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lathe
1.
©© rkm2003rkm2003 Turning Operations L
a t h e
2.
©© rkm2003rkm2003 Turning Operations •
Machine Tool – LATHE • Job (workpiece) – rotary motion • Tool – linear motions “Mother of Machine Tools “ Cylindrical and flat surfaces
3.
©© rkm2003rkm2003 Some Typical
Lathe Jobs Turning/Drilling/Grooving/ Threading/Knurling/Facing...
4.
©© rkm2003rkm2003 The Lathe
5.
©© rkm2003rkm2003 The Lathe Bed Head
Stock Tail Stock CarriageFeed/Lead Screw
6.
©© rkm2003rkm2003 Types of
Lathes • Engine Lathe • Speed Lathe • Bench Lathe • Tool Room Lathe • Special Purpose Lathe • Gap Bed Lathe …
7.
©© rkm2003rkm2003 Size of
Lathe Workpiece Length Swing
8.
©© rkm2003rkm2003 Size of
Lathe .. Example: 300 - 1500 Lathe • Maximum Diameter of Workpiece that can be machined = SWING (= 300 mm) • Maximum Length of Workpiece that can be held between Centers (=1500 mm)
9.
©© rkm2003rkm2003 Workholding Devices •
Equipment used to hold – Workpiece – fixtures – Tool - jigs Securely HOLD or Support while machining
10.
©© rkm2003rkm2003 Chucks Three jaw
Four Jaw WoWo....
11.
©© rkm2003rkm2003 CentersWoWo....
12.
©© rkm2003rkm2003 FaceplatesWoWo....
13.
©© rkm2003rkm2003 DogsWoWo....
14.
©© rkm2003rkm2003 Mandrels Workpiece (job)
with a hole WoWo....
15.
©© rkm2003rkm2003 RestsWoWo.... Steady Rest
Follower Rest
16.
©© rkm2003rkm2003 Operating/Cutting Conditions 1.
Cutting Speed v 2. Feed f 3. Depth of Cut d
17.
©© rkm2003rkm2003 Operating Conditions NDSspeedperipheral D π π == =rotation1intraveltoolrelative
18.
©© rkm2003rkm2003 Cutting Speed The
Peripheral Speed of Workpiece past the Cutting Tool =Cutting Speed OpOp.... m/min 1000 ND v π = D – Diameter (mm) N – Revolutions per Minute (rpm)
19.
©© rkm2003rkm2003 Feed f –
the distance the tool advances for every rotation of workpiece (mm/rev) OpOp....
20.
©© rkm2003rkm2003 Depth of
Cut perpendicular distance between machined surface and uncut surface of the Workpiece d = (D1 – D2)/2 (mm) OpOp....
21.
©© rkm2003rkm2003 3 Operating
Conditions
22.
©© rkm2003rkm2003 Selection of
.. • Workpiece Material • Tool Material • Tool signature • Surface Finish • Accuracy • Capability of Machine Tool OpOp....
23.
©© rkm2003rkm2003 Material Removal
Rate MRRMRR Volume of material removed in one revolution MRR = π D d f mm3 • Job makes N revolutions/min MRR = π D d f N (mm3 /min) • In terms of v MRR is given by MRR = 1000 v d f (mm3 /min) OpOp....
24.
©© rkm2003rkm2003 MRR dimensional consistency
by substituting the units OpOp.... MRR: D d f N (mm)(mm) (mm/rev)(rev/min) = mm3 /min
25.
©© rkm2003rkm2003 Operations on
Lathe • Turning • Facing • knurling • Grooving • Parting • Chamfering • Taper turning • Drilling • Threading OpOp....
26.
©© rkm2003rkm2003 Turning Cylindrical job OpOp....
27.
©© rkm2003rkm2003 Turning .. Cylindrical
job OpOp....
28.
©© rkm2003rkm2003 Turning .. •
Excess Material is removed to reduce Diameter • Cutting Tool: Turning Tool a depth of cut of 1 mm will reduce diameter by 2 mm OpOp....
29.
©© rkm2003rkm2003 Facing Flat Surface/Reduce
length OpOp....
30.
©© rkm2003rkm2003 Facing .. •
machine end of job Flat surface or to Reduce Length of Job • Turning Tool • Feed: in direction perpendicular to workpiece axis –Length of Tool Travel = radius of workpiece • Depth of Cut: in direction parallel to workpiece axis OpOp....
31.
©© rkm2003rkm2003 Facing ..OpOp....
32.
©© rkm2003rkm2003 Eccentric Turning OpOp....
33.
©© rkm2003rkm2003 Knurling • Produce
rough textured surface – For Decorative and/or Functional Purpose • Knurling Tool A Forming Process MRR~0 OpOp....
34.
©© rkm2003rkm2003 Knurling OpOp....
35.
©© rkm2003rkm2003 Knurling ..OpOp....
36.
©© rkm2003rkm2003 Grooving • Produces
a Groove on workpiece • Shape of tool shape of groove • Carried out using Grooving Tool A form tool • Also called Form Turning OpOp....
