G code and M code

G code

G stands for geometry, and it's the alphanumeric format the system uses to tell
the parts what to do. It indicates where to start, how to move and when to stop.
For machinists, the problem with using G codes is different machines use
variations on a standard set of alphanumeric numbers

M code

M-code (for “miscellaneous function”) is an auxiliary command; descriptions
vary. Many M-codes call for machine functions like “open workstation door,”
which is why some say “M” stands for “machine”, though it was not intended
to.


G-code is a type of function used in Numerical Control programming language
that contains the information to position a tool to do the actual work Since
G-codes are preparatory codes, in a CNC
program they begin with the letter G and direct the machine. Typical actions
G-code directs include: Changing a pallet.
Difference

1. G Code is a Geometric Code, which is used for make a geometry/profile of a
component having cylinder/bar in CNC Lathe or Rectangular Plates in CNC
Milling and CNC WEDM.
2. M code is a Machine Code or Miscellaneus Code, which is used for machine functions
in all CNC machines. i. e. Coolant on/off, Spindle Speed on/off, tool change,
machine stop permanent/temporary etc.



M code G code
• M00: Program stop
• M01: Optional program
stop
• M02: End of program
• M03: Spindle on
clockwise
• M04: Spindle on
counterclockwise
• M05: Spindle stop

N: Line
number G:
Motion
X: Horizontal
position Y:
Vertical
position Z:
Depth

F: Feed rate
S: Spindle speed
T: Tool selection
M: Miscellaneous functions
I and J: Incremental
center of an arc R:
Radius of an ar

Nevertheless, after reading all of this, now we are able to manually make a real,
actual code. Here’s an example:



1. %
2. G21 G17 G90 F100
3. M03 S1000
4. G00 X5 Y5 ; point B
5. G01 X5 Y5 Z-1 ; point B
6. G01 X5 Y15 Z-1 ; point C
7. G02 X9 Y19 Z-1 I4 J0 ; point D
8. G01 X23 Y19 Z-1 ; point E
9. G01 X32 Y5 Z-1 ; point F
10. G01 X21 Y5 Z-1 ; point G
11. G01 X21 Y8 Z-1 ; point H
12. G03 X19 Y10 Z-1 I-2 J0 ; point I
13. G01 X13 Y10 Z-1 ; point J
14. G03 X11 Y8 Z-1 I0 J-2 ; point K
15. G01 X11 Y5 Z-1 ; point L
16. G01 X5 Y5 Z-1 ; point B
17. G01 X5 Y5 Z0
18. G28 X0 Y0
19. M05
20. M30
21. %

Impotance

Application of M codes

• Other letter designations (or, “words”) are used to specify feed rate (F),
spindle speed (S), tool addresses (T), etc.
• A full CNC program will be peppered with these letters as well as the
G and M-codes. Several M-codes are used to reference the control
panel for operator input. M01, an optional program stop, temporarily
halts the program and awaits input from the operator if the Opt Stop
button on the control panel is on. Otherwise, the M01 command is
ignored.
• This function might be used to allow the operator to remove chips.
• Another panel button labeled Block Skip will make the programs
skip over any code blocks that are preceded by a forward slash. This
is useful for auto-feeding operations as it can be used to skip over
the program stop command.
Need of G code and M code


• Technically a machine operator doesn’t need to know G-code. If the
CAM software has already created a cutting program, it feeds that

information to the CNC machining center. The software has already
determined the “speed and feed”, the tool path and all the other
variables needed to make the part. The operator can simply press the
start button and watch the part being made, but there are many
problems to this approach
• CAM programs seldom produce the optimal tool path for the fastest
and most efficient cutting of a part, especially for complex geometries.
This is because, as mentioned above, it is “thinking” point-by-point
and step-by-step, not thinking globally. Only a human machinist with
real-world experience is capable of determining the ideal function of
the machine tool to meet the expectations of the customer’s design
intent. CAM is also optimized for maximum safety and machine tool
life, which translates as slow. Sometimes very slow.