1 / 28

Gary Milton Sr. Karen DuBois Van Buren Technology Center

Gary Milton Sr. Karen DuBois Van Buren Technology Center. CTE Concepts CS (Cutting Speeds) Math Concepts: Calculations. Math-in-CTE Lesson Plan Template. Lathe Cutting Speeds in Feet and Meters per Minute Using a High-Speed Steel Toolbit Table 47-1.

rusty
Download Presentation

Gary Milton Sr. Karen DuBois Van Buren Technology Center

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Gary Milton Sr.Karen DuBoisVan Buren Technology Center CTE Concepts CS (Cutting Speeds) Math Concepts: Calculations

  2. Math-in-CTE Lesson Plan Template

  3. Lathe Cutting Speeds in Feet and Meters per MinuteUsing a High-Speed Steel ToolbitTable 47-1 Krar, S. & Check, A. (1997). Technology of Machine Tools %th. ed). Glencoe/McGraw-Hill. Waterville, OH.

  4. Math-in-CTE Lesson Plan Template

  5. Math-in-CTE Lesson Plan Template

  6. Jet GH1140W-3Safety Quiz

  7. Lathe Cutting Speeds in Feet and Meters per MinuteUsing a High-Speed Steel Toolbit Krar, S. & Check, A. (1997). Technology of Machine Tools 5th. ed). Glencoe/McGraw-Hill. Waterville, OH.

  8. Lathe Cutting Speeds in Feet and Meters per MinuteUsing a High-Speed Steel Toolbit Krar, S. & Check, A. (1997). Technology of Machine Tools 5th. ed). Glencoe/McGraw-Hill. Waterville, OH.

  9. Rough Cut Finish = .010 to .020Material – Machine Steel RPM = CS x 4 / 3 90 x 4 / 3 = RPM = 120 Krar, S. & Check, A. (1997). Technology of Machine Tools %th. ed). Glencoe/McGraw-Hill. Waterville, OH.

  10. Table 47-1, Page 1 Using the above charts calculate the proper feed and speeds for the following problems using a HSS Tool Bit. • Face off one end of a 2” diameter tool steel shaft, then turn the end of that shaft to a diameter of 1.875 by 5.000 long. Then turn the 1.875 diameter to a diameter of 1.250 by .687 long, on one end of the shaft. Calculate the RPM, for a rough cut process. Show all work. • Face off the end of a .500 tool steel shaft, then turn the diameter to .437 by .750 long. Calculate RPM for a finish cut process. Show all work. Krar, S. & Check, A. (1997). Technology of Machine Tools 5th. ed). Glencoe/McGraw-Hill. Waterville, OH.

  11. Table 47 – 1, Page 2 Using the above charts calculate the proper feeds, and speeds, for the following problems using a HSS Tool Bit for all problems. • Face off one end of a 4” diameter Aluminum shaft, then turn the end of that shaft to a diameter of 2.550 by 3.000 long. Then turn the 2.550 diameter to a diameter of 1.9375 by 1.500 long, on one end of the shaft. Calculate the RPM to produce a finish machine process. Show all work. • Face off a 2.250 diameter Bronze shaft, then turn the shaft to a diameter of 1.9375 by .9375 long. Next turn the 1.9375 diameter to a new diameter of 1.375 by .750 and produce a finish machine process. Show all work. Krar, S. & Check, A. (1997). Technology of Machine Tools 5th. ed). Glencoe/McGraw-Hill. Waterville, OH.

  12. 450 yard shot

More Related