simulation lab final

8/10/2019 Simulation Lab Final

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Specify radius of circle or [Diameter] : 10

Command: *Cancel*

Command: ar

ARRAY

Specify center point of array: center of circle

Number of items: 8

Select objects: 1 found

Select objects:

Command: l

LINE Specify first point:

Specify next point or [Undo]: 80


Command: LINE Specify first point:


Specify next point or [Undo]: *Cancel*

Command: c

CIRCLE Specify center point for circle or [3P/2P/Ttr (tan tan radius)]:

Specify radius of circle or [Diameter] : d

Specify diameter of circle : 36

Command: c



Command: c



Command: c


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Command: l

LINE Specify first point: tan

Specify next point or [Undo]: tan


Command: l

LINE Specify first point: tan

Specify next point or [Undo]: tan


Command: c

CIRCLE Specify center point for circle or [3P/2P/Ttr (tan tan radius)]: ttr

Specify point on object for first tangent of circle:

Specify point on object for second tangent of circle:

Specify radius of circle : 96

Command: c

CIRCLE Specify center point for circle or [3P/2P/Ttr (tan tan radius)]: ttr

Specify point on object for first tangent of circle:

Specify point on object for second tangent of circle:

Specify radius of circle : 42

Command: Specify opposite corner:

TRIM

Current settings: Projection=UCS, Edge=None

Select cutting edges ... 19 found

Select object to trim or shift-select to extend or

[Fence/Crossing/Project/Edge/eRase/Undo]: Specify opposite corner:


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Select object to trim or shift-select to extend [Fence/Crossing/Project/Edge/eRase/Undo]:

*Cancel*

Result: Hence the object is drawn in AutoCAD software with proper dimensions.


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Experiment -2

Aim:Draw the given figure by using AutoCAD software

Commands used: ortho, line, circle, array, mirror, trim, fillet, offset, erase, dimensions.

Program:

Command: c program


Specify radius of circle or [Diameter]: d

Specify diameter of circle: 62

Command: c



Command: c




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Command: c



Command: l



Command: o

OFFSET

Current settings: Erase source=No Layer=Source OFFSETGAPTYPE=0

Specify offset distance or [Through/Erase/Layer] : 4

Select object to offset or [Exit/Undo] : *cancel*

Command: e

ERASE 1 found

Command: tr

TRIM




[Fence/Crossing/Project/Edge/eRase/Undo]: *Cancel*

Command: ar

ARRAY

Specify center point of array: center of the circle

Number of items: 6

*Cancel*

Command: tr

TRIM


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Command: l


Specify next point or [Undo] : 52


Specify next point or [Close/Undo]: *Cancel*

Command: c



Command: c



Command: e

ERASE 2 found

Command: mi

MIRROR 2 found

Specify first point of mirror line: Specify second point of mirror line:

Erase source objects? [Yes/No] : enter


Command: MIRROR 4 found

Specify first point of mirror line: Specify second point of mirror line:

Erase source objects? [Yes/No] : enter


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Command: l



Command: LINE Specify first point:


Command: f

FILLET

Current settings: Mode = TRIM, Radius = 0.0000

Select first object or [Undo/Polyline/Radius/Trim/Multiple]: r

Specify fillet radius : 12 at 4 places

Command: tr

TRIM






Result: Hence the object is drawn in AutoCAD software with proper dimensions.


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EXPERIMENT _-3

AIM:To create a part model of the object as per the given dimension shown in figure.

Software used:- solid works 2013-14

Commands used:- Rectangle, Line, Arc, Extrude, Extrude Cut, Hole wizard and Fillet

Procedure: 1) Double click the solid works Icon on Desktop to open it.

2) File New Part click ok.

3) Set default unit system as MMGS

4) Select a top plane Right click Select Mode

5) Go to sketch Commands Rectangle Select corner Rectangle

6) Dimension: - smart dimension set the length = 100 mm, width= 40 mm.

7) Go to features Extrude boss/base Direction -1

Blind

Enter valve=10 mm

Select ok

8) Insert new sketch

- Select front face of the part body apply sketch

- Set normal to plane Draw profile on that face by using line

command as shown below

Design the feature by using smart dimensions

9) Go to feature Extrude boss/base Direction-1

Blind select reverse

10 mm (Enter value)

Select Ok


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10) Select front plane- go to sketch mode

Sketch command Rectangle Corner Rectangle

Define the sketch smart dimension: 403.

