Basics of Machine tool Basics of Machine tool
- 1. 1 DISCOVER . LEARN . EMPOWER Basics of Machine tools INSTITUTE - UIE DEPARTMENT-MECHANICAL ENGINEERING Bachelor of Engineering (Mechanical Engineering) Subject Name and Code: Machining Processes 22MET253
- 2. CO1 Illustrate the concepts of machining, mechanics of machining, tools, jigs and fixtures. CO2 Choose the appropriate machining process, tool materials, lubrication technique for the fabrication of product. CO3 Distinguish the various types of metal cutting operations performed by different machines and the functions of Jigs & Fixtures. CO4 Compare the construction and working features, performance of various machining operations/ tools used in manufacturing. CO5 Select the suitable machining operation for fabrication of component as per required standards of quality. Course Objective & Outcomes To impart knowledge regarding various types of dies like blanking, punching, forming, bending and also to focus on fixture, molding, and gauge design. On the successful completion of this course, the student will be able to: And
- 3. INTRODUCTION ⚫Design of single point cutting tool is an important aspect of tool engineering. This unit deals with the design of tool shank, design of single point cutting tool, and various forces involved during machining of the workpiece. ⚫Strength and rigidity of tool is also taken into account while designing single point cutting tool.
- 4. 3 Types of Tools impor un t dea with t e d si n o ool s an design o sin e po t cutting tool, various force involved during machi ning f he w rengt p c an rigidity o tool is lso taken into account while designing single point cutting ool. Single point cutting tool One cutting tip is available e.g. lathe machine tools, shaping tools, planning tools, etc. De s M ig u n l t o i - f p s o i i n n t g c le u t p t i o n i g n t t o c o l utting tool is an More than one tip is available e.ga.smeilclitngfcuototelre, ngrini ndeinegr iwnheel, drill, etc. MULTIPOINT CUTTING TOOLS
- 5. Types of Cutting Tools Cutting tools performs the main machining operation. It is a body having teeth or cutting edges on it. They comprise of single point cutting tool or multipoint cutting tools. Single point cutting tool : This type of tool has a effective cutting edge and removes excess material from the workpeice along the cutting edge. These tools may be left-handed or right-handed. Again single point cutting tools classified as solid type and the tipped tool. Brazed tools are generally known as tool bits and are used in tool holders. The tipped type of tool is made from a good shank steel on which is mounted a tip of cutting tool material. Tip may be made of high speed steel or cemented carbide. Different types of carbide tips are generally used on tipped tool.
- 6. Geometry comprises mainly of nose, rake face of the tool, flank, heel and shank etc. The nose is shaped as conical with different angles. 5
- 7. NOMENCLATURE Of SINGLE POINT TOOL 15
- 8. Feed Back rake angle (αb) It is the angle between the face of the tool and a line parallel with base of the tool measured in a perpendicular plane through the side cutting edge. This angle helps in removing the chips away from the work piece.
- 9. It is the angle by which the face of tool is inclined side ways. This angle of tool determines the thickness of the tool behind the cutting edge. Side rake angle (αs) It is provided on tool to provide clearance between work piece and tool so as to prevent the rubbing of work- piece with end flank of tool. End relief angle It is defined as the angle between the portion of the end flank immediately below the cutting edge and a line perpendicular to the base of the tool, measured at right angles to the flank. It is the angle that allows the tool to cut without rubbing on the work- piece. Side relief angle It is the angle that prevents the interference as the tool enters the material. It is the angle between the portion of the side flank immediately below the side edge and a line perpendicular to the base of the tool measured at right angles to the side.
- 10. End cutting edge angle It is the angle between the end cutting edge and a line perpendicular to the shank of the tool. It provides clearance between tool cutting edge and work piece. Side cutting edge angle It is the angle between straight cutting edge on the side of tool and the side of the shank. It is also known as lead angle. It is responsible for turning the chip away from the finished surface.
- 11. Tool Signature Convenient way to specify tool angles by use of a standardized abbreviated system is known as tool signature or tool nomenclature. The seven elements that comprise the signature of a single point cutting tool can be stated in the following order: Tool signature 0-7-6-8-15-16- 0.8 1. Back rake angle (0°) 2. Side rake angle (7°) 3. End relief angle (6°) 4. Side relief angle (8°) 5. End cutting edge angle (15°) 6. Side cutting edge angle (16°) 7. Nose radius (0.8 mm)
- 12. Properties of cutting tool materials 1. Red hardness or Hot Hardness: It is the ability of a material to retain its hardness at high temperature 2. Wear resistance: It enables the cutting tool to retain its shape and cutting efficiency 3. Toughness: It relates to the ability of a material to resist shock or impact loads associated with interrupted cuts Classification tool materials 1. Carbon-Tool Steels: ➢ 0.6-1.5% carbon + little amount of Mn, Si, Cr, V to increase hardness. ➢ Low carbon varieties possess good toughness & shock resistance. ➢ High carbon varieties possess good abrasion resistance 2. High Speed Steels (HSS): High carbon+ little amount Tungsten, Molybdenum, Cr, V & cobalt to increase hardness, toughness and wear résistance. High operating temperatures upto 600oC.
- 13. Two types of HSS i.e, is T-type and M-Type Vanadium increases abrasion resistance but higher percentage will decreases grindability. Chromium increases hardenability Cobalt is added to HSS to increase red hardness. 3. Cast Cobalt Base Alloys: It is a combination of W, Cr, carbon and Cobalt which form an alloy with red hardness, wear resistance and toughness. It is prepare by casting. Used for machining Cast iron, alloy steels, non-ferrous metals and super alloys 4. Cemented Carbides: These are carbides of W, Titanium and tantalum with small amount of cobalt produced by means of powder metallurgy route. Two types i.e, Straight Tungsten Carbide Cobalt Grade and Alloyed Tungsten Carbide Grade
- 14. Alloyed Tungsten Carbide Grade: All grades of steel at 3 to 4 times more speeds than HSS 5. Ceramic Tools: Straight Tungsten Carbide Cobalt Grade : Cast iron, non ferrous alloys, plastics, wood, glass etc. Aluminium Oxide, Silicon Carbide, Boron Carbide, Titanium Carbide, Titanium Boride High speed, longer tool life, superior surface finish, No coolant is required. 6. Diamond Tools: More abrasion resistance Used for turning grinding wheels Used to produce mirror surface finish. Diamond abrassive belts are used to produce TV screens Poly crystalline diamond inserts are brazed into cutting edges of circular saws for cutting construction materials like concrete, refractories, stone etc.
- 15. Classification of cutting tools as single point cutting tools & multi-point cutting tools, Tool signatures https://youtu.be/2E1UW_MxSWg https://youtu.be/TenF4JQ4pbw https://youtu.be/_WiYGc1_SCY
- 16. Text Books: 1. P. N. Rao, Manufacturing Technology ( Tata McGraw Hill ) 2. P. C. Sharma, A textbook of Production Technology ( S Chand Publication ) 3. Mikell P. Groover, Manufacturing Technology Wiley. 4. W. Chapman, Manufacturing Technology, Edward Arnold. Reference Books: 1. Amitabha Ghosh &Asok Kumar Malik, Manufacturing Science (Affiliated East West Press Pvt. Ltd.) 2. J.S. Campbell, Principles of Manufacturing Materials & Processes (Tata McGraw Hill) 3. S. Kalpakjian & Steven R. Schmid, Manufacturing Engineering & Technology ( Pearson)