As machined finish for metal and plastic parts

As machined finish refers to the surface finish of a material after it has been machined but has not undergone any additional surface treatment or finishing processes. It means the surface of the material may have tool marks or other imperfections that are a result of the machining process. It is often used in cases where the surface finish is not a critical factor or where additional surface treatment or finishing is planned for later in the manufacturing process. It is commonly used in a wide range of applications where surface finish is not a critical factor. Some common applications include:

1. Prototyping: It is often used in the prototyping stage of product development, where the focus is on functionality rather than aesthetics.
2. Fixtures and tooling: Fixtures and tooling used in manufacturing processes often have an as machined finish, as the surface finish is not critical to their performance.
3. Low-cost components: In applications where cost is a critical factor, as machined finish can be used to eliminate the need for additional surface treatment processes, which can add to the overall cost.
4. Large components: Machining large components can be challenging and may result in a less than perfect surface finish. In these cases, surface finish just after machined may be acceptable, especially if the component is not visible or does not require a high level of surface finish.

as machined finish for metal and plastic parts

As machined finish is often achieved through the use of CNC machining or other precision machining techniques. The process involves removing material from the surface of the part using cutting tools such as drills, mills, or lathes. The resulting surface finish may have tool marks, scratches, or other imperfections that are a result of the machining process.

The advantages of surface finish just after machining include:

1. Cost-effective: It is a cost-effective solution for metal parts that do not require a high level of surface finish.
2. High precision: CNC machining and other precision machining techniques can achieve high levels of precision, ensuring that the parts meet the required specifications.
3. Short lead times: CNC machining and other precision machining techniques can produce metal parts quickly, allowing for shorter lead times and faster turnaround times.
4. Versatility: Finish just after machined can be achieved on a wide range of metal parts, making it a versatile solution for many different applications.

However, as machined finishing may not be suitable for all applications. Parts that require a high level of surface finish, such as those that will be visible or subject to wear and tear, may require additional surface treatment or finishing processes to achieve the desired result.