Mechanical engineering: Machining
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Showing posts with label Machining. Show all posts
Showing posts with label Machining. Show all posts

Thursday, May 12, 2022

The Machining Process and the Different Types of Machining Operations !

 Introduction:

 


There are many different types of machining operations, each of which can produce a different part geometry and surface texture.Turning and milling are the two most common machining techniques. Other processes may be included into or done independently of these processes. A drill bit, for example, can be mounted on a turning lathe or tossed into a drill press. Previously, there was a distinction between turning, in which the part turns, and milling, in which the tool revolves. With the introduction of machining centres and turning centres that can conduct all of the functions of many machines in a single machine, this distinction has become somewhat blurred.

1.   Turning: 


1.     Turning

A single point turning tool rotates axially down the side of the workpiece, removing material to generate various characteristics such as steps, tapers, chamfers, and contours. Typically, these features are machined with a shallow radial depth of cut and many passes until the end diameter is reached.

2.     Facing

turnin operations


A single-point turning tool rotates radially around the workpiece's end, removing a small layer of material to create a smooth flat surface. The face's depth, which is normally very small, can be machined in a single pass or by making successive passes at a reduced axial depth of cut.

3.     Grooving

 A single-point turning tool cuts a groove the same width as the cutting tool by moving radially into the side of the workpiece. Multiple cuts can be performed to build grooves that are larger than the tool width, and specific form tools can be used to generate grooves with different geometries.

4.     Cut-off 

A single-point cut-off tool advances radially into the side of the workpiece, similar to grooving, and continues until the workpiece's centre or inner diameter is reached, thus parting or cutting off a segment of the workpiece.

5.     Thread cutting

A single-point threading tool glides axially down the side of the workpiece, cutting threads into the outside surface, usually with a 60 degree pointed nose. Threads can be cut to a specific length and pitch, and thread formation may need numerous passes.

6.     Drilling

7.     Boring

turning operations
A single-point threading tool slides axially down the side of the workpiece, cutting threads into the outside surface. It commonly has a 60 degree pointed tip. Threads can be cut to a specific length and pitch, and the formation of the threads may need numerous passes.

8.     Reaming

A reamer enlarges an existing hole to the diameter of the tool by entering the workpiece axially through the end. Reaming removes only a small amount of material and is frequently used after drilling to get a more precise diameter and a better internal finish.

9.     Tapping

A tap cuts internal threads into an existing hole by entering the workpiece axially through the end. The appropriate tap drill size that will accept the desired tap is normally drilled into the existing hole.


2.   Milling:

 is the process of removing material from a workpiece by advancing a cutter into it with rotary cutters. This can be accomplished by changing the direction[2] of one or more axes, as well as the cutter head speed and pressure. [3] Milling encompasses a wide range of procedures and machinery, ranging from small single pieces to huge, heavy-duty gang milling operations. It's one of the most used methods for producing custom parts with tight tolerances. A variety of machine tools can be used to mill. The milling machine was the first type of machine tool for milling (often called a mill). Milling machines evolved into machining centres after the introduction of computer numerical control (CNC) in the 1960s: milling machines with automatic tool changers, tool changers, and tool changers. Enclosures, tool magazines or carousels, CNC capabilities, cooling systems Vertical machining centres (VMCs) and horizontal machining centres (HMCs) are the two types of milling centres (HMCs).

milling machine


3.   Drilling:

Drilling uses drill bits to generate cylindrical holes in solid materials; it is one of the most significant machining techniques since the holes created are typically used to aid with assembly. Drill presses are frequently employed, however lathes can also be used. Drilling is a preparatory step in most manufacturing operations for producing finished holes, which are then tapped, reamed, bored, etc. to generate threaded holes or bring hole dimensions within acceptable tolerances. Due to the bit's flexibility and tendency to seek the route of least resistance, drill bits will typically cut holes larger than their nominal size and holes that are not always straight or round. 

As a result, drilling is frequently specified undersize. After that, another machining operation is performed to get the hole to its final size. 

 


drilling machine
drilling machine


Types of drilling machines

Drilling machines come in a variety of shapes and sizes, depending on the type of operation, amount of feed, cut depth, spindle speeds, spindle movement method, and needed accuracy.

The following are the various types of drilling machines:

1. Hand drilling machine or portable drilling machine

2. Bench drilling machine (or sensitive drilling machine)

3. Upright drilling machine

4. Radial drilling machine

5. Gang drilling machine

6. Multiple spindle drilling machine

7. Deep hole drilling machine 




Wednesday, April 15, 2009

Machining: An Introduction

Machining: An Introduction


In terms of annual dollars spent, machining is the most important of the manufacturing processes. Machining can be defined as the process of removing material from a workpiece in the form of chips. The term metal cutting is used when the material is metallic. Most machining has very low set-up cost compared to forming, molding, and casting processes. However, machining is much more expensive for high volumes. Machining is necessary where tight tolerances on dimensions and finishes are required.
The Machining section is divided into the following categories:


drilling:


  1. Turning:


  2. Milling:


  3. Grinding:


  4. Chip formation:






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