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In the latest Tip of the Day, Mark covers an essential topic that every machinist needs to know, but that is confusing and often misunderstood: How to calculate speeds and feeds. In typical Mark fashion, not only do you get the formulas and a step-by-step method for doing the calculations, but also an explanation of each term and some great animations to tie it all together. Every student, machine operator, or aspiring machinist should bookmark this video! Bonus Content: 🤍 Haas Shop Notes: 🤍 Metric Tapping Feeds: 🤍 Don’t miss any TIP-OF-THE-DAY videos. Click here 🤍 to join our email list! If you enjoyed this video, please hit the like button and share it with a friend who’ll find it helpful . . . and thanks! Follow Haas: Facebook – 🤍 Instagram – 🤍 Twitter – 🤍 LinkedIn - 🤍
Let's cover the basics of Machining Speeds & Feeds for CNC milling, including starting recipes for aluminum and steel, Speeds & Feeds calculator, how to calculate horsepower (HP) and an introduction to Chip Thinning! Speeds & Feeds worksheet: 🤍 Aluminum End Mill: 🤍 Steel End Mill: 🤍 Sandvik Chip Thinning Video: 🤍 5 Reasons to Use a Fixture Plate on Your CNC Machine: 🤍
Speeds and Feeds are a HUGE part of CNC Machining… every second is money. The wrong number can break a tool or scrap your part or crash your machine! The right speeds and feeds could get you that promotion, could get you that customer, could get you everything you could possibly want in this industry! Please Like and Subscribe! Thanks! Help support FREE industrial education by purchasing the products shown in our videos at: 🤍. Easy purchasing, at a fair price. FREE CNC Machining Academy: 🤍 FREE Aerospace Academy: 🤍 Subscribe for daily content and expert knowledge: 🤍 _ _ FREE CNC Machining Academy. Join the Revolution: 🤍 Follow us on Instagram: 🤍 Like us on Facebook: 🤍 Join the conversation on our Facebook Group: 🤍 Connect with us on LinkedIn: 🤍 Follow our CEO, Titan Gilroy: 🤍 _ _ THANK YOU to our Partners who make this content possible: Kennametal - 🤍 Doosan - 🤍 Mastercam - 🤍 Solidworks - 🤍 Blaser Swisslube - 🤍 Trumpf - 🤍 Trumpf TruMark - 🤍 Trumpf TruPrint - 🤍 Mitutoyo - 🤍 FANUC America - 🤍 Haimer - 🤍 Schunk - 🤍 LNS - 🤍 Tormach - 🤍 #CNC #Machining #Machinist
Calculating Feeds and Speeds can be overwhelming, but it does not have to be. I go over a practical guide for a beginner to understand and calculate feedrates and RPM. Downloadable Excel Feeds and Speeds Sheet!! 🤍 Chipload Description - 1:11 Calculating Feeds and Speeds on Excel - 6:54 About Cutting It Close: Our goal is to help aspiring craftsmen do what they love for a living! Through training videos, CNC router techniques, unique projects, and practical applications, we hope to share our knowledge in the woodworking field and CNC routering. Follow Cutting It Close on Social Media: Facebook: 🤍 Instagram: 🤍 TikTok: 🤍
If you are wondering what are feeds and speeds for CNC routers, or what is the difference between feeds and speeds, and why are feeds and speeds important, this video tutorial explains feeds and speeds for the beginner for your CNC woodworking. You will learn what feeds and speeds are, about feed rates, plunge rates and spindle speeds and why spindle speeds and feed rates matter depending on the material you are carving with your CNC router and the type of CNC router bit you are using. Trying to calculate feeds and speeds for beginners is a bit too much to take in up from. That's why we start with baseline feeds and speeds. You will learn how to get a CNC router database library for your CNC router design software for Carveco, Carbide Create, Fusion 360, and Cut2d. Another way to think about feeds and speeds are cutting