隨著(zhù)現代機械加工的快速發(fā)展
隨著(zhù)現代機械加工的快速發(fā)展,機械加工技術(shù)快速發(fā)展,慢慢的涌現出了許多先進(jìn)的機械加工技術(shù)方法,比如微型機械加工技術(shù)、快速成形技術(shù)、精密超精密加工技術(shù)等。
With the rapid development of modern mechanical processing and the rapid development of mechanical processing technology, many advanced mechanical processing techniques have gradually emerged, such as micro mechanical processing technology, rapid prototyping technology, precision ultra precision processing technology, etc.
微型機械加工技術(shù)
Micro mechanical processing technology
機械產(chǎn)品
Mechanical products
機械產(chǎn)品
Mechanical products
隨著(zhù)微/納米科學(xué)與技術(shù)(Micro/Nano Science and Technology)的發(fā)展,以本身形狀尺寸微小或操作尺度極小為特征的微機械已成為人們認識和改造微觀(guān)世界的一種高新科技。微機械由于具有能夠在狹小空間內進(jìn)行作業(yè),而又不擾亂工作環(huán)境和對象的特點(diǎn),在航空航天、精密儀器、生物醫療等領(lǐng)域有著(zhù)廣闊的應用潛力,并成為納米技術(shù)研究的重要手段,因而受到高度重視并被列為21世紀關(guān)鍵技術(shù)之首。[3]
With the development of Micro/Nano Science and Technology, micro machinery characterized by its small shape and size or extremely small operating scale has become a high-tech tool for people to understand and transform the micro world. Micromachinery, due to its ability to operate in narrow spaces without disturbing the working environment and objects, has broad application potential in fields such as aerospace, precision instruments, biomedicine, and has become an important means of nanotechnology research. Therefore, it has been highly valued and listed as the top key technology of the 21st century. [3]
快速成形機械加工技術(shù)
Rapid prototyping machining technology
快速成形技術(shù)是20世紀發(fā)展起來(lái)的,可根據CAD模型快速制造出樣件或者零件。它是一種材料累加加工制造方法
Rapid prototyping technology was developed in the 20th century and can quickly manufacture samples or parts based on CAD models. It is a material accumulation manufacturing method