How to view non-standard mechanical processing
Time: 2023-10-07
What is non-standard mechanical processing?
In the view of non-standard mechanical processing factories, mechanical processing refers to the process of changing the size or performance of workpieces through mechanical equipment, known as machining. In addition, according to different processing methods, mechanical processing can be divided into cutting processing and pressure processing.
What are the design principles of process procedures in non-standard mechanical processing?
In mechanical processing, if a process program is designed, there are some design principles, mainly including: firstly, non-standard mechanical processing design process programs can ensure that the parts or components have good processing quality and meet the technical requirements specified on the design drawings; Secondly, this technology has high production and processing efficiency, and the finished product can be used normally as soon as possible; Thirdly, reduce manufacturing costs; The fourth is to reduce labor intensity and ensure stable processing.
Are the design and process benchmarks the same in machining?
For this question, non-standard mechanical processing factories believe that the answer is negative, that is, the design and process standards in mechanical processing are different. Design reference refers to the reference used to determine the positions of other points, lines, and surfaces on a part drawing. Process benchmark refers to the benchmark used for part processing and assembly, which can be divided into assembly benchmark, measurement benchmark, and positioning benchmark.
Is cost calculation important for mechanical processing?
From the perspective of non-standard machining manufacturers, the answer to this question is affirmative, and the same applies to non-standard machining. In addition, in addition to paying attention to the calculation of processing costs, it is also important to know how to calculate correctly in order to obtain accurate results and correct values, and to avoid incorrect results and values.
In the view of non-standard mechanical processing factories, mechanical processing refers to the process of changing the size or performance of workpieces through mechanical equipment, known as machining. In addition, according to different processing methods, mechanical processing can be divided into cutting processing and pressure processing.
What are the design principles of process procedures in non-standard mechanical processing?
In mechanical processing, if a process program is designed, there are some design principles, mainly including: firstly, non-standard mechanical processing design process programs can ensure that the parts or components have good processing quality and meet the technical requirements specified on the design drawings; Secondly, this technology has high production and processing efficiency, and the finished product can be used normally as soon as possible; Thirdly, reduce manufacturing costs; The fourth is to reduce labor intensity and ensure stable processing.
Are the design and process benchmarks the same in machining?
For this question, non-standard mechanical processing factories believe that the answer is negative, that is, the design and process standards in mechanical processing are different. Design reference refers to the reference used to determine the positions of other points, lines, and surfaces on a part drawing. Process benchmark refers to the benchmark used for part processing and assembly, which can be divided into assembly benchmark, measurement benchmark, and positioning benchmark.
Is cost calculation important for mechanical processing?
From the perspective of non-standard machining manufacturers, the answer to this question is affirmative, and the same applies to non-standard machining. In addition, in addition to paying attention to the calculation of processing costs, it is also important to know how to calculate correctly in order to obtain accurate results and correct values, and to avoid incorrect results and values.