speed vs feed rate. Cutting speed is how fast the cutting edge of the router bit is removing material during its rotation. Feed rate, as explained in the feeds and speeds video, is how fast the CNC router bit is moving through the material. IDC Woodcraft CNC Router Bit App Links Apple → 🤍 Android → 🤍 COMPLETE CNC ROUTER BITS FOR CNC ROUTERS → 11pc carbide CNC router bit set (w/ free vector files) 🤍 The "HOG" CNC Router Bit → 🤍 Feeds and Speeds Database Libraries → 🤍 Longmill MK2 CNC Router Review Video → 🤍 #cnc #cncrouters #cncforbeginners #vcarvetutorials #vectric Phantom CNC Systems → 🤍 - LONGMILL CNC ROUTER WEBSITE: 🤍 ROUTER BITS FOR CNC ROUTERS → 11pc carbide CNC router bit set (w/ free vector files) 🤍 → 1” Surfacing bit required for surfacing your spoil board: 🤍 *Use this discount code (SURFACING BIT) → Glass engraving drag bit: 🤍 OTHER ‘MUST HAVES’ FOR CNC ROUTERS → Calipers: 🤍 → Hearing protection (plugs don't work): 🤍 Recommended Design Software → Vcarve Pro (RECOMMENDED)→ 🤍 → Vcarve Desktop → 🤍 → Vectric Aspire → 🤍 → Cut2D Desktop → 🤍 → Carveco (budget) → https://bi and Vectric Vcarve, Aspire and Cut2d.t.ly/37rhVbY _ Starbond CA Glue Products GET 10% OFF when you use this discount code: IDCWOODCRAFT Starbond link: 🤍 - _ MAKING MONEY WITH A CNC Words are the top-selling items of all time with CNC products. Get the free WORDS THAT SELL list: 🤍 Join CNC ENTREPRENEURS Facebook group: 🤍 CNC FREE STUFF AND MORE CNC Insiders sign up (free files and more): 🤍 NEW TO CNC OR STUCK IN A PROJECT? Schedule one-on-one time with me: 🤍 PLAYLISTS CNC FOR BEGINNERS: 🤍 CNC ENTREPRENEURS: 🤍 VECTRIC VCARVE & ASPIRE TUTORIALS FOR BEGINNERS: 🤍 If you currently own a CNC router, please take a moment to take this survey to share your experience with it: 🤍 Please support IDC Woodcraft Youtube channel: Buy me a cup of coffee: 🤍 Cool vector files for CNC router & CNC laser: 🤍 CNC FOR BEGINNERS PODCAST: 🤍 Garrett Fromme Facebook: 🤍 Website: 🤍idcwoodcraft.com Email: support🤍idcwoodcraft.com
This is Lathe Skills, a multi-part series to help you learn basic machine shop work. Exclusive videos, drawings, models & plans available on Patreon! 🤍 Want to support me? Patreon is the best way: 🤍 You can also donate via PayPal if you prefer: 🤍 Watch the whole Lathe Skills series at 🤍 Here's the calculator app you saw me using: 🤍 Here are links for many of the tools that you see me using: (I earn small commissions on these links) • Chamfering Tool : 🤍 • Deburring Tool : 🤍 • Anchor Lube : 🤍 • Boeshield T-9 : 🤍 • Knurling Tool : 🤍 • Tapered Reamer : 🤍 • Nicholson files : 🤍 • Nicholson needle files : 🤍 • Machinist’s scale : 🤍 • Mixed metric/imperial dial caliper : 🤍 • Mitutoyo dial caliper : 🤍 • Mitutoyo micrometer set : 🤍 • Mitutoyo depth micrometer : 🤍 • Mitutoyo edge finder : 🤍 • Mitutoyo dial indicator : 🤍 • Mitutoyo dial test indicator : 🤍 • Mitutoyo snap gauge set : 🤍 • Fowler dial bore gauge : 🤍 • Fowler inside micrometer : 🤍 • Starrett automatic center punch : 🤍 • Brownell’s Oxpho Blue : 🤍 • JAX Metal Blackener : 🤍 • 1-2-3 Blocks : 🤍 • Dormer center drills : 🤍 • 6” Divider : 🤍 • NOGA arm with magnetic base : 🤍 • Collet Block set : 🤍 • DeWalt drill and driver kit : 🤍 • DeWalt portable band saw : 🤍 • DeWalt band saw blades : 🤍 • Dykem Layout fluid : 🤍 • High Speed Steel parting blade : 🤍 • High Speed Steel blade holder : 🤍 • High Speed Steel tool blanks : 🤍 • Grizzly Pre-ground tool bits : 🤍 • AXA tool holders : 🤍 • Quick Change Toolpost : 🤍 • Norton oil stone kit : 🤍 • Norton small sharpening stone: 🤍 • Tap Magic cutting oil : 🤍 • WD-40 w/ smart straw : 🤍 • End mills : 🤍 • Milling machine starter pack : 🤍 • Super 77 Spray Glue : 🤍 • Metal Lathe For Home Machinists: 🤍 • Loctite 603 : 🤍 • Forceps : 🤍 • Mill Parallels : 🤍 • GearWrench ratcheting tap & die set : 🤍 For more cool shop projects, check out 🤍 Want more content like this? Try these places: Blondihacks on Instagram : 🤍 Blondihacks on Twitter : 🤍 Blondihacks on Patreon : 🤍