37.
©© rkm2003rkm2003 Grooving .. OpOp....
38.
©© rkm2003rkm2003 Parting • Cutting
workpiece into Two • Similar to grooving • Parting Tool • Hogging – tool rides over – at slow feed • Coolant use OpOp....
39.
©© rkm2003rkm2003 Parting ..OpOp....
40.
©© rkm2003rkm2003 ChamferingOpOp....
41.
©© rkm2003rkm2003 Chamfering Beveling
sharp machined edges Similar to form turning Chamfering tool – 45° To • Avoid Sharp Edges • Make Assembly Easier • Improve Aesthetics OpOp....
42.
©© rkm2003rkm2003 Taper Turning •
Taper: OpOp.... L DD 2 tan 21 − =α
43.
©© rkm2003rkm2003 Taper Turning.. MethodsMethods •
Form Tool • Swiveling Compound Rest • Taper Turning Attachment • Simultaneous Longitudinal and Cross Feeds OpOp.... Conicity L DD K 21 − =
44.
©© rkm2003rkm2003 Taper Turning
.. By Form Tool OpOp....
45.
©© rkm2003rkm2003 Taper Turning
,, By Compound Rest OpOp....
46.
©© rkm2003rkm2003 Drilling Drill –
cutting tool – held in TS – feed from TS OpOp....
47.
©© rkm2003rkm2003 Process Sequence •
How to make job from raw material 45 long x 30 dia.? OpOp.... Steps: •Operations •Sequence •Tools •Process
48.
©© rkm2003rkm2003 Process Sequence
.. Possible Sequences • TURNING - FACING - KNURLING • TURNING - KNURLING - FACING • FACING - TURNING - KNURLING • FACING - KNURLING - TURNING • KNURLING - FACING - TURNING • KNURLING - TURNING – FACING What is an Optimal Sequence? OpOp.... X X X X
49.
©© rkm2003rkm2003 Machining Time Turning
Time • Job length Lj mm • Feed f mm/rev • Job speed N rpm • f N mm/min min Nf L t j = OpOp....
50.
©© rkm2003rkm2003 Manufacturing Time Manufacturing
Time = Machining Time + Setup Time + Moving Time + Waiting Time OpOp....
51.
©© rkm2003rkm2003 Example A mild
steel rod having 50 mm diameter and 500 mm length is to be turned on a lathe. Determine the machining time to reduce the rod to 45 mm in one pass when cutting speed is 30 m/min and a feed of 0.7 mm/rev is used.
52.
©© rkm2003rkm2003 Example calculate the
required spindle speed as: N = 191 rpm m/min 1000 ND v π = Given data: D = 50 mm, Lj = 500 mm v = 30 m/min, f = 0.7 mm/rev Substituting the values of v and D in
53.
©© rkm2003rkm2003 Example Can a
machine has speed of 191 rpm? Machining time: min Nf L t j = t = 500 / (0.7×191) = 3.74 minutes
54.
©© rkm2003rkm2003 Example • Determine
the angle at which the compound rest would be swiveled for cutting a taper on a workpiece having a length of 150 mm and outside diameter 80 mm. The smallest diameter on the tapered end of the rod should be 50 mm and the required length of the tapered portion is 80 mm.
55.
©© rkm2003rkm2003 Example • Given
data: D1 = 80 mm, D2 = 50 mm, Lj = 80 mm (with usual notations) tan α = (80-50) / 2×80 • or α = 10.620 • The compound rest should be swiveled at 10.62o
56.
©© rkm2003rkm2003 Example • A
150 mm long 12 mm diameter stainless steel rod is to be reduced in diameter to 10 mm by turning on a lathe in one pass. The spindle rotates at 500 rpm, and the tool is traveling at an axial speed of 200 mm/min. Calculate the cutting speed, material removal rate and the time required for machining the steel rod.
57.
©© rkm2003rkm2003 Example • Given
data: Lj = 150 mm, D1 = 12 mm, D2 = 10 mm, N = 500 rpm • Using Equation (1) • v = π×12×500 / 1000 • = 18.85 m/min. • depth of cut = d = (12 – 10)/2 = 1 mm
58.
©© rkm2003rkm2003 Example • feed
rate = 200 mm/min, we get the feed f in mm/rev by dividing feed rate by spindle rpm. That is • f = 200/500 = 0.4 mm/rev • From Equation (4), • MRR = 3.142×12×0.4×1×500 = 7538.4 mm3/min • from Equation (8), • t = 150/(0.4×500) = 0.75 min.
59.
©© rkm2003rkm2003 Example • Calculate
the time required to machine a workpiece 170 mm long, 60 mm diameter to 165 mm long 50 mm diameter. The workpiece rotates at 440 rpm, feed is 0.3 mm/rev and maximum depth of cut is 2 mm. Assume total approach and overtravel distance as 5 mm for turning operation.
60.
