"薄壁工件"是制造工业中常用术语通常指是壁厚相对于宽度和长度较薄工件。在工程设计和加工中薄壁工件通常会面临些特殊挑战和技术要求。在这方面英语中术语"thin-walledworkpiece"常常被使用。在工程领域中人们经常使用英语短句描薄壁工件特性、加工技术和应用场景。例如:"Thin-walledworkpiecesrequireprecisemachiningtechniques."(薄壁工件需要精密加工技术。)"Thedesignofthin-walledworkpiecesshouldconsidermaterialstrengthandstability."(薄壁工件设计应考虑材料强度和稳定性。)这些英语短句涵盖了薄壁工件加工方面重要概念现了工程领域对于这领域关注和重视。
薄壁工件,thin-walled workpiece
1)thin-walled workpiece薄壁工件
英文短句/例句
1.Research and Design of Automatic Drilling and Riveting Machine for Large Thin-wall Workpiece Assembly大尺寸薄壁工件自动钻铆机结构的研究与设计
2.Research on Selection of Optimal Cutting Parameters in High-speed Milling of Thin-walled Al-alloy Workpiece;铝合金薄壁件高速铣削加工工艺优化
3.Thin-Walled Part of Variable Wall Thickness Machining Modeling and Its Experimental Study薄壁变壁厚零件切削加工建模及其实验研究
4.Forming Process and Die of Hard Aluminium-Alloy Thin-wall Cap-shape Parts硬铝合金薄壁杯形件成形工艺与模具
5.Procedure of Production of the Thin-Wall Casting with Feeder Wire Process;喂线技术生产薄壁球铁件的工艺控制
6.Study on Methods to Improve Inside Hole s Processing Precision of Thin-walled Parts;提高薄壁件内孔加工精度方法的研究
7.Research on Cutting Vibration and Machining Technology in Milling Thin-walled Components;薄壁零件的加工振动分析与加工工艺研究
8.The Processing Technology of a Micro-size and Thin-wall Parts that Difficult-to-install一种微型、薄壁、难装夹零件的加工工艺方法
9.Study on Processing Technology of Thin-walled parts Based on Theory of Stiffness刚度理论视域下薄壁零件加工工艺研究
10.NC High-Speed Machining Process and Program of Complex Thin-Wall Dish-Shape Parts复杂薄壁盘类零件数控高速加工工艺与编程
11.Technical Study of Machining Deformation on Thin-walled Cavity Parts薄壁腔体类零件加工变形问题工艺研究
12.The Milling Force and Process of Thin-web Aluminum Alloy Parts in High-speed Cutting铝合金薄壁件高速加工的切削力和工艺研究
13.Design of Tool and Experimental Study with Respect to Ball Spinning Forming of Thin-walled Tubular Parts薄壁筒形件滚珠旋压成形工装设计及实验研究
14.Wire-DEM on the Heavy-Thickness and Thin -Wall Alumium Alloy Special Parts铝合金大厚度薄壁异形件的线切割加工
15.Nonlinear Finite Element Analysis of Deformation in Machining of Thin-Wall Arc Shaped Workpiece航空薄壁弧形件加工变形的非线性有限元分析
16.Study on Precision Electroforming Technology of Complex Thin-walled Parts;精密电铸法制造复杂薄壁零件的工艺研究
17.Numerical Simulation and Compensation for Machining Deflection of Thin-Walled Parts;薄壁件加工变形的模拟仿真与补偿技术研究
18.The Research to Control the Heat-treatment Distortion of Shell-body;薄壁壳体零件热处理变形控制工艺研究
相关短句/例句
thin-walled cylindrical workpiece薄壁圆筒工件
1.By using axisymmetric thin-shell theory in plastic forming theories of metal, stresses are analyzed during the stamping-necking process of rotating ellipsoidal surface type inthin-walled cylindrical workpiece, and the relation is put forward between longitudinal stress in the necking section of such workpiece and other parameters when necking coefficient k≥0.应用金属塑性成形理论中的轴对称薄壳理论 ,对薄壁圆筒工件旋转椭球面型冲压缩口成形过程的应力进行了分析 ,得出了缩口系数k≥ 0 71时此类工件缩口段经向应力的变化规律及其与其他参数之间的关系 ,推出了这种情况下工件最大轴向压应力及缩口力的计算公式 ,为工艺设计人员研究、制定相应缩口工艺提供了依据。
3)thin-wall round workpiece薄壁回转工件
1.This paper advances the calculating method and formulas of blank diameter ofthin-wall round workpiece with arbitrary shape generator under conventional spinning process,which provides evidence and assistance for actual calculation in workshop.提出了母线为任意形状的薄壁回转工件在普通旋压加工中毛坯直径的计算方法与公式 ,为生产现场进行实际计算提供了依据和帮
4)Thin-wall part machining薄壁零件加工
5)Thin wall quenching parts淬火薄壁工件
6)Thin wall revolving body薄壁回转体工件
1.Thin wall revolving body made by fragile material is a kind of baroque workpiece which is used in some domain such as aviation,spaceflight and radar communication,its precision influences the equipments" performance in these fields.硬脆材料薄壁回转体工件主要应用在航空、航天和雷达通讯等领域,其制造精度是影响该领域某些设备性能的关键因素,因材料特殊、结构复杂、加工精度要求高,其加工一直是国内外研究的难题。
延伸阅读
工件安装及所用附件在车床上安装工件所用的附件有三爪卡盘、四爪卡盘、顶尖、花盘、心轴、中心架和跟刀架等。安装工件的主要要求是位置准确、装夹牢固。 一、三爪卡盘安装工件 三爪卡盘是车床上应用最广的通用夹具,适合于安装短圆棒料或盘类(直径较大的盘状工件中,可用反三爪夹持)工件,它的结构见示范教具。当转动小伞齿轮时,大锥齿轮便转动,它背面的平面螺纹就使三个卡爪同时向中心靠近或退出,以夹紧不同直径的工件。三爪卡盘装夹方便能自动定心,但其定心准确度不高,约为0.05~0.15mm。工件上同轴度要求较高的表面应在一次装夹中车出。 二、四爪卡盘安装工件 四爪卡盘的结构见直观教具。四爪卡盘有四个互不相关的卡爪,各卡爪的背面有一半瓣内螺纹与一螺杆相啮合。螺杆端部有一方孔,当用卡盘扳手转动某一螺杆时,相应的卡爪即可移动。如将卡爪调转180°安装,即成反爪。 四爪卡盘由于四个卡爪均可独立移动,因此可安装截面为方形、长方形、椭圆以及其它不规则形状的工件。同时,四爪卡盘比三爪卡盘的夹紧力大,所以常用来安装较大的圆形工件。 由于四爪卡盘的四个卡爪是独立移动的,在安装工件时须进行仔细的找正工件,一般用划针盘按工件内外圆表面或预先划出的加工线找正,其定位精度较低,为0.2~0.5mm。用百分表按工件精加工表面找正,其定位精度可达0.02~0.01mm。