In the latest Tip of the Day, Mark covers an essential topic that every machinist needs to know, but that is confusing and often misunderstood: How to calculate speeds and feeds. In typical Mark fashion, not only do you get the formulas and a step-by-step method for doing the calculations, but also an explanation of each term and some great animations to tie it all together. Every student, machine operator, or aspiring machinist should bookmark this video! Bonus Content: 🤍 Haas Shop Notes: 🤍 Inch Tapping Feeds: 🤍 Don’t miss any TIP-OF-THE-DAY videos. Click here 🤍 to join our email list! If you enjoyed this video, please hit the like button and share it with a friend who’ll find it helpful . . . and thanks! Follow Haas: Facebook – 🤍 Instagram – 🤍 Twitter – 🤍 LinkedIn - 🤍
We're back at DeBolt Machine to compare turning 1018, 1045, 12L15 and 4140 steel on a 16" Lathe to learn about speeds & feed, lathe tooling, inserts, and surface finishes! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Links for this video: Debolt Machine: 🤍 Alro: 🤍 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Reach us / CNC Info: Speeds & Feeds: 🤍 Download Fusion 360: 🤍 Online Fusion 360 Training: 🤍 Hands-On CNC Classes: 🤍 SMW Products: 🤍 CNC Resources: 🤍 5 Reasons to Use a Fixture Plate on Your CNC Machine: 🤍
In this video I'll show the performance of a hand ground High Speed Steel tool with a chip breaker feature, then test a carbide insert tool specifically designed to do the same task. I'll also take a look at how the feed and speed affects chip geometry. Take a look.
Learn step-by-step as CNC master technician Jeff thoroughly explains how to calculate feeds and speeds for your CNC machine. Read full transcript here: 🤍 What is chip load? How does the chip load determine how fast your CNC feed rate Inches Per Minute (IPM) should be? Using his CaMaster 7 Horsepower Cobra X3 CNC Machine, Jeff answers these questions and more in our latest CNC video. ToolsToday provided product. Feed, Speed, Chip Load & Ramp Down CNC Running Parameters 3/8" Dia. Solid Carbide, Spektra™ Coated Compression Spiral Flute CNC Router Bit No. 46172-K 🤍 Feed Rate (IPM): 740 Speed (RPM): 18,000 Chip Load (Per Tooth): 0.020" Ramp Down: 370 IPM 1/4" Dia. Solid Carbide, Spektra™ Coated Compression Spiral Flute CNC Router Bit No. 46170-K 🤍 Feed Rate (IPM): 540 Speed (RPM): 18,000 Chip Load (Per Tooth): 0.015" Ramp Down: 270 IPM 1/8" Dia. Solid Carbide, Spektra™ Coated Up-Cut Spiral Flute Router Bit No. 46100-K 🤍 Feed Rate (IPM): 180 Speed (RPM): 18,000 Chip Load (Per Tooth): 0.005" Ramp Down: 90 IPM 1/16" Dia. Solid Carbide, Spektra™ Coated Down-Cut Spiral Flute Router Bit No. 46237-K 🤍 Feed Rate (IPM): 100 Speed (RPM): 18,000 Chip Load (Per Tooth): 0.003" Ramp Down: 50 IPM 60° V-Groove Solid Carbide Insert Knife Amana Tool CNC Router Bit No. RC-1108 🤍 Feed Rate (IPM): 30 Speed (RPM): 18,000 Chip Load (Per Tooth): 0.002" Ramp Down: 15 IPM Subscribe - 🤍 Shop the website - 🤍 Like at Facebook - 🤍 Follow on Instagram - 🤍 Produced by Jeff from Work Against The Grain Subscribe 🤍 CNC Machine Shown 🤍 Thank you for watching this How To Calculate Feeds and Speeds for Your CNC Machine Video by ToolsToday
