oxyacetylene cutting, heat treating, and welding.
乙炔生产的剩余20%主要用于氧乙炔切割、热处理和焊接。
8.The combustion process of the oxyacetylene flame is a random one, it obtains good result using the Hidden Markov Model (HMM) which has good imitation ability on the random process.
氧乙炔火焰的燃烧过程是一个随机过程,用对随机过程有很好模拟能力的隐马尔可夫模型(HMM)对其进行建模与识别,可以达到更好的效果。
9.In this paper, the oxyacetylene flame alloying powder spraying technology was used to strengthen the wear-proof surface of slurry valve.
将氧-乙炔粉末喷焊技术用于渣浆阀耐磨表面的强化。
10.The construction team relied on oxyacetylene (乙炔氧气) torches for metal fabrication.
建筑团队依赖于oxyacetylene (乙炔氧气) 火炬进行金属加工。
11.The artist created stunning sculptures using oxyacetylene (乙炔氧气) cutting techniques.
艺术家使用oxyacetylene (乙炔氧气) 切割技术创作出令人惊叹的雕塑。
12.Safety gear is crucial when working with oxyacetylene (乙炔氧气) due to the high temperatures involved.
在使用oxyacetylene (乙炔氧气) 时,安全装备至关重要,因为涉及到高温。
13.The welder used an oxyacetylene (乙炔氧气) torch to join the metal pieces together.
焊工使用了一个oxyacetylene (乙炔氧气) 火炬将金属件连接在一起。
14.In automotive repair, oxyacetylene (乙炔氧气) welding is essential for fixing exhaust systems.
在汽车修理中,oxyacetylene (乙炔氧气) 焊接对于修复排气系统至关重要。
作文
The process of welding has evolved significantly over the years, leading to the development of various techniques and technologies. One of the most notable methods is the use of oxyacetylene welding. This technique involves the combustion of oxygen and acetylene gas to produce a flame that can reach temperatures exceeding 3,000 degrees Celsius. The high temperature generated by this flame makes it an ideal choice for welding metals such as steel and aluminum. 氧乙炔焊接是一种重要的焊接方法,它在许多工业和制造领域中发挥着关键作用。In the world of fabrication, oxyacetylene welding is particularly valued for its versatility. It can be used for cutting, brazing, and soldering in addition to welding. The ability to adjust the flame's intensity and temperature allows welders to work on a variety of materials and thicknesses. This adaptability is crucial in industries ranging from automotive to construction, where different metals and joint types are frequently encountered.One of the primary advantages of oxyacetylene welding is its portability. Unlike some modern welding techniques that require heavy machinery and extensive setup, oxyacetylene equipment can be transported easily. This feature makes it especially useful for fieldwork, where large structures or components need to be welded on-site. Welders can set up their oxyacetylene torches quickly and efficiently, enabling them to complete projects in a timely manner.However, with the advantages of oxyacetylene welding come certain challenges. Safety is a significant concern, as both oxygen and acetylene gases are highly flammable. Proper training and adherence to safety protocols are essential to prevent accidents. Additionally, the intense heat produced can lead to warping or distortion of the metal being welded if not managed correctly. Therefore, skilled operators are required to ensure quality results and maintain safety standards.In recent years, advancements in technology have introduced new welding methods, but oxyacetylene welding remains a popular choice due to its unique benefits. For instance, despite the rise of electric arc welding and laser welding, many professionals still prefer oxyacetylene for specific applications where precision and control are paramount. The ability to manually adjust the flame allows for a level of craftsmanship that automated processes may not replicate.In conclusion, oxyacetylene welding is a time-tested technique that continues to play a vital role in various industries. Its combination of portability, versatility, and effectiveness makes it a valuable tool for welders around the world. While it comes with its own set of challenges, the benefits it offers are undeniable. As technology continues to evolve, it will be interesting to see how oxyacetylene welding adapts and integrates with newer methods, ensuring its place in the future of fabrication and welding.
焊接工艺多年来经历了显著的发展,导致了各种技术和技术的出现。其中一种最显著的方法是使用氧乙炔焊接。这种技术涉及氧气和乙炔气体的燃烧,以产生温度超过3000摄氏度的火焰。该火焰产生的高温使其成为焊接钢和铝等金属的理想选择。氧乙炔焊接是一种重要的焊接方法,它在许多工业和制造领域中发挥着关键作用。在制造业中,氧乙炔焊接因其多功能性而受到特别重视。它不仅可以用于焊接,还可以用于切割、钎焊和焊接。调整火焰强度和温度的能力使焊工能够处理各种材料和厚度。这种适应性在汽车、建筑等行业至关重要,因为这些行业经常遇到不同的金属和接头类型。氧乙炔焊接的主要优点之一是其便携性。与一些现代焊接技术需要重型机械和广泛设置不同,氧乙炔设备可以轻松运输。这一特点使其在现场工作中尤其有用,在那里需要对大型结构或组件进行现场焊接。焊工可以快速有效地设置他们的氧乙炔喷灯,使他们能够及时完成项目。然而,随着氧乙炔焊接的优势而来的是某些挑战。安全是一个重大问题,因为氧气和乙炔气体都是高度易燃的。遵循安全协议和适当培训对于防止事故至关重要。此外,产生的强烈热量如果管理不当,可能导致被焊接金属的变形或扭曲。因此,需要熟练的操作员以确保质量结果并维护安全标准。近年来,技术的进步引入了新的焊接方法,但由于其独特的优点,氧乙炔焊接仍然是一个受欢迎的选择。例如,尽管电弧焊和激光焊的兴起,许多专业人士仍然更喜欢在特定应用中使用氧乙炔,在这些应用中,精确度和控制是最重要的。手动调整火焰的能力允许一种工艺水平,这是自动化过程无法复制的。总之,氧乙炔焊接是一种经过时间考验的技术,继续在各个行业中发挥重要作用。它的便携性、多功能性和有效性的结合使其成为全球焊工的宝贵工具。虽然它有自己的一系列挑战,但它所提供的好处是不可否认的。随着技术的不断发展,观察氧乙炔焊接如何适应并与更新的方法结合,将确保其在未来制造和焊接中的地位。