11) Go to features Extrude cut Direction -1 Select through all

12) Features: - Hole wizard Hole type counter bore

Standard

ANSI Metric

Type

Hex bolt- ANSI B 18.2.3.5 M

Hole specification: - size M8

End condition

Select through all

Tick Ok, then select the face

12 a) wake up the center point

Click the positions tab

Move the cursor on to the circumference of the large arc and Drop it.

Go to feature: - fillet Select the radius as 8 mmSelect the corner edge of base feature Ok

Go to Horizontal Hole type Hole

Standard: - ANSJ Metric

Type: - Drill Sizes

Hole specification: - size 7.0

End condition: - Through all.

Select the Top of bottom plate

Repeat the procedure 1.2 (a) then apply


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Go to feature: - filiet radius 3mm: select the faces as shown in main figure, apply.On body

Right click appearance Body Color Select ok

RESULT: Hence by using above commands the figure is obtained as per given dimensions.


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EXPERIMENT-4AIM: To create a given object by using Solid Works Software using proper commands &

dimensions.

Software used:- Solid Works 2012-13

Command used:- Rectangle, Extrude, Extrude cut, fillet, chamfer, Hole wizard.

Procedure:- 1) Double click the solid works Icon, to open the software.

2) File New Part Ok

3) Unit system set MMGS Ok

4) Select Top plane as Sketch plane. Go to

5) Sketch based feature Rectangle Corner rectangle

Smart dimension set as 130100

6) Go to feature Go to features Extrude Boss Direction -1

20 nm [enter value]

7) Select Top surface of the object as sketch plane and

Sketch based features Rectangle corner Rectangle.

Smart dimension to define a sketch 13020

8) go to features Extrude Boss Direction -1

Blind

70 mm [enter value]


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Ok

9) Features fillet fillet radius -20 mm select corner edges.

10) Select front surface of the object as sketch plane Go to sketch Mode

Sketch feature Rectangle Corner rectangle

Define smart dimensions 6070

11) Go to features: - Extrude Direction Blind 50 mm (enter the value)

12) Select the front face again as sketch plane sketch mode is activated sketc

tools Line command

Draw a profile as shown below by using smart dimensions defined in the figure.

13) Go to feature & Extrude cut direction 1 through all ok.

14) Go to features chamfer select the front edge of the above profile.

Distance 30 mm

Angle 450

Ok

15) Select the left face of the object as sketch plane Sketch mode is activated

Sketch tools Corner Rectangle

By using smart dimension define as 2020 mm

16) Hole wizard Hole type Hole Standard

ANSI metric

Type:-Dill size

Specification 7.0

End Condition through all

Ok

Select the left surface of object selected corner point of rectangle and use positio

tab, circumference of the fillet select center point Ok.


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17) Feature fillet fillet Radius 5 mm Select the remaining faces and click

Ok.

18) Mirror Select mirror face /plane. Bodies to mirror Ok.

19) Save the part-2

RESULT: Hence by using above commands the figure is obtained as per given dimensions.


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EXPERIMENT-5AIM: To create a given object using proper commands & Dimensions with the help of solid

work software.

Software used: - solid works 2012-13

Command used:Line, Rectangle, Hole wizard, Extrude, Shell, Mirror, fillet.

Procedure:1) Double click the solid works Icon, to open the software.

2) File New Part ok

3) Unit system set MMGS ok

4) Select the front plane as sketch plane Sketch feature Line command

Draw the profile as shown below, by using smart dimensions define the object as

shown in figure

5) Feature Extrude Mid plane 90 mm Enter value ok

6) Feature Shell Parameters: - 8 mm Extrude value ok

7) Select the bottom face as sketch plane Sketch features Line command

Draw the profile as shown below and define it by using smart dimension.

8) Feature extrude Blind 8 mm Enter value & ok.

9) Feature Hole Wizard Hole Type: - Hole

Standard: - Ansi metric

Hole specification: - 12.0 mm


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End condition through all

Select the cover Extension face, move the cursor to circumference.

Place the hole at center point

Ok.

10) Feature Mirror-1

Mirror face/plane: - Select Right plane

Feature to mirror: - Select front plane

Features to mirror: - select mirror-1

Ok

11) Features: - Mirror-2

Mirror face/plane: - Select front plane

Feature to mirror: - Select mirror-IOk

12) Select Top plane as sketch plane: - Select features Rectangle

Center Rectangle

Ok

13) Feature Extrude cut: - Through all ok.