There comes a time in every hobby machinist's life where they need to calculate feedrates on their own, and it doesn't need to be a scary thing. Calculating feeds and speeds is a process that is easy once you understand the physical concepts behind the variables. Feeds and Speeds Calculator I used: 🤍 NYC CNC F&S Series: 🤍 Applied Science F&S Video: 🤍 CNC Cookbook: 🤍 Also, this video is not sponsored by Kodiak, I just happened to start with their aluminum endmills. If someone does want to sponsor me though... 😄 - Help support content like this: 🤍 Can’t get enough of me? Check out my second channel: 🤍 Stalk me on Social Media: 🤍WinstonMakes (insta/twitter) Etsy Store: 🤍
The material properties of different species of wood can vary significantly, but if you have some reliable recipes for a hard wood and a soft wood, you should be able to figure out some speeds and feeds for everything in between. If for some reason you want to print out that spreadsheet or write in your own speeds and feeds as you discover them: 🤍 Learn more about our line of Desktop CNC machines at carbide3d.com - Music by 🤍
Proper rpm on the lathe and mill increases tool life and productivity. This lesson discusses how to determine the proper cutting speed for various metals and how to convert that cutting speed to the correct rpm for the tool or part.
🤍GCodeTutor talks about spindle speed and explains how to calculate the correct speed based on your tool characteristics, workpiece material, and cutting feed. Feeds and speeds are some of the most important, yet basic parameters of any give application within a machine shop. No matter how advanced your machine tool is or sophisticated your cutting tool is - if you run a program using the wrong feeds and speeds you'll always end up with the same result: a scrapped part (and likely a broken tool). It is important, therefore, to understand how to calculate those parameters and how to use those calculations to improve your efficiency and productivity. Spindle speed refers to the rotational speed of the machine spindle and it's measured in RPM (revolutions per minute). Calculating the spindle speed (N) is pretty simple but in order to do so you'll need to have the following information handy: V = Cutting speed (typically provided by the cutting tool manufacturer and depending on the material being machined). D= Tool diameter Once you have this information, all you have to do is apply one the following formulas (depending on what measurement system you are working with): Imperial system: N = (V*12)/(π*D) Metric system: N = (V*1000)/(π*D) To learn more about machine shop math, visit Gcodetutor.com (🤍 Stay tuned for more machining videos! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Recommended CNC programming books: Fanuc CNC Custom Macros - 🤍 CNC Programming Handbook - 🤍 CNC Programming Techniques - 🤍 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Practical Machinist is the largest and most engaged metalworking community across the web. With more than 160,000 registered members and 300,000+ social media followers, Practical Machinist is the easiest way to learn new techniques, get answers quickly, and discuss common challenges with your peers. Visit Practical Machinist today to join the community and start connecting with your peers. Become a Practical Machinist member (🤍 Like us on Facebook (🤍 Follow us on Instagram (🤍 Follow us on Twitter (🤍 Connect with us on LinkedIn (🤍 #machineshopmath #CNCmachining #metalworking