©© rkm2003rkm2003 Example • Given
data: Lj = 170 mm, D1 = 60 mm, D2 = 50 mm, N = 440 rpm, f = 0.3 mm/rev, d= 2 mm, • How to calculate the machining time when there is more than one operation?
61.
©© rkm2003rkm2003 Example • Time
for Turning: • Total length of tool travel = job length + length of approach and overtravel • L = 170 + 5 = 175 mm • Required depth to be cut = (60 – 50)/2 = 5 mm • Since maximum depth of cut is 2 mm, 5 mm cannot be cut in one pass. Therefore, we calculate number of cuts or passes required. • Number of cuts required = 5/2 = 2.5 or 3 (since cuts cannot be a fraction) • Machining time for one cut = L / (f×N) • Total turning time = [L / (f×N)] × Number of cuts • = [175/(0.3×440)] × 3= 3.97 min.
62.
©© rkm2003rkm2003 Example • Time
for facing: • Now, the diameter of the job is reduced to 50 mm. Recall that in case of facing operations, length of tool travel is equal to half the diameter of the job. That is, l = 25 mm. Substituting in equation 8, we get • t = 25/(0.3×440) • = 0.18 min.
63.
©© rkm2003rkm2003 Example • Total
time: • Total time for machining = Time for Turning + Time for Facing • = 3.97 + 0.18 • = 4.15 min. • The reader should find out the total machining time if first facing is done.
64.
©© rkm2003rkm2003 Example • From
a raw material of 100 mm length and 10 mm diameter, a component having length 100 mm and diameter 8 mm is to be produced using a cutting speed of 31.41 m/min and a feed rate of 0.7 mm/revolution. How many times we have to resharpen or regrind, if 1000 work- pieces are to be produced. In the taylor’s expression use constants as n = 1.2 and C = 180
65.
©© rkm2003rkm2003 Example • Given
D =10 mm , N = 1000 rpm, v = 31.41 m/minute • From Taylor’s tool life expression, we have vT n = C • Substituting the values we get, • (31.40)(T)1.2 = 180 • or T = 4.28 min
66.
©© rkm2003rkm2003 Example • Machining
time/piece = L / (f×N) • = 100 / (0.7×1000) • = 0.142 minute. • Machining time for 1000 work-pieces = 1000 × 0.142 = 142.86 min • Number of resharpenings = 142.86/ 4.28 • = 33.37 or 33 resharpenings
67.
©© rkm2003rkm2003 Example • 6:
While turning a carbon steel cylinder bar of length 3 m and diameter 0.2 m at a feed rate of 0.5 mm/revolution with an HSS tool, one of the two available cutting speeds is to be selected. These two cutting speeds are 100 m/min and 57 m/min. The tool life corresponding to the speed of 100 m/min is known to be 16 minutes with n=0.5. The cost of machining time, setup time and unproductive time together is Rs.1/sec. The cost of one tool re-sharpening is Rs.20. • Which of the above two cutting speeds should be selected from the point of view of the total cost of producing this part? Prove your argument.
68.
©© rkm2003rkm2003 Example • Given
T1 = 16 minute, v1 = 100 m/minute, v2 = 57 m/minute, D = 200mm, l = 300 mm, f = 0.5 mm/rev • Consider Speed of 100 m/minute • N1 = (1000 × v) / (π × D) = (1000×100) / (π×200) = 159.2 rpm • t1 = l / (f×N) = 3000 / (0.5 ×159.2) = 37.7 minute • Tool life corresponding to speed of 100 m/minute is 16 minute. • Number of resharpening required = 37.7 / 16 = 2.35 • • or number of resharpenings = 2
69.
©© rkm2003rkm2003 Example • Total
cost = • Machining cost + Cost of resharpening × Number of resharpening • = 37.7×60×1+ 20×2 • = Rs.2302
70.
©© rkm2003rkm2003 Example • Consider
Speed of 57 m/minute • Using Taylor’s expression T2 = T1 × (v1 / v2)2 with usual notations • = 16 × (100/57)2 = 49 minute • Repeating the same procedure we get t2 = 66 minute, number of reshparpening=1 and total cost = Rs. 3980. • • The cost is less when speed = 100 m/minute. Hence, select 100 m/minute.
71.
©© rkm2003rkm2003 Example • Write
the process sequence to be used for manufacturing the component from raw material of 175 mm length and 60 mm diameter
72.
©© rkm2003rkm2003 Example
73.
©© rkm2003rkm2003 Example • To
write the process sequence, first list the operations to be performed. The raw material is having size of 175 mm length and 60 mm diameter. The component shown in Figure 5.23 is having major diameter of 50 mm, step diameter of 40 mm, groove of 20 mm and threading for a length of 50 mm. The total length of job is 160 mm. Hence, the list of operations to be carried out on the job are turning, facing, thread cutting, grooving and step turning
74.
©© rkm2003rkm2003 Example • A
possible sequence for producing the component would be: • Turning (reducing completely to 50 mm) • Facing (to reduce the length to 160 mm) • Step turning (reducing from 50 mm to 40 mm) • Thread cutting. • Grooving
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