14) Features: - Fillet: - Fillet radius:-3 mm

Select the front & back corner edges. Ok.

15) Features: Fillet -2:- Fillet radius:-3mm

Select the faces of the object ok.

Save the parts as part-3

RESULT: Hence by using above commands the figure is obtained as per given dimensions


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EXPERIMENT-6AIM:- To create a given object using proper commands & Dimensions with the help of solid

work software

Software used: -Solid works 2012-13.

Command used: -Line, rectangle, circle, extrude, Extrude cut, hole wizard, filletmirror, offset entities.

Procedure:

1) Double click the solid works Icon, to open it.

2) File New Part Ok

3) Unit system set MMGS Ok

4) Select top plane as sketch plane Sketch feature Rectangle

Center Rectangle Smart dimension 11075

5) Features:-Extrude Blind 12 mm enter value Ok.

6) Select Top face of the 1stpart as sketch plane Sketch

Tools Rectangle Corner rectangle Draw it by using smart

Dimensions 6048.

7) Features Extrude Blind

(110 mm (enter value) ok


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8) Select the right surface of the part-2 as sketch plane sketch tools

Circle draw the circle of diameter 25mm and defines it as shown

in figure by using smart dimensions.

9) Feature Extrude Blind 12 mm (enter value) Ok.

10) Select the top surface as sketch as sketch plane corner rectangle

Define it by using smart dimensions.

11) Feature:-Extrude cut Directions- 1

Select Top face of base object

Ok

12) Feature: - Hole wizard: - Counter bore

Standard ANSI metric

Type Hex bolt ANSI B18.2.35 M

Hole Specification

Size M10

End condition through all

Select the part -3 i.e. cylinder and plane on center ok

13) Fillet: - Fillet radius: - 12 mm select the bottom part of right corner edge

Ok

14) Fillet: - Fillet radius:-3 mm

Select the bottom part and ok


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15) Fillet-3 Fillet radius: - 6 mm

Select the right edges of the part-2 and ok

16) Fillet-4 Fillet radius:-3 mm select the bottom edge of the part-2 and ok

17) Fillet-5 Fillet radius:-3.5 mm select the edges of the part-2 and ok it.

18) Fillet-6 Fillet radius 4 mm, select the inner base edge of the part-2 ok it

19) Feature hole Wizard. Hole type Hole

ANSI metric

Drill size

Hole specification 5.0

End specification blind 10 mm

Select the top face of the part-2 and move the cursor on fillet edges and place center

point place it.Features Hole Wizard Counter Bore

Standard:-ANSI Metric

Type: - HEX Bolt ANSI B18 2.3 5 M

Hole specification: Size- M6

Fit:-Normal

End condition through all ok

Select top surface of the base

move the cursor on fillet circumference

Select the center point ok

Features:-Mirror Mirror face /plane

Select the face-1


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Bodies to Mirror: - Select body ok

Select the front face on sketch plane sketch tool Circle Diameter 80

Features Extrude Blind

3 mm Enter value

Features Mirror Mirror face (or) plane front plane

features to mirror:- Select Extrude-4 i. e circle part ok

Select front face of the object as sketch plane Sketch tools Circle Diameter 60

mm ok

Features Extrude cut through all Ok

Select the front face of the object as sketch plane Sketch tools

draw a circle of diameter 70 mm and convert it as construction. Ok.

Also line command: - Centerline Draw lines from center of the circles at 450only each.Exit the sketch

Features: - Hole wizard Type: - Hole

Standard ANSI metric

Type Drill size

Hole specifications size 5.5

End condition through ok

Front surface select the inter section point construct circle and lines

Save it as part-4 and ok

RESULT: Hence by using above commands the figure is obtained as per given

dimensions


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EXPERIMENT 7

AIM: To assemble the given part by using solid works software

APPARATUS:Insert components, rotate components, matesconcentric, coincident,width

PROCEDURE:

1. Go to Solid works2. Select file New Assembly Ok

3.

Set the default to MMGS4. Insert components Browse select Housing ok5. Insert components Browse select cover_PL&LUG ok6. Select the hole of the cover plug and hole of the housing Mate

Concentric Ok7. Select the inner surface of the cover plug and outer surface of the housing

Mate Coincident Ok8.