This tutorial explains how to enter and set up speeds and feeds (for wood) for CNC router bits into the tool library in Vectric Vcarve (desktop & Pro) and Aspire. This how-to tutorial is a complete walkthrough of the Vectric tool library database. By the time you're done, you'll have a complete understanding of it and how to use the library works. FREE Speeds and Feeds table / chart download → 🤍 Starter set CNC router bit 8-pack. Click here now → 🤍 This video gives you extra tips and tricks, as well, Such as: → Feeds and speed → Stepover → Pass depth ...and more VECTRIC SOFTWARE LINKS [Please use these links when you order. It gives me credit. Thank you] → Vcarve Pro (Recommended): 🤍 → Vcarve Desktop (24x24” size limit): 🤍 → Vectric Aspire (3D modeling): 🤍 → Cut2D (for the budget-minded): 🤍 Basically, by the time you are done, you'll know how to enter every single CNC router bit into the database. PLAYLISTS CNC FOR BEGINNERS playlist: 🤍 CNC ENTREPRENEURS playlist: 🤍 VCARVE FOR BEGINNERS playlist: 🤍 - FOR THE BEGINNER CNC ROUTER → Complete CNC router starter bit set (w/ free vector files) 🤍 → 1” Surfacing bit required for surfacing your spoilboard: 🤍 → Glass engraving bit (best): 🤍 - OTHER ‘MUST HAVES’ FOR BEGINNERS - → Calipers. For the price, it is a very good set: 🤍 → Hearing protection (plugs don't work): 🤍 If you currently own a CNC router, please take a moment to take this survey to share your experience with it: 🤍 Cool vector files for CNC router & CNC laser: 🤍 Learn how to start an online business from scratch: 🤍 Words are the top-selling items of all time with CNC products. Get the free WORDS THAT SELL list: 🤍 CNC For Beginners Podcast: 🤍 CNC Insiders sign up (free files and more): 🤍 OTHER WAYS TO SUPPORT THIS CHANNEL → LIKE the video → COMMENT about the video → DONATE: 🤍 → PURCHASE through links I provide in these descriptions. I receive affiliate commissions and the cost is the same to you. Facebook: 🤍 Website: 🤍idcwoodcraft.com Email: support🤍idcwoodcraft.com #cnc #cncrouters #cncforbeginners #vcarvetutorials #vectric
This video helps you understand feeds and speeds, and why they are important. You will learn what the wrong feeds and speeds do to your CNC router bits. This video discusses how wrong feeds and speeds causes your CNC router bit to get too hot and get dull. You will learn to see the signs of improper feeds and speeds, as well. Keeping router bits sharp is important to maintaining good finishes in your cuts. There are 2 things that can happen when the settings are wrong. The router bit will break if the feed and speed combination is too slow. The second problem, if they are set too high, is they will overheat the cutting edges of the CNC router bits, allowing them to get dull very quickly. Feeds and speeds also affect the finish of your work. However, this video does not cover this part. Feeds & Speeds Table will be available shortly. ROUTER BIT SET FOR CNC ROUTERS → 8-pc Carbide CNC router bit set (w/ free vector files) 🤍 → 1” Surfacing bit required for surfacing your spoilboard:🤍 Use this discount code (UNW8VE2V) → Drag bit to do glass engraving w/ CNC router: 🤍 OTHER ‘MUST HAVE’ TOOLS FOR CNC ROUTER WORK → Calipers. For the price, it is a very good set: 🤍 → Hearing protection (plugs don't work): 🤍 If you currently own a CNC router, please take a moment to take this survey to share your experience with it: 🤍 CNC FOR BEGINNERS playlist: 🤍 CNC ENTREPRENEURS playlist: 🤍 VCARVE FOR BEGINNERS playlist: 🤍 Cool vector files for CNC router & CNC laser: 🤍 Learn how to start an online business from scratch: 🤍 Words are the top-selling items of all time with CNC products. Get the free WORDS THAT SELL list: 🤍 NEED A WEBSITE? An ecom website prebuilt for CNC’ers, built in 3 days, for $200. Mention ‘IDC Woodcraft’ to get 10% off: 🤍 CNC For Beginners Podcast: 🤍 CNC Insiders sign up (free files and more): 🤍 OTHER WAYS TO SUPPORT THIS CHANNEL → LIKE the video → COMMENT about the video → DONATE: 🤍 → PURCHASE through links I provide in these descriptions. I receive affiliate commissions and the cost is the same to you. Facebook: 🤍 Website: 🤍idcwoodcraft.com Email: support🤍idcwoodcraft.com #cnc #cncrouters #cncforbeginners #vcarvetutorials #vectric
