For cars of different sizes and weights, the power level corresponding to the engine displacement is: entry----mainstream----top allocation
The CNC Turning process is a digital manufacturing process that is implemented by computer numerically controlled (CNC) machines. This process is used to produce parts with complex shapes, and the manufacturing process involves multiple steps. The following are the detailed steps of the general CNC Turning process:Design: First, you need to design a CAD model of the parts you want to produce. A CAD model is a three-dimensional image created using computer-aided design software that can describe the shape, size, and features of a part.Programming: Next, you need to convert the CAD model into G-code, which is a type of computer instruction that controls the movement and operation of the CNC machine. G Code can be written manually or generated automatically using CAM software.Prepare the machine: Before you start machining, you need to check and prepare the CNC machine. This includes checking the machine's coordinate system, setting tools and cutters, and setting parameters such as the machine's speed and feed speed.Processing: After the machine is ready, the processing can begin. The machining process usually consists of multiple steps, such as roughing, finishing and drilling. At each step, the CNC machine moves tools and workpieces according to instructions in the G code to achieve the desired cutting operation.Inspection: After processing, the parts need to be inspected to ensure that they meet the design requirements and specifications. Inspection can be carried out by using measuring instruments, templates and other testing tools.Polishing and surface treatment: Parts can be polished and surface treated if needed to improve their surface finish and corrosion resistance. This can be done through the use of abrasives, chemicals and other tools.In short, the CNC Turning process is a high-precision, high-efficiency manufacturing process suitable for the production of parts with complex shapes. Through the control of CAD model and G code, the precise control of machine motion can be realized, so as to achieve high-precision parts processing.
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There are naturally aspirated 1.0 in the market, such as Charade naturally inhaling 1.2, 1.3, 1.4, for small cars, such as Yaris, Carnival, K2, Fit, Mazda 2, Rena, POLO, Citroen C2 and other natural inhalation 1.6 , 1.8, for compact cars, such as 1.6 Polaris, LaVida, C4L, Fox, etc.; 1.8 Civic, Sylphy, K3, Lang dynamic natural suction 2.0 can be used as a compact vehicle with high power, such as Fox 2.0, Corolla 2.0 Mazda 3 2.0 and so on.
Can also be used as a low-class B power distribution, such as the Accord 2.0, Regal 2.0, Celestial 2.0, eighth-generation Sonata 2.0 and other natural breathing 2.3, 2.4, 2.5 can be used as the mainstream power of Class B cars, such as the Accord 2.4, Peugeot 508 2.3, Scorpio 2.5, Reiz 2.5, Regal 2.4, etc. 2.5V6 can do C-class car entry power, such as the Audi A6 new 30FSI, Crown 2.5V6, etc. Naturally aspirated 2.5 or more are high-end cars, 3.0, 4.0 or more V8 machines , are millions of luxury cars turbocharged: 1.4T, compact car levels, such as Sagitar 1.4T.
1.6T and 1.8T, compact car high power (Sagitar 1.8T, Yinglang 1.6T, etc.) or B-class car mainstream power (Mai Rui Bao 1.6T, Magotan 1.8T, etc.) 2.0T, compact car performance Peugeot (such as domestic GTI ); B-class roof-class power (Magotan 2.0T, Regal 2.0T, etc.) C-class car mainstream power (BMW 5 Series domestic new 2.0T represented) larger displacement turbocharger: high-end car or performance car use , 3.0T displacement of the BMW 5 Series, 5 Series GT top with; 2.5T displacement of the Subaru Legacy GT Edition.