Insert components Browse select cover_PL&LUG ok9.

Go to Rotate components Rotate the component

10.Select the hole of the cover plug and hole of the housing MateConcentric Ok

11.

Select the inner surface of the cover plug and outer surface of the housingMate Coincident Ok

12.Insert components Browse select worm gear ok13.Select the surface of the worm gear Mate Advanced settings

width select another surface of the worm gear Tab selectionsselect two inner surfaces of the housing Ok

14.Select hole of the worm gear and hole of the housing MateConcentric Ok


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15.Insert components Browse select worm shaft ok16.Select the surface of the shaft and the hole Mate coincident

Ok17.Insert components Browse select off shaft ok18.Select the surface of the shaft and the hole Mate coincident

Ok

19.

Insert components Browse select cover plate ok20.Select the hole of the cover plate and hole of the housing Mate

Concentric Ok21.Select the inner surface of the cover plate and outer surface of the housing

Mate Coincident Ok22.Save the file

RESULT:Hence the given parts are assembled by using solid works software


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EXPERIMENT 8

Aim:To analyze the given object using proper commands with the help of Solid Works

Software.

Software used: Solid Works 2012-13.

Procedure:

1. Open pump cover

This part represents a cover that will be filled with oil under high pressure.

2. Set the units

Click options and set units to SI.

3. Specify the material

Select AL alloys and click 2014 alloy from list.

4. Define Fixture

Select uppermost faces of four tabs and cylindrical faces of four bolt holes.

5. Define load set

Select pressure for type of load

Right click one of the faces on inside of pump cover.

Click select Tangency.

Set the pressure value and direction.

Set the pressure value to 250 psi.

6.

Create Mesh.

7. Run the Simulation.

8.

Results

Factor of Safety is less than 1, indicating that part is over stressed.

Also view stress and Deformation plots.


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9. Change the material

Right click on 2014 Alloy icon

Click apply/edit material

Change the material

Other alloys

Monel(R) 40010.Update

Click run Simulation

Return the analysis using new material.

Factor of Safety be greater than 1.

11.

Save & close the part.

Result:

Thus, the given object is analyzed by using Solid Works Software.


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Experiment -9Aim:To perform a static analysis on I beam as per the given dimensions using Finite element

modeling and post processing

Software used: FEMAP 10.2

Steps involve: Pre-Processing, Analysis and Post -Processing

Pre-Processing stage:

1. Create a line using projected points as 0,0,0 and 1000, 0,0 ok and then cancel

2.Assign the material property using model- materials select as ANSI Steel

3.Assign property to model using Model- Property : define type of the element as Beam

and select the shape of the beam as I beam with width of top and bottom flanges as

150, 300, and thickness of the flanges are 15mm and total depth of the beam as 500

and thickness of the web as 20mm

4.

For Define load as point load which is acting at end point of the beam with themagnitude of 1000N acting downwards

5. For defining boundary conditions go to Model-Constraints define the boundary

conditions select the first point of the beam and fixed it.

6. For meshing go to status bar Mesh- Mesh control -

7. Status bar Mesh Geometry select curve set as per menu

Ok it, go for methods normal to the view as per window shown

Below and okit.


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Analysis

1.Analysis go to manage and select new ok

2.

And select static analysis and ok analyze-load results and click continue

Post- processing:

1.

View results2. Deformed shape and also observe the shear stress distribution and bending moment

for post processor and select the same mention above.

RESULT:Thus static analysis on the Beam is done as per the given dimensions using Finite

element modeling and post processing


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Experiment -10

Aim:To perform a Static analysis and Modeling or to find frequencies and Eigen values of

cantilever beam of length 2m having rectangular cross-section of 500X250mm2


Steps involve:Pre-Processing, Analysis and Post -Processing


1 Create a line using projected points as 0,0,0 and 2000, 0,0 ok and then cancel

2 Assign the material property using model- materials select as stainless steel

3

Assign property to model using Model- Property: define type of the element as Beam

and select the shape of the beam as Rectangular beam with width 250mm and total

depth of the beam as 500.

4

For Define load as point load which is acting at end point of the beam with themagnitude of 3000N acting downwards

5 For defining boundary conditions go to Model-Constraints define the boundary

conditions select the first point of the beam and fixed it.

6 For meshing go to status bar Mesh- Mesh control -

7 Status bar Mesh Geometry select curve set as per menu

Ok it, go for methods normal to the view as per window shown

below and ok it.