How to solve the hardest problem in Feeds and Speeds, quickly and easily, with G-Wizard. Part of the G-Wizard Video University: 🤍
Desktop CNC machines like the Carbide 3D Shapeoko can do amazing things if you have the right tooling, workholding, speeds, and feeds. This video is full of tips, tricks, and detailed information that can help you get a better cut! First, we'll take an in-depth look at tooling, the importance of flute count, and minimum chip load. Next, it's time for test cuts, speeds, feeds, and data review. Last but not least, we'll machine a relatively large piece of stock into an intake manifold plenum base with raised velocity stacks! 00:00 Intro 01:37 Tooling Options 02:05 Manufacturer Recommendations VS. Minimum Chipload 04:12 Flute Count 05:39 Machine Setup 06:56 Makita Router 08:11 Adaptive VS. Pocket 08:53 Test Part CAD 10:06 Adaptive Slot CAM 14:05 Test Cut 1: Shallow Adaptive 15:31 Test Cut 2: High Depth Adaptive 18:07 Test Cut 3: Old Speeds & Feeds 20:45 Test Cut Conclusion + Speeds & Feeds Software Comparison 21:51 Intake Manifold Speeds & Feeds 23:03 CNC Machining Intake Manifold (Adaptive/Roughing) 25:47 Vesc Data 27:13 CNC Machining Intake Manifold (Remaining Adaptive/Roughing) 27:43 CNC Machining Intake Manifold (Finishing - Scallop + 2D Contour) 27:58 Measuring The Part 28:43 Outro ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Links for this video Ways to Upgrade Your Shapeoko 3 | 🤍 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Reach us / CNC Info: Speeds & Feeds: 🤍 Download Fusion 360: 🤍 Online Fusion 360 Training: 🤍 Hands-On CNC Classes: 🤍 SMW Products: 🤍 CNC Resources: 🤍 5 Reasons to Use a Fixture Plate on Your CNC Machine: 🤍
This episode of Machining Fundamentals is a high-level overview and introduction to exactly what feeds and speeds are. We'll be looking at why it's so important to get these values right, what happens if you don't get them right, and how you can set your own feeds and speeds. Machining Fundamentals is a series created to help you brush up on your machining knowledge. Each episode is hosted by one of our in-house experts and provides a detailed overview of a specific machining tool/process. Check out our new podcast! “The New Possible” is a podcast that sheds light on the future of making things - from ventilators to sustainable motorcycles - in a relatable and authentic way. Each episode tells an engaging, thought-provoking, and technically relevant story of how a company unlocks their new possible using Autodesk’s Fusion 360. ►FREE TRIAL | 🤍 ►SUBSCRIBE | 🤍 ►GET STARTED | 🤍 CONNECT: INSTAGRAM | 🤍 FACEBOOK | 🤍 TWITTER | 🤍 LISTEN: BLOG | 🤍 SPOTIFY | 🤍 APPLE | 🤍 GOOGLE | 🤍
Here are some aluminium recipes for the Shapeoko 3 Desktop CNC and our line of coated endmills. NOTE: These speeds and feeds are for 6061-T6. If you have a different alloy, your mileage may vary. Here's what can happen if you're using an alloy that's bad for machining - 🤍 Cutters used: 102-Z: 🤍 112-Z: 🤍 201-Z: 🤍 - Music by 🤍
In this episode we take a look at a few bits that beginners need to get started with desktop CNC machines. We discuss bit terminology, common bits and touch on speeds and feeds. Bit selections from Sainsmart 🤍 Bits from FoxAlien 🤍 Bits from Spe Tools 🤍 Amana tools from Tooltoday 🤍 00:00 Introduction 02:00 Terminology 12:22 Common bits 22:12 Speeds and feeds 28:14 V carves Grahams Guide 🤍 Bits guide 🤍 I have recently set up a Patreon page to help keep making tutorials and keep my YouTube channel moving forward. 🤍 If you want to help but do not want to become a Patreon, you con contribute directly: 🤍 Some product links I use are affiliate links. This means they do not cost you any more but I might make a small commission in return which helps towards making these videos.
