Write a CNC part program to machine 15 mm thick aluminum part shown in the figure....
0/2: According to figure below, write A typical program for the required moves of CNC Machine (milling depth 5mm): (all units in (mm) and Absolute) ....(25 points) 100 C 25 RIO D 00 40 Q E 35 5 deep 120 1 50 15 A R10 TOOL CHANGE POINT G PROGRAM 05007
Question 7): Write G-code program to machine the part shown in the figure below using CNC milling machine. Use sub programming commands (M98 and M99) in the pocket cutting. Maximum depth of cut is 5 mm. Question 7): Write G-code program to machine the part shown in the figure below using CNC milling machine. Use sub programming commands (M98 and M99) in the pocket cutting Maximum depth of cut is 5 mm. 60 50 0 40 100 Question 7): Write...
Write G-code program to machine the part shown in the figure below using a CNC lathe machine. ci R16 Ø100 035 46 36 Given conditions: tool Number 6, absolute coordinate, feed rate 20 mm/min, and spindle speed 500 RPM with CW. TT T Arial • 3 (12pt) E's
Develop a complete CNC program for linear and circular profile for the component shown in Figure 1 and Table 1 R10 RZ 07 . 10 18 26 Figure 1: Linear and circular profile of component Table 1: Machining parameters Billet size Ø40 x 83 mm Material Aluminium Operation Profile turning operation Spindle speed 1500 rpm Feed 80 mm/min Tool Left hand roughing
Prepare operation sheet for the following part made of SAE 1020 Steel (Mild Steel) using High Speed Steel (HSS) tools. The machine tools available are lathe machine, vertical milling machine, horizontal milling machine and drilling machine. Cutting tools available are side and face milling cutter (Number of teeth =12), end mill cutter (number of flutes =2), twist drill and tapping tools. 52 10k – 52 Initial Dimensions 10 15 50 50 M10 x 1.5 Coarse Threads Final Dimensions All dimensions...
An aluminium component is to be machined on a vertical CNC milling machine. The original stock material is a flat piece having dimensions of 125 x 105 x 10 mm3. The top and bottom surfaces of the finished component are not machined in this operation. All other surfaces and features need to be machined. The finished shape has three Æ20-mm holes machined right through and a slot is machined to a depth of 5 mm. The outside dimensions of the...
Develop the part programming for the component shown in Figure 2 using the information in Table 2. Table 2: Machining parameters Material Aluminium alloy Workpiece size 150 x 100x20 mm Tool Slot drill cutter (10 mm diameter) Spindle speed 1500 rpm Foed 100 mm/min 150 240 100 130 2 Figure 2: Hole drilling operation
a) A workpiece (φ-75 mm, 1 275 mm) is machined using turning at a feed rate of 0.25 mm/rev. At a cutting speed- 3.5 m/s, the turning tool is ineffective after machining 3 parts, and at a cutting speed = 2.5 m/s, the turning tool is effective for producing 20 parts. Calculate the Cutting Speed that will allow 30 parts to be machined between tool changes [20 marks] b) An aluminium alloy workpiece (tensile strength - 325 N/mm2 and yield...
Question 1 A turning operation is carried out on aluminum. Based on the specific energy values in Table 20.2, determine material removal rate and cutting power in the operation under the following sets of cutting conditions: (a) Cutting speed 5.6 m/s, feed 0.25 mm/rev, and depth of cut 2.0 mm; and (b) cutting speed- 1.3 m/s, feed 0.75 mm/rev, and depth 4.0 mm. Question 2 Consider a turning operation performed on steel whose hardness 225 HB at a cutting speed...
9- Write the word address program (G Code) to machine the part given below. The workpart is shown in red color. Operations are cylindrical rough and finish turning, slotting, threading and final cut-off. No facing necessary. Select the appropriate tools (diameter and type) as well as feed and speed values and cutting conditions such as use of coolant (Assume the part material is high carbon steel.) 90 110 60 50 105 35 XZ sifır releranse 40 9- Write the word...