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Analysis

8.Analysis go to manage and select new ok

9.And select static analysis and ok analyze-load results and click continue

10.Again go for analysis select newand select model/Eigen values ok-load results and

click continue


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Post- processing:

11.View results

12.Deformed shape and also observe the shear stress distribution and bending moment


13.Bending moment diagram of the cantilever beam is shown below

14.

Natural frequency of the 8th mode shape of the beam as shown below

RESULT:Thus static analysis on the Beam is done as per the given dimensions using Finite

element modeling and post processing


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Experiment -11

Aim:To perform static analysis on the given solid part using Finite element modeling and

post processing


Steps involved:Pre-Processing, Analysis and Post -Processing


1. Open File and Import solid part from the file which is in IGES format

2.Assign the material using model- materials select as ANSI Steel

3.Assign property to model using Model- Property : define type of the element as Solid

4. Define load as surface load acting on the inner surface of the solid with the magnitude

of 1000N acting towards inner surface

5.

For defining boundary conditions- go to Model-Constraints

define the boundary

conditions select the holes and fixed it.

6.

Status bar Mesh Geometry select solid set as per menu

7. For Analysis go to manage and select new ok


Post- processing:

9.

View results


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RESULT:Thus static analysis on the solid part is done as per the given dimensions using

Finite element modeling and post processing


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Experiment -12Aim:To perform static analysis on the given solid part using Finite element modeling and

post processing


Steps involved:Pre-Processing, Analysis and Post -Processing


1. Open File and Import solid part from the file which is in IGES format

2.Assign the material using model- materials select as ANSI Steel

3.Assign property to model using Model- Property : define type of the element as Solid

4. For defining boundary conditions- go to Model-Constraints on the surface-select the

holes and fixed it.

5. Status bar Mesh Geometry select solid set as per menu

6.

Define load at the nodal point with the magnitude of force is 1000N acting downwards7. For Analysis go to manage and select new ok


Post- processing:

9.View results




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RESULT:Thus static analysis on the solid part is done as per the given dimensions using

Finite element modeling and post processing


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EXPERIMENT NO-13

AIM:To perform rectangular profile milling to generate the component as shown in figure

Commands Used

G00 Rapid Traverse

G01 Liner Interpolation

M03 Spindle rotation (CW) Start

M30Program End with rewind

M03 S2200

STOCK/BLOCK,100,100,15,50,50,15)

TOOL/MILL,5,0,20,0)

COLOR,255,255,255)

G00 X40

Y0

Z5

G01 Z-0.5 F40

X40 Y40X-40

Y40

X-40

Y-40

X40

Y-40

X40 Y0Z5

G00 X0 Y0

M30

RESULT:Thus the rectangular profile milling is performed to generate the component as

shown in the above figure


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EXPERIMENT NO-14

AIM:To perform rectangular profile & window cut milling to generate the component asshown in figure

Commands Used

G00 Rapid Traverse


G03 Circular interpolation


M30 End Program

M03 S2200

(STOCK/BLOCK,100,100,15,25,25,15)(TOOL/MILL,5,0,20,0)

(COLOR,255,255,255)G00 X0

Y0

Z5

G01 Z-0.5 F40

X50 F75

Y25

G03 X0 Y25 R25 F40

G01 X0 Y0 F75

Z2

G00 Z10

G00 X65

Y0

Z5

G01 Z-0.5 F40

X65 Y65

X-15Y65

X-15

Y-15

X65

X65 Y0

G00 Z2X0 Y0

M30

RESULT: Thus the rectangular profile and window cut milling is performed to generate the

component as shown in the above figure


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EXPERIMENT NO-15

AIM: To perform rectangular profile & circular pocket milling to generate the component as

shown in figure

Commands Used

G00 Rapid Traverse


G12 - Circular pocket milling

G90 - Absolute programming


M30End Program

M03 S2200

(STOCK/BLOCK,100,100,15,50,50,15)

G90

(TOOL/MILL,5,0,20,0)

(COLOR,255,255,255)