I forgot to mention RPM. I had the spindle at 16,000 RPM → 3/8" Compression bit: 🤍 → 1/8" Roundover bit: 🤍 💰 Coupons to save you money 💰 💲 - Router bits - use code JAYBATES for 10% off - 🤍 🌪️ - EF5 dust collector (use code JAY5 for 5% off) - 🤍 💲 - Save 10% on CMT saw blades at Taylor Toolworks with code CMT10 - 🤍 💲 - Save 10% on all MicroJig products with the code JayMicrojig10 - 🤍 💲 - Save 10% on CMT saw blades with the code JayCMT10 - 🤍 Mailing Address: PO Box 33 Mathiston, MS 39752 Social links: Lbry - 🤍 Odysee - 🤍 Twitter 🤍 Facebook 🤍 Instagram= 🤍
In this episode I talk about feeds and speeds with hobbyist grade machines and look at a couple tools to make it a no-brainer! purchasing from the links below supports DIY.Engineering, at no extra cost to you! HSMAdvisor and FSWizard: (use Discount Code: DIYENG for 20% off!) 🤍 Nitto Tape: 🤍 RKDR Arcade: 🤍ering *You make the difference, please Like/Comment/Subscribe to support the channel. If you would like to support DIY Engineering, please head over to: 🤍ering/sponsor See what My printer is doing: 🤍ering And, Lets Be Social: 🤍ering 🤍ering Music: Joakim Karud - intro/outro
🤍 See how the Machinst Calc Pro machinist calculator's built-in speeds and feeds solutions can make any shop more productive and profitable. Increase your tool life and your parts yield by optimizing your speeds and feeds. This quick demo briefly shows how to use this machining math and reference tool to do all your design, estimating and shop-floor calculations far more quickly, simply and accurately to improve your productivity and profitability. For more information or to find the dealer nearest you call 800-854-8075 or go to 🤍
Sit down with RouterBob as he goes through Feed & Speed information for CNC Routing. Discuss Chip Loads, Flutes, RPM, and Feed Rate.
🤍 See how the new Machinst Calc Pro 2 machinist calculator's built-in speeds and feeds solutions can make any shop more productive and profitable. Increase your tool life and your parts yield by optimizing your speeds and feeds. This quick demo briefly shows how to use this machining math and reference tool to do basic speed and feed calculations directly with the information from your chosen material's data sheet. Helps you solve all your design, estimating and shop-floor calculations far more quickly, simply and accurately to improve your productivity and profitability. For more information or to find the dealer nearest you call 800-854-8075 or go to 🤍
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CNC feeds and speeds aren't the same for every machine. Bit manufacturers provide suggested feeds, speeds, and chip loads. That's all well and good if your machine is industrial and can run 750ipm +. Entry level machines won't run at these recommended specs. You could always use the special formula (rpm x # of flutes x chip load) to find your feed rate, which will likely well exceed what an entry level machine can operate at. Or, you can make adjustments like I did and dial in the sweet spot for your home shop machine. It's not an impossible and doesn't require a mathematical degree. Check out how I dialed in the running specs for my Shark HD5 #cnc, #feeds&speeds, #Feedrate, #chipload, Amana 46202-K 1/4" down cut endmill Amana 45624-K 60° V bit
Learn to calculate RPM, Table Feed, Feed Per Tooth and Feed Per Revolution for metric programs.
Part one of a video presenting how chips are formed during a machining operation. Angles of attack, depth of cut, cutting speeds and feeds are explained in a way that will help the novice machinist obtain a better cutting action and prolong tool life. Thatlazymachinist Marc L'Ecuyer
We don't recommend CNC Machining at this speed at all times, this is showing some capabilities. If you walk into a machine shop, there's a good chance that there are programs that can be improved... they've just been running like that forever or because someone is too stubborn to improve it. We all want to make money... it can come down to being as efficient as possible. If you go crazy fast, but you're breaking tools or changing them out way too much, then that's counter-productive... but if you can find the sweet spot, maybe taking a program that was going 20 IPM and take it to 200 IPM… or 2 to 20, while maintaining great tool life, running how these modern tools are made to run, then you're going to be making everyone money. Mentioned the marketing standpoint... imagine walking a customer through your shop and the machine is running like the one in this video... something like that can set you apart from the rest and they'll probably tell everyone they know about what they saw because they might've never seen chips fly like that. Same goes for anyone in the industry getting a first impression of your shop, word can spread quickly. If you're the guy who made it happen... a machinist or programmer, the word can spread quickly for you as well, opening all kinds of doors. Set yourself apart from the rest in some way, no matter what your position is in the industry. Please Like and Subscribe! Thanks! Kennametal HARVI III End Mill from the video: 🤍 Help support FREE industrial education by purchasing the products shown in our videos at: 🤍. Easy purchasing, at a fair price. FREE CNC Machining Academy: 🤍 FREE Aerospace Academy: 🤍 Subscribe for daily content and expert knowledge: 🤍 _ _ FREE CNC Machining Academy. Join the Revolution: 🤍 Follow us on Instagram: 🤍 Like us on Facebook: 🤍 Join the conversation on our Facebook Group: 🤍 Connect with us on LinkedIn: 🤍 Follow our CEO, Titan Gilroy: 🤍 _ _ THANK YOU to our Partners who make this content possible: Kennametal - 🤍 Doosan - 🤍 Mastercam - 🤍 Solidworks - 🤍 Blaser Swisslube - 🤍 Trumpf - 🤍 Trumpf TruMark - 🤍 Trumpf TruPrint - 🤍 Mitutoyo - 🤍 FANUC America - 🤍 Haimer - 🤍 Schunk - 🤍 LNS - 🤍 Tormach - 🤍 #CNC #Machining #Machinist
Preparation for feed and speed tests. How to set mini lathe tool height, checking mini lathe compound gibs for play using a Noga NF1033 and what the mini lathe stock feed rate is. Also shown is how to calculate tap and drill sizes.
I discuss the basics of selecting the right cutter for the job, choosing feeds and speeds, and general setup and planning of CNC milling machine cuts.
🤍 See how the new Machinst Calc Pro 2 machinist calculator's built-in materials, processes, and tool types can simplify speed and feed solutions and make any shop more productive and profitable. This quick end milling demo briefly shows how to add these variables along with WOC, DOC and LOC to increase the accuracy of your start speeds as well as find cutting time, material removal rates, spindle horsepower and torque required. Increase your tool life and your parts yield by optimizing your speeds and feeds. Let this machining math and reference tool help solve all your design, estimating and shop-floor calculations far more quickly, simply and accurately. For more information or to find the dealer nearest you call 800-854-8075 or go to 🤍
A video explaining how to calculate a suitable turning speed - rpm [revolutions per minute] of material when operating a Centre Lathe / Metal Turning Lathe. This video seeks to outline theory and steps that are specific to preparing students to the content of SQA (Scottish Qualification Authority) courses and exams. This is specific to the CHESTER CUB 630 Centre Lathe 🤍 If any of the videos have errors regarding, terminology, techniques, theory etc in their content or if you have requests for future / further content then please email; cdtcraftdesigntechnology🤍gmail.com Regards CDT
Let's talk about Feeds & Speeds and use the Lakeshore Carbide "zig zag" method to learn how to calculate Feeds & Speeds for, well, just about any tool and material out there! Part 7 of the Lakeshore Carbide Tooling Video Series! 5 Reasons to Use a Fixture Plate on Your CNC Machine: 🤍
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