G00 X0

Y0

G01 Z-0.5 F40

G12 I2.5 F40

G01 X0 F80

G12 I5 F40G01 X0 F80

G12 I7.5 F40

G01 X0 F80

G12 I10 F40

G01 X0 F80

G12 I12.5 F40

G01 X0 F80

G12 I15 F40

G01 X0 F80


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G12 I17.5 F40

G01 X0 F80

G12 I20 F40

G01 X0 F80

G00 Z5 F40

G00 X40

Y0

Z5G01 Z-0.5 F40

X40 Y40

X-40

Y40

X-40

Y-40

X40

Y-40

X40 Y0

G00 Z5 F40

X0 Y0

M3

RESULT:Thus the rectangular profile and circular pocket milling is performed to generate

the component as shown in the above figure


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EXPERIMENT NO-16

AIM:To perform profile milling to generate the component as shown in figure

Commands Used

G00 Rapid Traverse


G02 Circular interpolation (CW)


M21 Mirror wrt Y-Axis

M22 - Mirror wrt X-Axis

M23 Mirror Cancel

M30 End Program

M98Subprogram call

M03 S2200

(STOCK/BLOCK,100,100,12,50,50,12)

(TOOL/MILL,4,0,20,0)

(COLOR,255,255,255)G00 Z5

M98 P302

M21

M98 P302

M22

M98 P302M23

M22

M98 P302

O302

GOO X0 Y0

G01 Z-0.5 F40

G02 X40 Y40 R40X0 Y0 R40

X40 Y0 R40

X0 Y0 R40

X0 Y40 R40

X0 Y0 R40

M30

RESULT:Thus the profile milling is performed to generate the component as shown in the

above figure


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EXPERIMENT NO-17

AIM:To perform step turning operation to generate the component as shown in figure

G21 G98

G28 U0 W0(STOCK/75,25,0,-2)

(TOOL/STANDARD,5,80,0,15,0)M06 T02

M03 S1400

G00 X26 Z2

G90 X24.5 Z-50 F50

X24 Z50

X23.5 Z-50

X23 Z50

X22.5 Z-50

X22 Z50

X21.5 Z-50X21 Z50

X20.5 Z-50

X20 Z50

X19.5 Z-30

X19 Z30

X18.5 Z-30

X18 Z30

X17.5 Z-30

X17 Z30

X16.5 Z-30

X16 Z30

X15.5 Z-30

X15 Z30

X14.5 Z-15

X14 Z15

X13.5 Z-15

X13 Z15

X12.5 Z-15X12 Z15

X11.5 Z-15

X11 Z15

X10.5 Z-15

X10 Z15

G28 U0 W0

M05 M30

RESULT:Thus the step turning operation is performed to generate the component as shown

in figure


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EXPERIMENT NO-18

AIM:To perform step turning and taper turning operations to generate the component asshown in figure

(TOOL/STANDARD,5,80,0,15,0)

(COLOR,255,255,255)G21 G98

G28 U0 W0

(STOCK/50,25,0,-2)M03 S1400

G00 X26 Z2

G71 P10 Q20 U0.1 W0.1 F50

N10 G00 X10

G01 Z0

G01 X11 Z-1

G01 Z-8

G02 X17 Z-13 R6

G01 Z-19

G03 X23 Z-24 R6

G01 Z-30

N20 G01 X25 Z-34

G70 P10 Q20

G28 U0 W0

M05 M30

RESULT:Thus the step turning and taper turning operation is performed to generate the

component as shown in figure


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EXPERIMENT NO-19

AIM:To perform threading operation to generate the component as shown in figure

G28 U0 W0

(TOOL/THREAD,60,30,20,90)

M06 T06

M03 S600

G00 X20.2 Z2

G76 P031560 Q50 R0.05

G76 X18.77 Z-20 P613 Q50 F1

G28 U0 W0

M05 M30

RESULT:Thus the threading operation is performed to generate the component as shown in

figure


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EXPERIMENT NO-20

AIM:To perform step turning and threading operation to generate the component as shownin figure

G21 G98

G28 U0 W0

(STOCK/75,25,0,-2)

(TOOL/STANDARD,5,80,0,15,0)

M06 T02

M03 S1400

G00 X26 Z2

G90 X24.5 Z-30 F50

X24

X23.5

X23

X22.5X21.5

X21

X20.5

X20

G28 U0 W0

(TOOL/THREAD,60,30,20,90)

M06 T06

M03 S600

G00 X20.2 Z2

G76 P031560 Q50 R0.05

G76 X18.77 Z-20 P613 Q50 F1

G28 U0 W0M05 M30

RESULT:Thus the step turning and threading operation is performed to generate the

component as shown in figure

simulation lab final

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